From 49bdee82cd5f623d36d0a6eb0fd72ec702398dc5 Mon Sep 17 00:00:00 2001 From: Kristofer Jonsson Date: Mon, 6 Apr 2020 13:21:21 +0200 Subject: Add Ethos-u core driver Change-Id: I541862775031c21e6483f26446a29dfe452382ab --- src/ethosu55_interface.h | 16590 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 16590 insertions(+) create mode 100644 src/ethosu55_interface.h (limited to 'src/ethosu55_interface.h') diff --git a/src/ethosu55_interface.h b/src/ethosu55_interface.h new file mode 100644 index 0000000..856b140 --- /dev/null +++ b/src/ethosu55_interface.h @@ -0,0 +1,16590 @@ +/* + * Copyright (c) 2019-2020 Arm Limited. All rights reserved. + * + * SPDX-License-Identifier: Apache-2.0 + * + * Licensed under the Apache License, Version 2.0 (the License); you may + * not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an AS IS BASIS, WITHOUT + * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#pragma once + +#ifdef __KERNEL__ +#include +#else +#include +#endif + +#ifdef MODEL_REGS +#include "core/simple_types.h" +#endif + +#if !defined(__cplusplus) || __cplusplus < 201402L +#define CONSTEXPR +#else +#define CONSTEXPR constexpr +#endif + +#ifndef __cplusplus +#define STRUCT struct +#else +#define STRUCT +#include +#endif + +#define NNX_ARCH_VERSION_MAJOR 0 +#define NNX_ARCH_VERSION_MINOR 154 +#define NNX_ARCH_VERSION_PATCH 0 +#define NNX_ARCH_BASENAME "ULTAN" + +// Register offsets + +// +// Register subpage DEBUG_INTERNAL +// +#define NPU_REG_SHARED_BUFFER0 0x0400 +#define NPU_REG_SHARED_BUFFER1 0x0404 +#define NPU_REG_SHARED_BUFFER2 0x0408 +#define NPU_REG_SHARED_BUFFER3 0x040C +#define NPU_REG_SHARED_BUFFER4 0x0410 +#define NPU_REG_SHARED_BUFFER5 0x0414 +#define NPU_REG_SHARED_BUFFER6 0x0418 +#define NPU_REG_SHARED_BUFFER7 0x041C +#define NPU_REG_SHARED_BUFFER8 0x0420 +#define NPU_REG_SHARED_BUFFER9 0x0424 +#define NPU_REG_SHARED_BUFFER10 0x0428 +#define NPU_REG_SHARED_BUFFER11 0x042C +#define NPU_REG_SHARED_BUFFER12 0x0430 +#define NPU_REG_SHARED_BUFFER13 0x0434 +#define NPU_REG_SHARED_BUFFER14 0x0438 +#define NPU_REG_SHARED_BUFFER15 0x043C +#define NPU_REG_SHARED_BUFFER16 0x0440 +#define NPU_REG_SHARED_BUFFER17 0x0444 +#define NPU_REG_SHARED_BUFFER18 0x0448 +#define NPU_REG_SHARED_BUFFER19 0x044C +#define NPU_REG_SHARED_BUFFER20 0x0450 +#define NPU_REG_SHARED_BUFFER21 0x0454 +#define NPU_REG_SHARED_BUFFER22 0x0458 +#define NPU_REG_SHARED_BUFFER23 0x045C +#define NPU_REG_SHARED_BUFFER24 0x0460 +#define NPU_REG_SHARED_BUFFER25 0x0464 +#define NPU_REG_SHARED_BUFFER26 0x0468 +#define NPU_REG_SHARED_BUFFER27 0x046C +#define NPU_REG_SHARED_BUFFER28 0x0470 +#define NPU_REG_SHARED_BUFFER29 0x0474 +#define NPU_REG_SHARED_BUFFER30 0x0478 +#define NPU_REG_SHARED_BUFFER31 0x047C +#define NPU_REG_SHARED_BUFFER32 0x0480 +#define NPU_REG_SHARED_BUFFER33 0x0484 +#define NPU_REG_SHARED_BUFFER34 0x0488 +#define NPU_REG_SHARED_BUFFER35 0x048C +#define NPU_REG_SHARED_BUFFER36 0x0490 +#define NPU_REG_SHARED_BUFFER37 0x0494 +#define NPU_REG_SHARED_BUFFER38 0x0498 +#define NPU_REG_SHARED_BUFFER39 0x049C +#define NPU_REG_SHARED_BUFFER40 0x04A0 +#define NPU_REG_SHARED_BUFFER41 0x04A4 +#define NPU_REG_SHARED_BUFFER42 0x04A8 +#define NPU_REG_SHARED_BUFFER43 0x04AC +#define NPU_REG_SHARED_BUFFER44 0x04B0 +#define NPU_REG_SHARED_BUFFER45 0x04B4 +#define NPU_REG_SHARED_BUFFER46 0x04B8 +#define NPU_REG_SHARED_BUFFER47 0x04BC +#define NPU_REG_SHARED_BUFFER48 0x04C0 +#define NPU_REG_SHARED_BUFFER49 0x04C4 +#define NPU_REG_SHARED_BUFFER50 0x04C8 +#define NPU_REG_SHARED_BUFFER51 0x04CC +#define NPU_REG_SHARED_BUFFER52 0x04D0 +#define NPU_REG_SHARED_BUFFER53 0x04D4 +#define NPU_REG_SHARED_BUFFER54 0x04D8 +#define NPU_REG_SHARED_BUFFER55 0x04DC +#define NPU_REG_SHARED_BUFFER56 0x04E0 +#define NPU_REG_SHARED_BUFFER57 0x04E4 +#define NPU_REG_SHARED_BUFFER58 0x04E8 +#define NPU_REG_SHARED_BUFFER59 0x04EC +#define NPU_REG_SHARED_BUFFER60 0x04F0 +#define NPU_REG_SHARED_BUFFER61 0x04F4 +#define NPU_REG_SHARED_BUFFER62 0x04F8 +#define NPU_REG_SHARED_BUFFER63 0x04FC +#define NPU_REG_SHARED_BUFFER64 0x0500 +#define NPU_REG_SHARED_BUFFER65 0x0504 +#define NPU_REG_SHARED_BUFFER66 0x0508 +#define NPU_REG_SHARED_BUFFER67 0x050C +#define NPU_REG_SHARED_BUFFER68 0x0510 +#define NPU_REG_SHARED_BUFFER69 0x0514 +#define NPU_REG_SHARED_BUFFER70 0x0518 +#define NPU_REG_SHARED_BUFFER71 0x051C +#define NPU_REG_SHARED_BUFFER72 0x0520 +#define NPU_REG_SHARED_BUFFER73 0x0524 +#define NPU_REG_SHARED_BUFFER74 0x0528 +#define NPU_REG_SHARED_BUFFER75 0x052C +#define NPU_REG_SHARED_BUFFER76 0x0530 +#define NPU_REG_SHARED_BUFFER77 0x0534 +#define NPU_REG_SHARED_BUFFER78 0x0538 +#define NPU_REG_SHARED_BUFFER79 0x053C +#define NPU_REG_SHARED_BUFFER80 0x0540 +#define NPU_REG_SHARED_BUFFER81 0x0544 +#define NPU_REG_SHARED_BUFFER82 0x0548 +#define NPU_REG_SHARED_BUFFER83 0x054C +#define NPU_REG_SHARED_BUFFER84 0x0550 +#define NPU_REG_SHARED_BUFFER85 0x0554 +#define NPU_REG_SHARED_BUFFER86 0x0558 +#define NPU_REG_SHARED_BUFFER87 0x055C +#define NPU_REG_SHARED_BUFFER88 0x0560 +#define NPU_REG_SHARED_BUFFER89 0x0564 +#define NPU_REG_SHARED_BUFFER90 0x0568 +#define NPU_REG_SHARED_BUFFER91 0x056C +#define NPU_REG_SHARED_BUFFER92 0x0570 +#define NPU_REG_SHARED_BUFFER93 0x0574 +#define NPU_REG_SHARED_BUFFER94 0x0578 +#define NPU_REG_SHARED_BUFFER95 0x057C +#define NPU_REG_SHARED_BUFFER96 0x0580 +#define NPU_REG_SHARED_BUFFER97 0x0584 +#define NPU_REG_SHARED_BUFFER98 0x0588 +#define NPU_REG_SHARED_BUFFER99 0x058C +#define NPU_REG_SHARED_BUFFER100 0x0590 +#define NPU_REG_SHARED_BUFFER101 0x0594 +#define NPU_REG_SHARED_BUFFER102 0x0598 +#define NPU_REG_SHARED_BUFFER103 0x059C +#define NPU_REG_SHARED_BUFFER104 0x05A0 +#define NPU_REG_SHARED_BUFFER105 0x05A4 +#define NPU_REG_SHARED_BUFFER106 0x05A8 +#define NPU_REG_SHARED_BUFFER107 0x05AC +#define NPU_REG_SHARED_BUFFER108 0x05B0 +#define NPU_REG_SHARED_BUFFER109 0x05B4 +#define NPU_REG_SHARED_BUFFER110 0x05B8 +#define NPU_REG_SHARED_BUFFER111 0x05BC +#define NPU_REG_SHARED_BUFFER112 0x05C0 +#define NPU_REG_SHARED_BUFFER113 0x05C4 +#define NPU_REG_SHARED_BUFFER114 0x05C8 +#define NPU_REG_SHARED_BUFFER115 0x05CC +#define NPU_REG_SHARED_BUFFER116 0x05D0 +#define NPU_REG_SHARED_BUFFER117 0x05D4 +#define NPU_REG_SHARED_BUFFER118 0x05D8 +#define NPU_REG_SHARED_BUFFER119 0x05DC +#define NPU_REG_SHARED_BUFFER120 0x05E0 +#define NPU_REG_SHARED_BUFFER121 0x05E4 +#define NPU_REG_SHARED_BUFFER122 0x05E8 +#define NPU_REG_SHARED_BUFFER123 0x05EC +#define NPU_REG_SHARED_BUFFER124 0x05F0 +#define NPU_REG_SHARED_BUFFER125 0x05F4 +#define NPU_REG_SHARED_BUFFER126 0x05F8 +#define NPU_REG_SHARED_BUFFER127 0x05FC +#define NPU_REG_SHARED_BUFFER128 0x0600 +#define NPU_REG_SHARED_BUFFER129 0x0604 +#define NPU_REG_SHARED_BUFFER130 0x0608 +#define NPU_REG_SHARED_BUFFER131 0x060C +#define NPU_REG_SHARED_BUFFER132 0x0610 +#define NPU_REG_SHARED_BUFFER133 0x0614 +#define NPU_REG_SHARED_BUFFER134 0x0618 +#define NPU_REG_SHARED_BUFFER135 0x061C +#define NPU_REG_SHARED_BUFFER136 0x0620 +#define NPU_REG_SHARED_BUFFER137 0x0624 +#define NPU_REG_SHARED_BUFFER138 0x0628 +#define NPU_REG_SHARED_BUFFER139 0x062C +#define NPU_REG_SHARED_BUFFER140 0x0630 +#define NPU_REG_SHARED_BUFFER141 0x0634 +#define NPU_REG_SHARED_BUFFER142 0x0638 +#define NPU_REG_SHARED_BUFFER143 0x063C +#define NPU_REG_SHARED_BUFFER144 0x0640 +#define NPU_REG_SHARED_BUFFER145 0x0644 +#define NPU_REG_SHARED_BUFFER146 0x0648 +#define NPU_REG_SHARED_BUFFER147 0x064C +#define NPU_REG_SHARED_BUFFER148 0x0650 +#define NPU_REG_SHARED_BUFFER149 0x0654 +#define NPU_REG_SHARED_BUFFER150 0x0658 +#define NPU_REG_SHARED_BUFFER151 0x065C +#define NPU_REG_SHARED_BUFFER152 0x0660 +#define NPU_REG_SHARED_BUFFER153 0x0664 +#define NPU_REG_SHARED_BUFFER154 0x0668 +#define NPU_REG_SHARED_BUFFER155 0x066C +#define NPU_REG_SHARED_BUFFER156 0x0670 +#define NPU_REG_SHARED_BUFFER157 0x0674 +#define NPU_REG_SHARED_BUFFER158 0x0678 +#define NPU_REG_SHARED_BUFFER159 0x067C +#define NPU_REG_SHARED_BUFFER160 0x0680 +#define NPU_REG_SHARED_BUFFER161 0x0684 +#define NPU_REG_SHARED_BUFFER162 0x0688 +#define NPU_REG_SHARED_BUFFER163 0x068C +#define NPU_REG_SHARED_BUFFER164 0x0690 +#define NPU_REG_SHARED_BUFFER165 0x0694 +#define NPU_REG_SHARED_BUFFER166 0x0698 +#define NPU_REG_SHARED_BUFFER167 0x069C +#define NPU_REG_SHARED_BUFFER168 0x06A0 +#define NPU_REG_SHARED_BUFFER169 0x06A4 +#define NPU_REG_SHARED_BUFFER170 0x06A8 +#define NPU_REG_SHARED_BUFFER171 0x06AC +#define NPU_REG_SHARED_BUFFER172 0x06B0 +#define NPU_REG_SHARED_BUFFER173 0x06B4 +#define NPU_REG_SHARED_BUFFER174 0x06B8 +#define NPU_REG_SHARED_BUFFER175 0x06BC +#define NPU_REG_SHARED_BUFFER176 0x06C0 +#define NPU_REG_SHARED_BUFFER177 0x06C4 +#define NPU_REG_SHARED_BUFFER178 0x06C8 +#define NPU_REG_SHARED_BUFFER179 0x06CC +#define NPU_REG_SHARED_BUFFER180 0x06D0 +#define NPU_REG_SHARED_BUFFER181 0x06D4 +#define NPU_REG_SHARED_BUFFER182 0x06D8 +#define NPU_REG_SHARED_BUFFER183 0x06DC +#define NPU_REG_SHARED_BUFFER184 0x06E0 +#define NPU_REG_SHARED_BUFFER185 0x06E4 +#define NPU_REG_SHARED_BUFFER186 0x06E8 +#define NPU_REG_SHARED_BUFFER187 0x06EC +#define NPU_REG_SHARED_BUFFER188 0x06F0 +#define NPU_REG_SHARED_BUFFER189 0x06F4 +#define NPU_REG_SHARED_BUFFER190 0x06F8 +#define NPU_REG_SHARED_BUFFER191 0x06FC +#define NPU_REG_SHARED_BUFFER192 0x0700 +#define NPU_REG_SHARED_BUFFER193 0x0704 +#define NPU_REG_SHARED_BUFFER194 0x0708 +#define NPU_REG_SHARED_BUFFER195 0x070C +#define NPU_REG_SHARED_BUFFER196 0x0710 +#define NPU_REG_SHARED_BUFFER197 0x0714 +#define NPU_REG_SHARED_BUFFER198 0x0718 +#define NPU_REG_SHARED_BUFFER199 0x071C +#define NPU_REG_SHARED_BUFFER200 0x0720 +#define NPU_REG_SHARED_BUFFER201 0x0724 +#define NPU_REG_SHARED_BUFFER202 0x0728 +#define NPU_REG_SHARED_BUFFER203 0x072C +#define NPU_REG_SHARED_BUFFER204 0x0730 +#define NPU_REG_SHARED_BUFFER205 0x0734 +#define NPU_REG_SHARED_BUFFER206 0x0738 +#define NPU_REG_SHARED_BUFFER207 0x073C +#define NPU_REG_SHARED_BUFFER208 0x0740 +#define NPU_REG_SHARED_BUFFER209 0x0744 +#define NPU_REG_SHARED_BUFFER210 0x0748 +#define NPU_REG_SHARED_BUFFER211 0x074C +#define NPU_REG_SHARED_BUFFER212 0x0750 +#define NPU_REG_SHARED_BUFFER213 0x0754 +#define NPU_REG_SHARED_BUFFER214 0x0758 +#define NPU_REG_SHARED_BUFFER215 0x075C +#define NPU_REG_SHARED_BUFFER216 0x0760 +#define NPU_REG_SHARED_BUFFER217 0x0764 +#define NPU_REG_SHARED_BUFFER218 0x0768 +#define NPU_REG_SHARED_BUFFER219 0x076C +#define NPU_REG_SHARED_BUFFER220 0x0770 +#define NPU_REG_SHARED_BUFFER221 0x0774 +#define NPU_REG_SHARED_BUFFER222 0x0778 +#define NPU_REG_SHARED_BUFFER223 0x077C +#define NPU_REG_SHARED_BUFFER224 0x0780 +#define NPU_REG_SHARED_BUFFER225 0x0784 +#define NPU_REG_SHARED_BUFFER226 0x0788 +#define NPU_REG_SHARED_BUFFER227 0x078C +#define NPU_REG_SHARED_BUFFER228 0x0790 +#define NPU_REG_SHARED_BUFFER229 0x0794 +#define NPU_REG_SHARED_BUFFER230 0x0798 +#define NPU_REG_SHARED_BUFFER231 0x079C +#define NPU_REG_SHARED_BUFFER232 0x07A0 +#define NPU_REG_SHARED_BUFFER233 0x07A4 +#define NPU_REG_SHARED_BUFFER234 0x07A8 +#define NPU_REG_SHARED_BUFFER235 0x07AC +#define NPU_REG_SHARED_BUFFER236 0x07B0 +#define NPU_REG_SHARED_BUFFER237 0x07B4 +#define NPU_REG_SHARED_BUFFER238 0x07B8 +#define NPU_REG_SHARED_BUFFER239 0x07BC +#define NPU_REG_SHARED_BUFFER240 0x07C0 +#define NPU_REG_SHARED_BUFFER241 0x07C4 +#define NPU_REG_SHARED_BUFFER242 0x07C8 +#define NPU_REG_SHARED_BUFFER243 0x07CC +#define NPU_REG_SHARED_BUFFER244 0x07D0 +#define NPU_REG_SHARED_BUFFER245 0x07D4 +#define NPU_REG_SHARED_BUFFER246 0x07D8 +#define NPU_REG_SHARED_BUFFER247 0x07DC +#define NPU_REG_SHARED_BUFFER248 0x07E0 +#define NPU_REG_SHARED_BUFFER249 0x07E4 +#define NPU_REG_SHARED_BUFFER250 0x07E8 +#define NPU_REG_SHARED_BUFFER251 0x07EC +#define NPU_REG_SHARED_BUFFER252 0x07F0 +#define NPU_REG_SHARED_BUFFER253 0x07F4 +#define NPU_REG_SHARED_BUFFER254 0x07F8 +#define NPU_REG_SHARED_BUFFER255 0x07FC +#define DEBUG_INTERNAL_REGISTERS_SIZE 0x0800 + +// +// Register subpage HW_DEBUG_INTERNAL +// +#define NPU_REG_CLKFORCE 0x0140 +#define NPU_REG_DEBUG 0x0144 +#define NPU_REG_DEBUG2 0x0148 +#define NPU_REG_DEBUGCORE 0x014C +#define HW_DEBUG_INTERNAL_REGISTERS_SIZE 0x0150 + +// +// Register subpage NPU_BP +// +#define NPU_REG_BASEP0 0x0080 +#define NPU_REG_BASEP1 0x0084 +#define NPU_REG_BASEP2 0x0088 +#define NPU_REG_BASEP3 0x008C +#define NPU_REG_BASEP4 0x0090 +#define NPU_REG_BASEP5 0x0094 +#define NPU_REG_BASEP6 0x0098 +#define NPU_REG_BASEP7 0x009C +#define NPU_REG_BASEP8 0x00A0 +#define NPU_REG_BASEP9 0x00A4 +#define NPU_REG_BASEP10 0x00A8 +#define NPU_REG_BASEP11 0x00AC +#define NPU_REG_BASEP12 0x00B0 +#define NPU_REG_BASEP13 0x00B4 +#define NPU_REG_BASEP14 0x00B8 +#define NPU_REG_BASEP15 0x00BC +#define NPU_BP_REGISTERS_SIZE 0x00C0 + +// +// Register subpage NPU_IDS +// +#define NPU_REG_REVISION 0x0FC0 +#define NPU_REG_PID4 0x0FD0 +#define NPU_REG_PID5 0x0FD4 +#define NPU_REG_PID6 0x0FD8 +#define NPU_REG_PID7 0x0FDC +#define NPU_REG_PID0 0x0FE0 +#define NPU_REG_PID1 0x0FE4 +#define NPU_REG_PID2 0x0FE8 +#define NPU_REG_PID3 0x0FEC +#define NPU_REG_CID0 0x0FF0 +#define NPU_REG_CID1 0x0FF4 +#define NPU_REG_CID2 0x0FF8 +#define NPU_REG_CID3 0x0FFC +#define NPU_IDS_REGISTERS_SIZE 0x1000 + +// +// Register subpage NPU_REG +// +#define NPU_REG_ID 0x0000 +#define NPU_REG_STATUS 0x0004 +#define NPU_REG_CMD 0x0008 +#define NPU_REG_RESET 0x000C +#define NPU_REG_QBASE0 0x0010 +#define NPU_REG_QBASE1 0x0014 +#define NPU_REG_QREAD 0x0018 +#define NPU_REG_QCONFIG 0x001C +#define NPU_REG_QSIZE 0x0020 +#define NPU_REG_PROT 0x0024 +#define NPU_REG_CONFIG 0x0028 +#define NPU_REG_LOCK 0x002C +#define NPU_REG_REGIONCFG 0x003C +#define NPU_REG_AXI_LIMIT0 0x0040 +#define NPU_REG_AXI_LIMIT1 0x0044 +#define NPU_REG_AXI_LIMIT2 0x0048 +#define NPU_REG_AXI_LIMIT3 0x004C +#define NPU_REG_REGISTERS_SIZE 0x0050 + +// +// Register subpage PMU_INTERNAL +// +#define NPU_REG_PMCR 0x0180 +#define NPU_REG_PMCNTENSET 0x0184 +#define NPU_REG_PMCNTENCLR 0x0188 +#define NPU_REG_PMOVSSET 0x018C +#define NPU_REG_PMOVSCLR 0x0190 +#define NPU_REG_PMINTSET 0x0194 +#define NPU_REG_PMINTCLR 0x0198 +#define NPU_REG_PMCCNTR_LO 0x01A0 +#define NPU_REG_PMCCNTR_HI 0x01A4 +#define NPU_REG_PMCCNTR_CFG 0x01A8 +#define NPU_REG_PMCAXI_CHAN 0x01AC +#define NPU_REG_PMEVCNTR0 0x0300 +#define NPU_REG_PMEVCNTR1 0x0304 +#define NPU_REG_PMEVCNTR2 0x0308 +#define NPU_REG_PMEVCNTR3 0x030C +#define NPU_REG_PMEVTYPER0 0x0380 +#define NPU_REG_PMEVTYPER1 0x0384 +#define NPU_REG_PMEVTYPER2 0x0388 +#define NPU_REG_PMEVTYPER3 0x038C +#define PMU_INTERNAL_REGISTERS_SIZE 0x0390 + +// +// Register subpage TSU_DEBUG_INTERNAL +// +#define NPU_REG_IFM_PAD_TOP 0x0800 +#define NPU_REG_IFM_PAD_LEFT 0x0804 +#define NPU_REG_IFM_PAD_RIGHT 0x0808 +#define NPU_REG_IFM_PAD_BOTTOM 0x080C +#define NPU_REG_IFM_DEPTH_M1 0x0810 +#define NPU_REG_IFM_PRECISION 0x0814 +#define NPU_REG_IFM_UPSCALE 0x081C +#define NPU_REG_IFM_ZERO_POINT 0x0824 +#define NPU_REG_IFM_WIDTH0_M1 0x0828 +#define NPU_REG_IFM_HEIGHT0_M1 0x082C +#define NPU_REG_IFM_HEIGHT1_M1 0x0830 +#define NPU_REG_IFM_IB_END 0x0834 +#define NPU_REG_IFM_REGION 0x083C +#define NPU_REG_OFM_WIDTH_M1 0x0844 +#define NPU_REG_OFM_HEIGHT_M1 0x0848 +#define NPU_REG_OFM_DEPTH_M1 0x084C +#define NPU_REG_OFM_PRECISION 0x0850 +#define NPU_REG_OFM_BLK_WIDTH_M1 0x0854 +#define NPU_REG_OFM_BLK_HEIGHT_M1 0x0858 +#define NPU_REG_OFM_BLK_DEPTH_M1 0x085C +#define NPU_REG_OFM_ZERO_POINT 0x0860 +#define NPU_REG_OFM_WIDTH0_M1 0x0868 +#define NPU_REG_OFM_HEIGHT0_M1 0x086C +#define NPU_REG_OFM_HEIGHT1_M1 0x0870 +#define NPU_REG_OFM_REGION 0x087C +#define NPU_REG_KERNEL_WIDTH_M1 0x0880 +#define NPU_REG_KERNEL_HEIGHT_M1 0x0884 +#define NPU_REG_KERNEL_STRIDE 0x0888 +#define NPU_REG_PARALLEL_MODE 0x088C +#define NPU_REG_ACC_FORMAT 0x0890 +#define NPU_REG_ACTIVATION 0x0894 +#define NPU_REG_ACTIVATION_MIN 0x0898 +#define NPU_REG_ACTIVATION_MAX 0x089C +#define NPU_REG_WEIGHT_REGION 0x08A0 +#define NPU_REG_SCALE_REGION 0x08A4 +#define NPU_REG_AB_START 0x08B4 +#define NPU_REG_BLOCKDEP 0x08BC +#define NPU_REG_DMA0_SRC_REGION 0x08C0 +#define NPU_REG_DMA0_DST_REGION 0x08C4 +#define NPU_REG_DMA0_SIZE0 0x08C8 +#define NPU_REG_DMA0_SIZE1 0x08CC +#define NPU_REG_IFM2_BROADCAST 0x0900 +#define NPU_REG_IFM2_SCALAR 0x0904 +#define NPU_REG_IFM2_PRECISION 0x0914 +#define NPU_REG_IFM2_ZERO_POINT 0x0924 +#define NPU_REG_IFM2_WIDTH0_M1 0x0928 +#define NPU_REG_IFM2_HEIGHT0_M1 0x092C +#define NPU_REG_IFM2_HEIGHT1_M1 0x0930 +#define NPU_REG_IFM2_IB_START 0x0934 +#define NPU_REG_IFM2_REGION 0x093C +#define NPU_REG_IFM_BASE0 0x0A00 +#define NPU_REG_IFM_BASE0_HI 0x0A04 +#define NPU_REG_IFM_BASE1 0x0A08 +#define NPU_REG_IFM_BASE1_HI 0x0A0C +#define NPU_REG_IFM_BASE2 0x0A10 +#define NPU_REG_IFM_BASE2_HI 0x0A14 +#define NPU_REG_IFM_BASE3 0x0A18 +#define NPU_REG_IFM_BASE3_HI 0x0A1C +#define NPU_REG_IFM_STRIDE_X 0x0A20 +#define NPU_REG_IFM_STRIDE_X_HI 0x0A24 +#define NPU_REG_IFM_STRIDE_Y 0x0A28 +#define NPU_REG_IFM_STRIDE_Y_HI 0x0A2C +#define NPU_REG_IFM_STRIDE_C 0x0A30 +#define NPU_REG_IFM_STRIDE_C_HI 0x0A34 +#define NPU_REG_OFM_BASE0 0x0A40 +#define NPU_REG_OFM_BASE0_HI 0x0A44 +#define NPU_REG_OFM_BASE1 0x0A48 +#define NPU_REG_OFM_BASE1_HI 0x0A4C +#define NPU_REG_OFM_BASE2 0x0A50 +#define NPU_REG_OFM_BASE2_HI 0x0A54 +#define NPU_REG_OFM_BASE3 0x0A58 +#define NPU_REG_OFM_BASE3_HI 0x0A5C +#define NPU_REG_OFM_STRIDE_X 0x0A60 +#define NPU_REG_OFM_STRIDE_X_HI 0x0A64 +#define NPU_REG_OFM_STRIDE_Y 0x0A68 +#define NPU_REG_OFM_STRIDE_Y_HI 0x0A6C +#define NPU_REG_OFM_STRIDE_C 0x0A70 +#define NPU_REG_OFM_STRIDE_C_HI 0x0A74 +#define NPU_REG_WEIGHT_BASE 0x0A80 +#define NPU_REG_WEIGHT_BASE_HI 0x0A84 +#define NPU_REG_WEIGHT_LENGTH 0x0A88 +#define NPU_REG_WEIGHT_LENGTH_HI 0x0A8C +#define NPU_REG_SCALE_BASE 0x0A90 +#define NPU_REG_SCALE_BASE_HI 0x0A94 +#define NPU_REG_SCALE_LENGTH 0x0A98 +#define NPU_REG_OFM_SCALE 0x0AA0 +#define NPU_REG_OFM_SCALE_SHIFT 0x0AA4 +#define NPU_REG_OPA_SCALE 0x0AA8 +#define NPU_REG_OPA_SCALE_SHIFT 0x0AAC +#define NPU_REG_OPB_SCALE 0x0AB0 +#define NPU_REG_DMA0_SRC 0x0AC0 +#define NPU_REG_DMA0_SRC_HI 0x0AC4 +#define NPU_REG_DMA0_DST 0x0AC8 +#define NPU_REG_DMA0_DST_HI 0x0ACC +#define NPU_REG_DMA0_LEN 0x0AD0 +#define NPU_REG_DMA0_LEN_HI 0x0AD4 +#define NPU_REG_DMA0_SKIP0 0x0AD8 +#define NPU_REG_DMA0_SKIP0_HI 0x0ADC +#define NPU_REG_DMA0_SKIP1 0x0AE0 +#define NPU_REG_DMA0_SKIP1_HI 0x0AE4 +#define NPU_REG_IFM2_BASE0 0x0B00 +#define NPU_REG_IFM2_BASE0_HI 0x0B04 +#define NPU_REG_IFM2_BASE1 0x0B08 +#define NPU_REG_IFM2_BASE1_HI 0x0B0C +#define NPU_REG_IFM2_BASE2 0x0B10 +#define NPU_REG_IFM2_BASE2_HI 0x0B14 +#define NPU_REG_IFM2_BASE3 0x0B18 +#define NPU_REG_IFM2_BASE3_HI 0x0B1C +#define NPU_REG_IFM2_STRIDE_X 0x0B20 +#define NPU_REG_IFM2_STRIDE_X_HI 0x0B24 +#define NPU_REG_IFM2_STRIDE_Y 0x0B28 +#define NPU_REG_IFM2_STRIDE_Y_HI 0x0B2C +#define NPU_REG_IFM2_STRIDE_C 0x0B30 +#define NPU_REG_IFM2_STRIDE_C_HI 0x0B34 +#define NPU_REG_WEIGHT1_BASE 0x0B40 +#define NPU_REG_WEIGHT1_BASE_HI 0x0B44 +#define NPU_REG_WEIGHT1_LENGTH 0x0B48 +#define NPU_REG_WEIGHT1_LENGTH_HI 0x0B4C +#define NPU_REG_SCALE1_BASE 0x0B50 +#define NPU_REG_SCALE1_BASE_HI 0x0B54 +#define NPU_REG_SCALE1_LENGTH 0x0B58 +#define TSU_DEBUG_INTERNAL_REGISTERS_SIZE 0x0B5C + +// +// Register subpage TSU_DEBUG_RO_INTERNAL +// +#define NPU_REG_KERNEL_X 0x0200 +#define NPU_REG_KERNEL_Y 0x0204 +#define NPU_REG_KERNEL_W_M1 0x0208 +#define NPU_REG_KERNEL_H_M1 0x020C +#define NPU_REG_OFM_CBLK_WIDTH_M1 0x0210 +#define NPU_REG_OFM_CBLK_HEIGHT_M1 0x0214 +#define NPU_REG_OFM_CBLK_DEPTH_M1 0x0218 +#define NPU_REG_IFM_CBLK_DEPTH_M1 0x021C +#define NPU_REG_OFM_X 0x0220 +#define NPU_REG_OFM_Y 0x0224 +#define NPU_REG_OFM_Z 0x0228 +#define NPU_REG_IFM_Z 0x022C +#define NPU_REG_PAD_TOP 0x0230 +#define NPU_REG_PAD_LEFT 0x0234 +#define NPU_REG_IFM_CBLK_WIDTH 0x0238 +#define NPU_REG_IFM_CBLK_HEIGHT 0x023C +#define NPU_REG_DMA_IFM_SRC 0x0240 +#define NPU_REG_DMA_IFM_SRC_HI 0x0244 +#define NPU_REG_DMA_IFM_DST 0x0248 +#define NPU_REG_DMA_OFM_SRC 0x024C +#define NPU_REG_DMA_OFM_DST 0x0250 +#define NPU_REG_DMA_OFM_DST_HI 0x0254 +#define NPU_REG_DMA_WEIGHT_SRC 0x0258 +#define NPU_REG_DMA_WEIGHT_SRC_HI 0x025C +#define NPU_REG_DMA_CMD_SRC 0x0260 +#define NPU_REG_DMA_CMD_SRC_HI 0x0264 +#define NPU_REG_DMA_CMD_SIZE 0x0268 +#define NPU_REG_DMA_M2M_SRC 0x026C +#define NPU_REG_DMA_M2M_SRC_HI 0x0270 +#define NPU_REG_DMA_M2M_DST 0x0274 +#define NPU_REG_DMA_M2M_DST_HI 0x0278 +#define NPU_REG_CURRENT_QREAD 0x027C +#define NPU_REG_DMA_SCALE_SRC 0x0280 +#define NPU_REG_DMA_SCALE_SRC_HI 0x0284 +#define NPU_REG_CURRENT_CMD 0x02BC +#define TSU_DEBUG_RO_INTERNAL_REGISTERS_SIZE 0x02C0 + +#ifdef __cplusplus + +// Enum types + +enum class acc_format : uint8_t +{ + INT_32BIT = 0, + INT_40BIT = 1, + FP_S5_10 = 2, +}; + +enum class activation : uint8_t +{ + NONE = 0, + TANH = 3, + SIGMOID = 4, + LUT_START = 16, + LUT_END = 23, +}; + +enum class clip_range : uint8_t +{ + OFM_PRECISION = 0, + FORCE_UINT8 = 2, + FORCE_INT8 = 3, + FORCE_INT16 = 5, +}; + +enum class cmd0 : uint16_t +{ + NPU_OP_STOP = 0x000, + NPU_OP_IRQ = 0x001, + NPU_OP_CONV = 0x002, + NPU_OP_DEPTHWISE = 0x003, + NPU_OP_POOL = 0x005, + NPU_OP_ELEMENTWISE = 0x006, + NPU_OP_DMA_START = 0x010, + NPU_OP_DMA_WAIT = 0x011, + NPU_OP_KERNEL_WAIT = 0x012, + NPU_OP_PMU_MASK = 0x013, + NPU_SET_IFM_PAD_TOP = 0x100, + NPU_SET_IFM_PAD_LEFT = 0x101, + NPU_SET_IFM_PAD_RIGHT = 0x102, + NPU_SET_IFM_PAD_BOTTOM = 0x103, + NPU_SET_IFM_DEPTH_M1 = 0x104, + NPU_SET_IFM_PRECISION = 0x105, + NPU_SET_IFM_UPSCALE = 0x107, + NPU_SET_IFM_ZERO_POINT = 0x109, + NPU_SET_IFM_WIDTH0_M1 = 0x10A, + NPU_SET_IFM_HEIGHT0_M1 = 0x10B, + NPU_SET_IFM_HEIGHT1_M1 = 0x10C, + NPU_SET_IFM_IB_END = 0x10D, + NPU_SET_IFM_REGION = 0x10F, + NPU_SET_OFM_WIDTH_M1 = 0x111, + NPU_SET_OFM_HEIGHT_M1 = 0x112, + NPU_SET_OFM_DEPTH_M1 = 0x113, + NPU_SET_OFM_PRECISION = 0x114, + NPU_SET_OFM_BLK_WIDTH_M1 = 0x115, + NPU_SET_OFM_BLK_HEIGHT_M1 = 0x116, + NPU_SET_OFM_BLK_DEPTH_M1 = 0x117, + NPU_SET_OFM_ZERO_POINT = 0x118, + NPU_SET_OFM_WIDTH0_M1 = 0x11A, + NPU_SET_OFM_HEIGHT0_M1 = 0x11B, + NPU_SET_OFM_HEIGHT1_M1 = 0x11C, + NPU_SET_OFM_REGION = 0x11F, + NPU_SET_KERNEL_WIDTH_M1 = 0x120, + NPU_SET_KERNEL_HEIGHT_M1 = 0x121, + NPU_SET_KERNEL_STRIDE = 0x122, + NPU_SET_PARALLEL_MODE = 0x123, + NPU_SET_ACC_FORMAT = 0x124, + NPU_SET_ACTIVATION = 0x125, + NPU_SET_ACTIVATION_MIN = 0x126, + NPU_SET_ACTIVATION_MAX = 0x127, + NPU_SET_WEIGHT_REGION = 0x128, + NPU_SET_SCALE_REGION = 0x129, + NPU_SET_AB_START = 0x12D, + NPU_SET_BLOCKDEP = 0x12F, + NPU_SET_DMA0_SRC_REGION = 0x130, + NPU_SET_DMA0_DST_REGION = 0x131, + NPU_SET_DMA0_SIZE0 = 0x132, + NPU_SET_DMA0_SIZE1 = 0x133, + NPU_SET_IFM2_BROADCAST = 0x180, + NPU_SET_IFM2_SCALAR = 0x181, + NPU_SET_IFM2_PRECISION = 0x185, + NPU_SET_IFM2_ZERO_POINT = 0x189, + NPU_SET_IFM2_WIDTH0_M1 = 0x18A, + NPU_SET_IFM2_HEIGHT0_M1 = 0x18B, + NPU_SET_IFM2_HEIGHT1_M1 = 0x18C, + NPU_SET_IFM2_IB_START = 0x18D, + NPU_SET_IFM2_REGION = 0x18F, +}; + +enum class cmd1 : uint8_t +{ + NPU_SET_IFM_BASE0 = 0x000, + NPU_SET_IFM_BASE1 = 0x001, + NPU_SET_IFM_BASE2 = 0x002, + NPU_SET_IFM_BASE3 = 0x003, + NPU_SET_IFM_STRIDE_X = 0x004, + NPU_SET_IFM_STRIDE_Y = 0x005, + NPU_SET_IFM_STRIDE_C = 0x006, + NPU_SET_OFM_BASE0 = 0x010, + NPU_SET_OFM_BASE1 = 0x011, + NPU_SET_OFM_BASE2 = 0x012, + NPU_SET_OFM_BASE3 = 0x013, + NPU_SET_OFM_STRIDE_X = 0x014, + NPU_SET_OFM_STRIDE_Y = 0x015, + NPU_SET_OFM_STRIDE_C = 0x016, + NPU_SET_WEIGHT_BASE = 0x020, + NPU_SET_WEIGHT_LENGTH = 0x021, + NPU_SET_SCALE_BASE = 0x022, + NPU_SET_SCALE_LENGTH = 0x023, + NPU_SET_OFM_SCALE = 0x024, + NPU_SET_OPA_SCALE = 0x025, + NPU_SET_OPB_SCALE = 0x026, + NPU_SET_DMA0_SRC = 0x030, + NPU_SET_DMA0_DST = 0x031, + NPU_SET_DMA0_LEN = 0x032, + NPU_SET_DMA0_SKIP0 = 0x033, + NPU_SET_DMA0_SKIP1 = 0x034, + NPU_SET_IFM2_BASE0 = 0x080, + NPU_SET_IFM2_BASE1 = 0x081, + NPU_SET_IFM2_BASE2 = 0x082, + NPU_SET_IFM2_BASE3 = 0x083, + NPU_SET_IFM2_STRIDE_X = 0x084, + NPU_SET_IFM2_STRIDE_Y = 0x085, + NPU_SET_IFM2_STRIDE_C = 0x086, + NPU_SET_WEIGHT1_BASE = 0x090, + NPU_SET_WEIGHT1_LENGTH = 0x091, + NPU_SET_SCALE1_BASE = 0x092, + NPU_SET_SCALE1_LENGTH = 0x093, +}; + +enum class data_format : uint8_t +{ + NHWC = 0, + NHCWB16 = 1, +}; + +enum class elementwise_mode : uint8_t +{ + MUL = 0, + ADD = 1, + SUB = 2, + MIN = 3, + MAX = 4, + LRELU = 5, + ABS = 6, + CLZ = 7, + SHR = 8, + SHL = 9, +}; + +enum class ifm_precision : uint8_t +{ + W8_U8 = 0, + W8_S8 = 1, + W8_U16 = 4, + W8_S16 = 5, + W8_S32 = 9, +}; + +enum class ifm_scale_mode : uint8_t +{ + SCALE_16BIT = 0, + SCALE_OPA_32BIT = 1, + SCALE_OPB_32BIT = 2, +}; + +enum class memory_type : uint8_t +{ + AXI0_OUTSTANDING_COUNTER0 = 0, + AXI0_OUTSTANDING_COUNTER1 = 1, + AXI1_OUTSTANDING_COUNTER2 = 2, + AXI1_OUTSTANDING_COUNTER3 = 3, +}; + +enum class ofm_precision : uint8_t +{ + U8 = 0, + S8 = 1, + U16 = 2, + S16 = 3, + S32 = 5, +}; + +enum class pmu_event_type : uint16_t +{ + CYCLE = 0x11, + NPU_IDLE = 0x20, + MAC_ACTIVE = 0x30, + MAC_ACTIVE_8BIT = 0x31, + MAC_ACTIVE_16BIT = 0x32, + MAC_DPU_ACTIVE = 0x33, + MAC_STALLED_BY_WD_ACC = 0x34, + MAC_STALLED_BY_WD = 0x35, + MAC_STALLED_BY_ACC = 0x36, + MAC_STALLED_BY_IB = 0x37, + AO_ACTIVE = 0x40, + AO_ACTIVE_8BIT = 0x41, + AO_ACTIVE_16BIT = 0x42, + AO_STALLED_BY_OFMP_OB = 0x43, + AO_STALLED_BY_OFMP = 0x44, + AO_STALLED_BY_OB = 0x45, + AO_STALLED_BY_ACC_IB = 0x46, + AO_STALLED_BY_ACC = 0x47, + AO_STALLED_BY_IB = 0x48, + WD_ACTIVE = 0x50, + WD_STALLED = 0x51, + WD_STALLED_BY_WS = 0x52, + WD_STALLED_BY_WD_BUF = 0x53, + WD_PARSE_ACTIVE = 0x54, + WD_PARSE_STALLED = 0x55, + WD_PARSE_STALLED_IN = 0x56, + WD_PARSE_STALLED_OUT = 0x57, + AXI0_RD_TRANS_ACCEPTED = 0x80, + AXI0_RD_TRANS_COMPLETED = 0x81, + AXI0_RD_DATA_BEAT_RECEIVED = 0x82, + AXI0_RD_TRAN_REQ_STALLED = 0x83, + AXI0_WR_TRANS_ACCEPTED = 0x84, + AXI0_WR_TRANS_COMPLETED_M = 0x85, + AXI0_WR_TRANS_COMPLETED_S = 0x86, + AXI0_WR_DATA_BEAT_WRITTEN = 0x87, + AXI0_WR_TRAN_REQ_STALLED = 0x88, + AXI0_WR_DATA_BEAT_STALLED = 0x89, + AXI0_ENABLED_CYCLES = 0x8c, + AXI0_RD_STALL_LIMIT = 0x8e, + AXI0_WR_STALL_LIMIT = 0x8f, + AXI1_RD_TRANS_ACCEPTED = 0x180, + AXI1_RD_TRANS_COMPLETED = 0x181, + AXI1_RD_DATA_BEAT_RECEIVED = 0x182, + AXI1_RD_TRAN_REQ_STALLED = 0x183, + AXI1_WR_TRANS_ACCEPTED = 0x184, + AXI1_WR_TRANS_COMPLETED_M = 0x185, + AXI1_WR_TRANS_COMPLETED_S = 0x186, + AXI1_WR_DATA_BEAT_WRITTEN = 0x187, + AXI1_WR_TRAN_REQ_STALLED = 0x188, + AXI1_WR_DATA_BEAT_STALLED = 0x189, + AXI1_ENABLED_CYCLES = 0x18c, + AXI1_RD_STALL_LIMIT = 0x18e, + AXI1_WR_STALL_LIMIT = 0x18f, + AXI_LATENCY_ANY = 0xa0, + AXI_LATENCY_32 = 0xa1, + AXI_LATENCY_64 = 0xa2, + AXI_LATENCY_128 = 0xa3, + AXI_LATENCY_256 = 0xa4, + AXI_LATENCY_512 = 0xa5, + AXI_LATENCY_1024 = 0xa6, +}; + +enum class pooling_mode : uint8_t +{ + MAX = 0, + AVERAGE = 1, + REDUCE_SUM = 2, +}; + +enum class privilege_level : uint8_t +{ + USER = 0, + PRIVILEGED = 1, +}; + +enum class product : uint8_t +{ + ETHOS_U55 = 0, +}; + +enum class resampling_mode : uint8_t +{ + NONE = 0, + NEAREST = 1, + TRANSPOSE = 2, +}; + +enum class rounding : uint8_t +{ + TFL = 0, + TRUNCATE = 1, + NATURAL = 2, +}; + +enum class security_level : uint8_t +{ + SECURE = 0, + NON_SECURE = 1, +}; + +enum class state : uint8_t +{ + STOPPED = 0, + RUNNING = 1, +}; + +enum class stride_mode : uint8_t +{ + STRIDE_MODE_1D = 0, + STRIDE_MODE_2D = 1, + STRIDE_MODE_3D = 2, +}; + +#else + +enum acc_format +{ + ACC_FORMAT_INT_32BIT = 0, + ACC_FORMAT_INT_40BIT = 1, + ACC_FORMAT_FP_S5_10 = 2, +}; + +enum activation +{ + ACTIVATION_NONE = 0, + ACTIVATION_TANH = 3, + ACTIVATION_SIGMOID = 4, + ACTIVATION_LUT_START = 16, + ACTIVATION_LUT_END = 23, +}; + +enum clip_range +{ + CLIP_RANGE_OFM_PRECISION = 0, + CLIP_RANGE_FORCE_UINT8 = 2, + CLIP_RANGE_FORCE_INT8 = 3, + CLIP_RANGE_FORCE_INT16 = 5, +}; + +enum cmd0 +{ + CMD0_NPU_OP_STOP = 0x000, + CMD0_NPU_OP_IRQ = 0x001, + CMD0_NPU_OP_CONV = 0x002, + CMD0_NPU_OP_DEPTHWISE = 0x003, + CMD0_NPU_OP_POOL = 0x005, + CMD0_NPU_OP_ELEMENTWISE = 0x006, + CMD0_NPU_OP_DMA_START = 0x010, + CMD0_NPU_OP_DMA_WAIT = 0x011, + CMD0_NPU_OP_KERNEL_WAIT = 0x012, + CMD0_NPU_OP_PMU_MASK = 0x013, + CMD0_NPU_SET_IFM_PAD_TOP = 0x100, + CMD0_NPU_SET_IFM_PAD_LEFT = 0x101, + CMD0_NPU_SET_IFM_PAD_RIGHT = 0x102, + CMD0_NPU_SET_IFM_PAD_BOTTOM = 0x103, + CMD0_NPU_SET_IFM_DEPTH_M1 = 0x104, + CMD0_NPU_SET_IFM_PRECISION = 0x105, + CMD0_NPU_SET_IFM_UPSCALE = 0x107, + CMD0_NPU_SET_IFM_ZERO_POINT = 0x109, + CMD0_NPU_SET_IFM_WIDTH0_M1 = 0x10A, + CMD0_NPU_SET_IFM_HEIGHT0_M1 = 0x10B, + CMD0_NPU_SET_IFM_HEIGHT1_M1 = 0x10C, + CMD0_NPU_SET_IFM_IB_END = 0x10D, + CMD0_NPU_SET_IFM_REGION = 0x10F, + CMD0_NPU_SET_OFM_WIDTH_M1 = 0x111, + CMD0_NPU_SET_OFM_HEIGHT_M1 = 0x112, + CMD0_NPU_SET_OFM_DEPTH_M1 = 0x113, + CMD0_NPU_SET_OFM_PRECISION = 0x114, + CMD0_NPU_SET_OFM_BLK_WIDTH_M1 = 0x115, + CMD0_NPU_SET_OFM_BLK_HEIGHT_M1 = 0x116, + CMD0_NPU_SET_OFM_BLK_DEPTH_M1 = 0x117, + CMD0_NPU_SET_OFM_ZERO_POINT = 0x118, + CMD0_NPU_SET_OFM_WIDTH0_M1 = 0x11A, + CMD0_NPU_SET_OFM_HEIGHT0_M1 = 0x11B, + CMD0_NPU_SET_OFM_HEIGHT1_M1 = 0x11C, + CMD0_NPU_SET_OFM_REGION = 0x11F, + CMD0_NPU_SET_KERNEL_WIDTH_M1 = 0x120, + CMD0_NPU_SET_KERNEL_HEIGHT_M1 = 0x121, + CMD0_NPU_SET_KERNEL_STRIDE = 0x122, + CMD0_NPU_SET_PARALLEL_MODE = 0x123, + CMD0_NPU_SET_ACC_FORMAT = 0x124, + CMD0_NPU_SET_ACTIVATION = 0x125, + CMD0_NPU_SET_ACTIVATION_MIN = 0x126, + CMD0_NPU_SET_ACTIVATION_MAX = 0x127, + CMD0_NPU_SET_WEIGHT_REGION = 0x128, + CMD0_NPU_SET_SCALE_REGION = 0x129, + CMD0_NPU_SET_AB_START = 0x12D, + CMD0_NPU_SET_BLOCKDEP = 0x12F, + CMD0_NPU_SET_DMA0_SRC_REGION = 0x130, + CMD0_NPU_SET_DMA0_DST_REGION = 0x131, + CMD0_NPU_SET_DMA0_SIZE0 = 0x132, + CMD0_NPU_SET_DMA0_SIZE1 = 0x133, + CMD0_NPU_SET_IFM2_BROADCAST = 0x180, + CMD0_NPU_SET_IFM2_SCALAR = 0x181, + CMD0_NPU_SET_IFM2_PRECISION = 0x185, + CMD0_NPU_SET_IFM2_ZERO_POINT = 0x189, + CMD0_NPU_SET_IFM2_WIDTH0_M1 = 0x18A, + CMD0_NPU_SET_IFM2_HEIGHT0_M1 = 0x18B, + CMD0_NPU_SET_IFM2_HEIGHT1_M1 = 0x18C, + CMD0_NPU_SET_IFM2_IB_START = 0x18D, + CMD0_NPU_SET_IFM2_REGION = 0x18F, +}; + +enum cmd1 +{ + CMD1_NPU_SET_IFM_BASE0 = 0x000, + CMD1_NPU_SET_IFM_BASE1 = 0x001, + CMD1_NPU_SET_IFM_BASE2 = 0x002, + CMD1_NPU_SET_IFM_BASE3 = 0x003, + CMD1_NPU_SET_IFM_STRIDE_X = 0x004, + CMD1_NPU_SET_IFM_STRIDE_Y = 0x005, + CMD1_NPU_SET_IFM_STRIDE_C = 0x006, + CMD1_NPU_SET_OFM_BASE0 = 0x010, + CMD1_NPU_SET_OFM_BASE1 = 0x011, + CMD1_NPU_SET_OFM_BASE2 = 0x012, + CMD1_NPU_SET_OFM_BASE3 = 0x013, + CMD1_NPU_SET_OFM_STRIDE_X = 0x014, + CMD1_NPU_SET_OFM_STRIDE_Y = 0x015, + CMD1_NPU_SET_OFM_STRIDE_C = 0x016, + CMD1_NPU_SET_WEIGHT_BASE = 0x020, + CMD1_NPU_SET_WEIGHT_LENGTH = 0x021, + CMD1_NPU_SET_SCALE_BASE = 0x022, + CMD1_NPU_SET_SCALE_LENGTH = 0x023, + CMD1_NPU_SET_OFM_SCALE = 0x024, + CMD1_NPU_SET_OPA_SCALE = 0x025, + CMD1_NPU_SET_OPB_SCALE = 0x026, + CMD1_NPU_SET_DMA0_SRC = 0x030, + CMD1_NPU_SET_DMA0_DST = 0x031, + CMD1_NPU_SET_DMA0_LEN = 0x032, + CMD1_NPU_SET_DMA0_SKIP0 = 0x033, + CMD1_NPU_SET_DMA0_SKIP1 = 0x034, + CMD1_NPU_SET_IFM2_BASE0 = 0x080, + CMD1_NPU_SET_IFM2_BASE1 = 0x081, + CMD1_NPU_SET_IFM2_BASE2 = 0x082, + CMD1_NPU_SET_IFM2_BASE3 = 0x083, + CMD1_NPU_SET_IFM2_STRIDE_X = 0x084, + CMD1_NPU_SET_IFM2_STRIDE_Y = 0x085, + CMD1_NPU_SET_IFM2_STRIDE_C = 0x086, + CMD1_NPU_SET_WEIGHT1_BASE = 0x090, + CMD1_NPU_SET_WEIGHT1_LENGTH = 0x091, + CMD1_NPU_SET_SCALE1_BASE = 0x092, + CMD1_NPU_SET_SCALE1_LENGTH = 0x093, +}; + +enum data_format +{ + DATA_FORMAT_NHWC = 0, + DATA_FORMAT_NHCWB16 = 1, +}; + +enum elementwise_mode +{ + ELEMENTWISE_MODE_MUL = 0, + ELEMENTWISE_MODE_ADD = 1, + ELEMENTWISE_MODE_SUB = 2, + ELEMENTWISE_MODE_MIN = 3, + ELEMENTWISE_MODE_MAX = 4, + ELEMENTWISE_MODE_LRELU = 5, + ELEMENTWISE_MODE_ABS = 6, + ELEMENTWISE_MODE_CLZ = 7, + ELEMENTWISE_MODE_SHR = 8, + ELEMENTWISE_MODE_SHL = 9, +}; + +enum ifm_precision +{ + IFM_PRECISION_W8_U8 = 0, + IFM_PRECISION_W8_S8 = 1, + IFM_PRECISION_W8_U16 = 4, + IFM_PRECISION_W8_S16 = 5, + IFM_PRECISION_W8_S32 = 9, +}; + +enum ifm_scale_mode +{ + IFM_SCALE_MODE_SCALE_16BIT = 0, + IFM_SCALE_MODE_SCALE_OPA_32BIT = 1, + IFM_SCALE_MODE_SCALE_OPB_32BIT = 2, +}; + +enum memory_type +{ + MEMORY_TYPE_AXI0_OUTSTANDING_COUNTER0 = 0, + MEMORY_TYPE_AXI0_OUTSTANDING_COUNTER1 = 1, + MEMORY_TYPE_AXI1_OUTSTANDING_COUNTER2 = 2, + MEMORY_TYPE_AXI1_OUTSTANDING_COUNTER3 = 3, +}; + +enum ofm_precision +{ + OFM_PRECISION_U8 = 0, + OFM_PRECISION_S8 = 1, + OFM_PRECISION_U16 = 2, + OFM_PRECISION_S16 = 3, + OFM_PRECISION_S32 = 5, +}; + +enum pmu_event_type +{ + PMU_EVENT_TYPE_CYCLE = 0x11, + PMU_EVENT_TYPE_NPU_IDLE = 0x20, + PMU_EVENT_TYPE_MAC_ACTIVE = 0x30, + PMU_EVENT_TYPE_MAC_ACTIVE_8BIT = 0x31, + PMU_EVENT_TYPE_MAC_ACTIVE_16BIT = 0x32, + PMU_EVENT_TYPE_MAC_DPU_ACTIVE = 0x33, + PMU_EVENT_TYPE_MAC_STALLED_BY_WD_ACC = 0x34, + PMU_EVENT_TYPE_MAC_STALLED_BY_WD = 0x35, + PMU_EVENT_TYPE_MAC_STALLED_BY_ACC = 0x36, + PMU_EVENT_TYPE_MAC_STALLED_BY_IB = 0x37, + PMU_EVENT_TYPE_AO_ACTIVE = 0x40, + PMU_EVENT_TYPE_AO_ACTIVE_8BIT = 0x41, + PMU_EVENT_TYPE_AO_ACTIVE_16BIT = 0x42, + PMU_EVENT_TYPE_AO_STALLED_BY_OFMP_OB = 0x43, + PMU_EVENT_TYPE_AO_STALLED_BY_OFMP = 0x44, + PMU_EVENT_TYPE_AO_STALLED_BY_OB = 0x45, + PMU_EVENT_TYPE_AO_STALLED_BY_ACC_IB = 0x46, + PMU_EVENT_TYPE_AO_STALLED_BY_ACC = 0x47, + PMU_EVENT_TYPE_AO_STALLED_BY_IB = 0x48, + PMU_EVENT_TYPE_WD_ACTIVE = 0x50, + PMU_EVENT_TYPE_WD_STALLED = 0x51, + PMU_EVENT_TYPE_WD_STALLED_BY_WS = 0x52, + PMU_EVENT_TYPE_WD_STALLED_BY_WD_BUF = 0x53, + PMU_EVENT_TYPE_WD_PARSE_ACTIVE = 0x54, + PMU_EVENT_TYPE_WD_PARSE_STALLED = 0x55, + PMU_EVENT_TYPE_WD_PARSE_STALLED_IN = 0x56, + PMU_EVENT_TYPE_WD_PARSE_STALLED_OUT = 0x57, + PMU_EVENT_TYPE_AXI0_RD_TRANS_ACCEPTED = 0x80, + PMU_EVENT_TYPE_AXI0_RD_TRANS_COMPLETED = 0x81, + PMU_EVENT_TYPE_AXI0_RD_DATA_BEAT_RECEIVED = 0x82, + PMU_EVENT_TYPE_AXI0_RD_TRAN_REQ_STALLED = 0x83, + PMU_EVENT_TYPE_AXI0_WR_TRANS_ACCEPTED = 0x84, + PMU_EVENT_TYPE_AXI0_WR_TRANS_COMPLETED_M = 0x85, + PMU_EVENT_TYPE_AXI0_WR_TRANS_COMPLETED_S = 0x86, + PMU_EVENT_TYPE_AXI0_WR_DATA_BEAT_WRITTEN = 0x87, + PMU_EVENT_TYPE_AXI0_WR_TRAN_REQ_STALLED = 0x88, + PMU_EVENT_TYPE_AXI0_WR_DATA_BEAT_STALLED = 0x89, + PMU_EVENT_TYPE_AXI0_ENABLED_CYCLES = 0x8c, + PMU_EVENT_TYPE_AXI0_RD_STALL_LIMIT = 0x8e, + PMU_EVENT_TYPE_AXI0_WR_STALL_LIMIT = 0x8f, + PMU_EVENT_TYPE_AXI1_RD_TRANS_ACCEPTED = 0x180, + PMU_EVENT_TYPE_AXI1_RD_TRANS_COMPLETED = 0x181, + PMU_EVENT_TYPE_AXI1_RD_DATA_BEAT_RECEIVED = 0x182, + PMU_EVENT_TYPE_AXI1_RD_TRAN_REQ_STALLED = 0x183, + PMU_EVENT_TYPE_AXI1_WR_TRANS_ACCEPTED = 0x184, + PMU_EVENT_TYPE_AXI1_WR_TRANS_COMPLETED_M = 0x185, + PMU_EVENT_TYPE_AXI1_WR_TRANS_COMPLETED_S = 0x186, + PMU_EVENT_TYPE_AXI1_WR_DATA_BEAT_WRITTEN = 0x187, + PMU_EVENT_TYPE_AXI1_WR_TRAN_REQ_STALLED = 0x188, + PMU_EVENT_TYPE_AXI1_WR_DATA_BEAT_STALLED = 0x189, + PMU_EVENT_TYPE_AXI1_ENABLED_CYCLES = 0x18c, + PMU_EVENT_TYPE_AXI1_RD_STALL_LIMIT = 0x18e, + PMU_EVENT_TYPE_AXI1_WR_STALL_LIMIT = 0x18f, + PMU_EVENT_TYPE_AXI_LATENCY_ANY = 0xa0, + PMU_EVENT_TYPE_AXI_LATENCY_32 = 0xa1, + PMU_EVENT_TYPE_AXI_LATENCY_64 = 0xa2, + PMU_EVENT_TYPE_AXI_LATENCY_128 = 0xa3, + PMU_EVENT_TYPE_AXI_LATENCY_256 = 0xa4, + PMU_EVENT_TYPE_AXI_LATENCY_512 = 0xa5, + PMU_EVENT_TYPE_AXI_LATENCY_1024 = 0xa6, +}; + +enum pooling_mode +{ + POOLING_MODE_MAX = 0, + POOLING_MODE_AVERAGE = 1, + POOLING_MODE_REDUCE_SUM = 2, +}; + +enum privilege_level +{ + PRIVILEGE_LEVEL_USER = 0, + PRIVILEGE_LEVEL_PRIVILEGED = 1, +}; + +enum product +{ + PRODUCT_ETHOS_U55 = 0, +}; + +enum resampling_mode +{ + RESAMPLING_MODE_NONE = 0, + RESAMPLING_MODE_NEAREST = 1, + RESAMPLING_MODE_TRANSPOSE = 2, +}; + +enum rounding +{ + ROUNDING_TFL = 0, + ROUNDING_TRUNCATE = 1, + ROUNDING_NATURAL = 2, +}; + +enum security_level +{ + SECURITY_LEVEL_SECURE = 0, + SECURITY_LEVEL_NON_SECURE = 1, +}; + +enum state +{ + STATE_STOPPED = 0, + STATE_RUNNING = 1, +}; + +enum stride_mode +{ + STRIDE_MODE_STRIDE_MODE_1D = 0, + STRIDE_MODE_STRIDE_MODE_2D = 1, + STRIDE_MODE_STRIDE_MODE_3D = 2, +}; + +#endif + +// clkforce_r - Force clocks on for clock gating +struct clkforce_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> top_level_clk; // set to 1 to force on TOP level clock + ::core::dt::uint_t<1> cc_clk; // set to 1 to force on CC clock + ::core::dt::uint_t<1> dma_clk; // set to 1 to force on DMA clock + ::core::dt::uint_t<1> mac_clk; // set to 1 to force on MAC clock + ::core::dt::uint_t<1> ao_clk; // set to 1 to force on AO clock + ::core::dt::uint_t<1> wd_clk; // set to 1 to force on WD clock +#else + union + { + struct + { + uint32_t top_level_clk : 1; // set to 1 to force on TOP level clock + uint32_t cc_clk : 1; // set to 1 to force on CC clock + uint32_t dma_clk : 1; // set to 1 to force on DMA clock + uint32_t mac_clk : 1; // set to 1 to force on MAC clock + uint32_t ao_clk : 1; // set to 1 to force on AO clock + uint32_t wd_clk : 1; // set to 1 to force on WD clock + uint32_t reserved0 : 26; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR clkforce_r() : + top_level_clk(static_cast(0)), cc_clk(static_cast(0)), dma_clk(static_cast(0)), + mac_clk(static_cast(0)), ao_clk(static_cast(0)), wd_clk(static_cast(0)) + { + } + CONSTEXPR clkforce_r(uint32_t value) : + top_level_clk(value >> 0), cc_clk(value >> 1), dma_clk(value >> 2), mac_clk(value >> 3), ao_clk(value >> 4), + wd_clk(value >> 5) + { + } + CONSTEXPR void operator=(uint32_t value) + { + top_level_clk = value >> 0; + cc_clk = value >> 1; + dma_clk = value >> 2; + mac_clk = value >> 3; + ao_clk = value >> 4; + wd_clk = value >> 5; + } + CONSTEXPR operator uint32_t() const + { + return (top_level_clk << 0) | (cc_clk << 1) | (dma_clk << 2) | (mac_clk << 3) | (ao_clk << 4) | (wd_clk << 5); + } + clkforce_r copy() + { + return *this; + } +#else + CONSTEXPR clkforce_r() : + top_level_clk(static_cast(0)), cc_clk(static_cast(0)), dma_clk(static_cast(0)), + mac_clk(static_cast(0)), ao_clk(static_cast(0)), wd_clk(static_cast(0)), + reserved0(static_cast(0)) + { + } + CONSTEXPR clkforce_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + clkforce_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_top_level_clk() const + { + uint32_t value = static_cast(top_level_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_top_level_clk() const volatile + { + uint32_t value = static_cast(top_level_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_top_level_clk(uint32_t value) + { + top_level_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_cc_clk() const + { + uint32_t value = static_cast(cc_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cc_clk() const volatile + { + uint32_t value = static_cast(cc_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_cc_clk(uint32_t value) + { + cc_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_dma_clk() const + { + uint32_t value = static_cast(dma_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_dma_clk() const volatile + { + uint32_t value = static_cast(dma_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_dma_clk(uint32_t value) + { + dma_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_mac_clk() const + { + uint32_t value = static_cast(mac_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_mac_clk() const volatile + { + uint32_t value = static_cast(mac_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_mac_clk(uint32_t value) + { + mac_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_ao_clk() const + { + uint32_t value = static_cast(ao_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_ao_clk() const volatile + { + uint32_t value = static_cast(ao_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_ao_clk(uint32_t value) + { + ao_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_wd_clk() const + { + uint32_t value = static_cast(wd_clk); + return value; + } +#ifndef MODEL_REGS + uint32_t get_wd_clk() const volatile + { + uint32_t value = static_cast(wd_clk); + return value; + } +#endif + CONSTEXPR clkforce_r &set_wd_clk(uint32_t value) + { + wd_clk = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep0_r - Lower 32 bits of the Base pointer for region index 0 +struct basep0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep0_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep0_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep0_r copy() + { + return *this; + } +#else + CONSTEXPR basep0_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep0_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep1_r - Upper 32 bits of the Base pointer for region index 0 +struct basep1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep1_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep1_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep1_r copy() + { + return *this; + } +#else + CONSTEXPR basep1_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep1_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep2_r - Lower 32 bits of the Base pointer for region index 1 +struct basep2_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep2_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep2_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep2_r copy() + { + return *this; + } +#else + CONSTEXPR basep2_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep2_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep2_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep2_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep3_r - Upper 32 bits of the Base pointer for region index 1 +struct basep3_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep3_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep3_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep3_r copy() + { + return *this; + } +#else + CONSTEXPR basep3_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep3_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep3_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep3_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep4_r - Lower 32 bits of the Base pointer for region index 2 +struct basep4_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep4_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep4_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep4_r copy() + { + return *this; + } +#else + CONSTEXPR basep4_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep4_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep4_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep4_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep5_r - Upper 32 bits of the Base pointer for region index 2 +struct basep5_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep5_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep5_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep5_r copy() + { + return *this; + } +#else + CONSTEXPR basep5_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep5_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep5_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep5_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep6_r - Lower 32 bits of the Base pointer for region index 3 +struct basep6_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep6_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep6_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep6_r copy() + { + return *this; + } +#else + CONSTEXPR basep6_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep6_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep6_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep6_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep7_r - Upper 32 bits of the Base pointer for region index 3 +struct basep7_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep7_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep7_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep7_r copy() + { + return *this; + } +#else + CONSTEXPR basep7_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep7_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep7_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep7_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep8_r - Lower 32 bits of the Base pointer for region index 4 +struct basep8_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep8_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep8_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep8_r copy() + { + return *this; + } +#else + CONSTEXPR basep8_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep8_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep8_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep8_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep9_r - Upper 32 bits of the Base pointer for region index 4 +struct basep9_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep9_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep9_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep9_r copy() + { + return *this; + } +#else + CONSTEXPR basep9_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep9_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep9_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep9_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep10_r - Lower 32 bits of the Base pointer for region index 5 +struct basep10_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep10_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep10_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep10_r copy() + { + return *this; + } +#else + CONSTEXPR basep10_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep10_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep10_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep10_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep11_r - Upper 32 bits of the Base pointer for region index 5 +struct basep11_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep11_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep11_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep11_r copy() + { + return *this; + } +#else + CONSTEXPR basep11_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep11_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep11_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep11_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep12_r - Lower 32 bits of the Base pointer for region index 6 +struct basep12_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep12_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep12_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep12_r copy() + { + return *this; + } +#else + CONSTEXPR basep12_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep12_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep12_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep12_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep13_r - Upper 32 bits of the Base pointer for region index 6 +struct basep13_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep13_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep13_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep13_r copy() + { + return *this; + } +#else + CONSTEXPR basep13_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep13_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep13_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep13_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep14_r - Lower 32 bits of the Base pointer for region index 7 +struct basep14_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The low word of the 64-bit address +#else + union + { + uint32_t addr_word; // The low word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep14_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep14_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep14_r copy() + { + return *this; + } +#else + CONSTEXPR basep14_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep14_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep14_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep14_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// basep15_r - Upper 32 bits of the Base pointer for region index 7 +struct basep15_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> addr_word; // The high word of the 64-bit address +#else + union + { + uint32_t addr_word; // The high word of the 64-bit address + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR basep15_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep15_r(uint32_t value) : addr_word(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + addr_word = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (addr_word << 0); + } + basep15_r copy() + { + return *this; + } +#else + CONSTEXPR basep15_r() : addr_word(static_cast(0)) {} + CONSTEXPR basep15_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + basep15_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_addr_word() const + { + uint32_t value = static_cast(addr_word); + return value; + } +#ifndef MODEL_REGS + uint32_t get_addr_word() const volatile + { + uint32_t value = static_cast(addr_word); + return value; + } +#endif + CONSTEXPR basep15_r &set_addr_word(uint32_t value) + { + addr_word = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid4_r - Peripheral ID byte 4 (Arm=code 4) +struct pid4_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID4; // Byte 4 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID4; // Byte 4 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid4_r() : PID4(static_cast(0x04)) {} + CONSTEXPR pid4_r(uint32_t value) : PID4(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID4 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID4 << 0); + } + pid4_r copy() + { + return *this; + } +#else + CONSTEXPR pid4_r() : PID4(static_cast(0x04)) {} + CONSTEXPR pid4_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid4_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID4() const + { + uint32_t value = static_cast(PID4); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID4() const volatile + { + uint32_t value = static_cast(PID4); + return value; + } +#endif + CONSTEXPR pid4_r &set_PID4(uint32_t value) + { + PID4 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid5_r - Peripheral ID byte 5 (reserved) +struct pid5_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID5; // Byte 5 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID5; // Byte 5 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid5_r() : PID5(static_cast(0x00)) {} + CONSTEXPR pid5_r(uint32_t value) : PID5(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID5 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID5 << 0); + } + pid5_r copy() + { + return *this; + } +#else + CONSTEXPR pid5_r() : PID5(static_cast(0x00)) {} + CONSTEXPR pid5_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid5_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID5() const + { + uint32_t value = static_cast(PID5); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID5() const volatile + { + uint32_t value = static_cast(PID5); + return value; + } +#endif + CONSTEXPR pid5_r &set_PID5(uint32_t value) + { + PID5 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid6_r - Peripheral ID byte 6 (reserved) +struct pid6_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID6; // Byte 6 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID6; // Byte 6 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid6_r() : PID6(static_cast(0x00)) {} + CONSTEXPR pid6_r(uint32_t value) : PID6(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID6 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID6 << 0); + } + pid6_r copy() + { + return *this; + } +#else + CONSTEXPR pid6_r() : PID6(static_cast(0x00)) {} + CONSTEXPR pid6_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid6_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID6() const + { + uint32_t value = static_cast(PID6); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID6() const volatile + { + uint32_t value = static_cast(PID6); + return value; + } +#endif + CONSTEXPR pid6_r &set_PID6(uint32_t value) + { + PID6 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid7_r - Peripheral ID byte 7 (reserved) +struct pid7_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID7; // Byte 7 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID7; // Byte 7 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid7_r() : PID7(static_cast(0x00)) {} + CONSTEXPR pid7_r(uint32_t value) : PID7(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID7 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID7 << 0); + } + pid7_r copy() + { + return *this; + } +#else + CONSTEXPR pid7_r() : PID7(static_cast(0x00)) {} + CONSTEXPR pid7_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid7_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID7() const + { + uint32_t value = static_cast(PID7); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID7() const volatile + { + uint32_t value = static_cast(PID7); + return value; + } +#endif + CONSTEXPR pid7_r &set_PID7(uint32_t value) + { + PID7 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid0_r - Peripheral ID byte 0. This is bits[7:0] of the part number. +struct pid0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID0; // Byte 0 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID0; // Byte 0 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid0_r() : PID0(static_cast(0x80)) {} + CONSTEXPR pid0_r(uint32_t value) : PID0(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID0 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID0 << 0); + } + pid0_r copy() + { + return *this; + } +#else + CONSTEXPR pid0_r() : PID0(static_cast(0x80)) {} + CONSTEXPR pid0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID0() const + { + uint32_t value = static_cast(PID0); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID0() const volatile + { + uint32_t value = static_cast(PID0); + return value; + } +#endif + CONSTEXPR pid0_r &set_PID0(uint32_t value) + { + PID0 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid1_r - Peripheral ID byte 1. This is bits[11:8] of the part number in bits[3:0], and bits[3:0] of the Arm ID in +// bits[7:4]. +struct pid1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID1; // Byte 1 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID1; // Byte 1 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid1_r() : PID1(static_cast(0xB5)) {} + CONSTEXPR pid1_r(uint32_t value) : PID1(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID1 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID1 << 0); + } + pid1_r copy() + { + return *this; + } +#else + CONSTEXPR pid1_r() : PID1(static_cast(0xB5)) {} + CONSTEXPR pid1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID1() const + { + uint32_t value = static_cast(PID1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID1() const volatile + { + uint32_t value = static_cast(PID1); + return value; + } +#endif + CONSTEXPR pid1_r &set_PID1(uint32_t value) + { + PID1 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid2_r - Peripheral ID byte 2. This is bits[6:4] of the Arm ID in bits[2:0], and bit 3 indicates format B. +struct pid2_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID2; // Byte 2 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID2; // Byte 2 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid2_r() : PID2(static_cast(0x0B)) {} + CONSTEXPR pid2_r(uint32_t value) : PID2(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID2 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID2 << 0); + } + pid2_r copy() + { + return *this; + } +#else + CONSTEXPR pid2_r() : PID2(static_cast(0x0B)) {} + CONSTEXPR pid2_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid2_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID2() const + { + uint32_t value = static_cast(PID2); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID2() const volatile + { + uint32_t value = static_cast(PID2); + return value; + } +#endif + CONSTEXPR pid2_r &set_PID2(uint32_t value) + { + PID2 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pid3_r - Peripheral ID byte 3. +struct pid3_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> PID3; // Byte 1 of Peripheral ID (Lower 8 bits valid) +#else + union + { + uint32_t PID3; // Byte 1 of Peripheral ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pid3_r() : PID3(static_cast(0x0)) {} + CONSTEXPR pid3_r(uint32_t value) : PID3(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + PID3 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (PID3 << 0); + } + pid3_r copy() + { + return *this; + } +#else + CONSTEXPR pid3_r() : PID3(static_cast(0x0)) {} + CONSTEXPR pid3_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pid3_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_PID3() const + { + uint32_t value = static_cast(PID3); + return value; + } +#ifndef MODEL_REGS + uint32_t get_PID3() const volatile + { + uint32_t value = static_cast(PID3); + return value; + } +#endif + CONSTEXPR pid3_r &set_PID3(uint32_t value) + { + PID3 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// cid0_r - Component ID byte 0. +struct cid0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> CID0; // Byte 0 of Component ID (Lower 8 bits valid) +#else + union + { + uint32_t CID0; // Byte 0 of Component ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR cid0_r() : CID0(static_cast(0x0D)) {} + CONSTEXPR cid0_r(uint32_t value) : CID0(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CID0 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CID0 << 0); + } + cid0_r copy() + { + return *this; + } +#else + CONSTEXPR cid0_r() : CID0(static_cast(0x0D)) {} + CONSTEXPR cid0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + cid0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CID0() const + { + uint32_t value = static_cast(CID0); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CID0() const volatile + { + uint32_t value = static_cast(CID0); + return value; + } +#endif + CONSTEXPR cid0_r &set_CID0(uint32_t value) + { + CID0 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// cid1_r - Component ID byte 1. +struct cid1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> CID1; // Byte 1 of Component ID (Lower 8 bits valid) +#else + union + { + uint32_t CID1; // Byte 1 of Component ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR cid1_r() : CID1(static_cast(0xF0)) {} + CONSTEXPR cid1_r(uint32_t value) : CID1(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CID1 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CID1 << 0); + } + cid1_r copy() + { + return *this; + } +#else + CONSTEXPR cid1_r() : CID1(static_cast(0xF0)) {} + CONSTEXPR cid1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + cid1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CID1() const + { + uint32_t value = static_cast(CID1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CID1() const volatile + { + uint32_t value = static_cast(CID1); + return value; + } +#endif + CONSTEXPR cid1_r &set_CID1(uint32_t value) + { + CID1 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// cid2_r - Component ID byte 2. +struct cid2_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> CID2; // Byte 2 of Component ID (Lower 8 bits valid) +#else + union + { + uint32_t CID2; // Byte 2 of Component ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR cid2_r() : CID2(static_cast(0x05)) {} + CONSTEXPR cid2_r(uint32_t value) : CID2(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CID2 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CID2 << 0); + } + cid2_r copy() + { + return *this; + } +#else + CONSTEXPR cid2_r() : CID2(static_cast(0x05)) {} + CONSTEXPR cid2_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + cid2_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CID2() const + { + uint32_t value = static_cast(CID2); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CID2() const volatile + { + uint32_t value = static_cast(CID2); + return value; + } +#endif + CONSTEXPR cid2_r &set_CID2(uint32_t value) + { + CID2 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// cid3_r - Component ID byte 3. +struct cid3_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> CID3; // Byte 3 of Component ID (Lower 8 bits valid) +#else + union + { + uint32_t CID3; // Byte 3 of Component ID (Lower 8 bits valid) + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR cid3_r() : CID3(static_cast(0xB1)) {} + CONSTEXPR cid3_r(uint32_t value) : CID3(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CID3 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CID3 << 0); + } + cid3_r copy() + { + return *this; + } +#else + CONSTEXPR cid3_r() : CID3(static_cast(0xB1)) {} + CONSTEXPR cid3_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + cid3_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CID3() const + { + uint32_t value = static_cast(CID3); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CID3() const volatile + { + uint32_t value = static_cast(CID3); + return value; + } +#endif + CONSTEXPR cid3_r &set_CID3(uint32_t value) + { + CID3 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// id_r - ID register +struct id_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<4> version_status; // 0 for now + ::core::dt::uint_t<4> version_minor; // This is the n for the P part of an RnPn release number + ::core::dt::uint_t<4> version_major; // This is the n for the R part of an RnPn release number + ::core::dt::uint_t<4> product_major; // 0 for now + ::core::dt::uint_t<4> arch_patch_rev; // This is the patch number of the architecture version a.b + ::core::dt::uint_t<8> + arch_minor_rev; // This is the minor architecture version number, b in the architecture version a.b + ::core::dt::uint_t<4> + arch_major_rev; // This is the major architecture version number, a in the architecture version a.b +#else + union + { + struct + { + uint32_t version_status : 4; // 0 for now + uint32_t version_minor : 4; // This is the n for the P part of an RnPn release number + uint32_t version_major : 4; // This is the n for the R part of an RnPn release number + uint32_t product_major : 4; // 0 for now + uint32_t arch_patch_rev : 4; // This is the patch number of the architecture version a.b + uint32_t + arch_minor_rev : 8; // This is the minor architecture version number, b in the architecture version a.b + uint32_t + arch_major_rev : 4; // This is the major architecture version number, a in the architecture version a.b + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR id_r() : + version_status(static_cast(0x0)), version_minor(static_cast(0x0)), + version_major(static_cast(0x0)), product_major(static_cast(0x0)), + arch_patch_rev(static_cast(0)), arch_minor_rev(static_cast(154)), + arch_major_rev(static_cast(0)) + { + } + CONSTEXPR id_r(uint32_t value) : + version_status(value >> 0), version_minor(value >> 4), version_major(value >> 8), product_major(value >> 12), + arch_patch_rev(value >> 16), arch_minor_rev(value >> 20), arch_major_rev(value >> 28) + { + } + CONSTEXPR void operator=(uint32_t value) + { + version_status = value >> 0; + version_minor = value >> 4; + version_major = value >> 8; + product_major = value >> 12; + arch_patch_rev = value >> 16; + arch_minor_rev = value >> 20; + arch_major_rev = value >> 28; + } + CONSTEXPR operator uint32_t() const + { + return (version_status << 0) | (version_minor << 4) | (version_major << 8) | (product_major << 12) | + (arch_patch_rev << 16) | (arch_minor_rev << 20) | (arch_major_rev << 28); + } + id_r copy() + { + return *this; + } +#else + CONSTEXPR id_r() : + version_status(static_cast(0x0)), version_minor(static_cast(0x0)), + version_major(static_cast(0x0)), product_major(static_cast(0x0)), + arch_patch_rev(static_cast(0)), arch_minor_rev(static_cast(154)), + arch_major_rev(static_cast(0)) + { + } + CONSTEXPR id_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + id_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_version_status() const + { + uint32_t value = static_cast(version_status); + return value; + } +#ifndef MODEL_REGS + uint32_t get_version_status() const volatile + { + uint32_t value = static_cast(version_status); + return value; + } +#endif + CONSTEXPR id_r &set_version_status(uint32_t value) + { + version_status = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_version_minor() const + { + uint32_t value = static_cast(version_minor); + return value; + } +#ifndef MODEL_REGS + uint32_t get_version_minor() const volatile + { + uint32_t value = static_cast(version_minor); + return value; + } +#endif + CONSTEXPR id_r &set_version_minor(uint32_t value) + { + version_minor = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_version_major() const + { + uint32_t value = static_cast(version_major); + return value; + } +#ifndef MODEL_REGS + uint32_t get_version_major() const volatile + { + uint32_t value = static_cast(version_major); + return value; + } +#endif + CONSTEXPR id_r &set_version_major(uint32_t value) + { + version_major = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_product_major() const + { + uint32_t value = static_cast(product_major); + return value; + } +#ifndef MODEL_REGS + uint32_t get_product_major() const volatile + { + uint32_t value = static_cast(product_major); + return value; + } +#endif + CONSTEXPR id_r &set_product_major(uint32_t value) + { + product_major = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_arch_patch_rev() const + { + uint32_t value = static_cast(arch_patch_rev); + return value; + } +#ifndef MODEL_REGS + uint32_t get_arch_patch_rev() const volatile + { + uint32_t value = static_cast(arch_patch_rev); + return value; + } +#endif + CONSTEXPR id_r &set_arch_patch_rev(uint32_t value) + { + arch_patch_rev = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_arch_minor_rev() const + { + uint32_t value = static_cast(arch_minor_rev); + return value; + } +#ifndef MODEL_REGS + uint32_t get_arch_minor_rev() const volatile + { + uint32_t value = static_cast(arch_minor_rev); + return value; + } +#endif + CONSTEXPR id_r &set_arch_minor_rev(uint32_t value) + { + arch_minor_rev = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_arch_major_rev() const + { + uint32_t value = static_cast(arch_major_rev); + return value; + } +#ifndef MODEL_REGS + uint32_t get_arch_major_rev() const volatile + { + uint32_t value = static_cast(arch_major_rev); + return value; + } +#endif + CONSTEXPR id_r &set_arch_major_rev(uint32_t value) + { + arch_major_rev = ((1u << 4) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// status_r - Register describes the current operating status of the NPU +struct status_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> state; // NPU state, 0 = Stopped, 1 = Running + ::core::dt::uint_t<1> + irq_raised; // Raw IRQ status, 0 = IRQ not raised, 1 = IRQ raised. IRQ is cleared using command register bit 1 + ::core::dt::uint_t<1> + bus_status; // 0=OK, 1=Bus abort detected and processing halted (NPU will reach IDLE state and not to start + // process any more commands/AXI transactions). Can only be cleared by a reset + ::core::dt::uint_t<1> + reset_status; // Reset is ongoing and only this register can be read (other registers read as 0 and writes are + // ignored.) A value of 0 means NPU is not being reset and can be accessed as normal + ::core::dt::uint_t<1> + cmd_parse_error; // 0=No error 1=Command stream parsing error detected. Can only be cleared by reset + ::core::dt::uint_t<1> + cmd_end_reached; // 0=Not reached, 1=Reached. Cleared by writing QBASE or QSIZE when NPU is in stopped state + ::core::dt::uint_t<1> pmu_irq_raised; // 0=No PMU IRQ, 1=PMU IRQ raised. Cleared by using command register bit 1 + ::core::dt::uint_t<1> + wd_fault; // Weight decoder state: 0=no fault 1=weight decoder decompression fault. Can only be cleared by reset + ::core::dt::uint_t<1> faulting_interface; // Faulting interface on bus abort. 0=AXI-M0 1=AXI-M1 + ::core::dt::uint_t<4> faulting_channel; // Faulting channel on a bus abort. Read: 0=Cmd 1=IFM 2=Weights 3=Scale+Bias + // 4=Mem2Mem; Write: 8=OFM 9=Mem2Mem + ::core::dt::uint_t<16> irq_history_mask; // IRQ History mask +#else + union + { + struct + { + uint32_t state : 1; // NPU state, 0 = Stopped, 1 = Running + uint32_t irq_raised : 1; // Raw IRQ status, 0 = IRQ not raised, 1 = IRQ raised. IRQ is cleared using command + // register bit 1 + uint32_t + bus_status : 1; // 0=OK, 1=Bus abort detected and processing halted (NPU will reach IDLE state and not + // to start process any more commands/AXI transactions). Can only be cleared by a reset + uint32_t reset_status : 1; // Reset is ongoing and only this register can be read (other registers read as 0 + // and writes are ignored.) A value of 0 means NPU is not being reset and can be + // accessed as normal + uint32_t + cmd_parse_error : 1; // 0=No error 1=Command stream parsing error detected. Can only be cleared by reset + uint32_t cmd_end_reached : 1; // 0=Not reached, 1=Reached. Cleared by writing QBASE or QSIZE when NPU is in + // stopped state + uint32_t pmu_irq_raised : 1; // 0=No PMU IRQ, 1=PMU IRQ raised. Cleared by using command register bit 1 + uint32_t wd_fault : 1; // Weight decoder state: 0=no fault 1=weight decoder decompression fault. Can only be + // cleared by reset + uint32_t reserved0 : 3; + uint32_t faulting_interface : 1; // Faulting interface on bus abort. 0=AXI-M0 1=AXI-M1 + uint32_t faulting_channel : 4; // Faulting channel on a bus abort. Read: 0=Cmd 1=IFM 2=Weights 3=Scale+Bias + // 4=Mem2Mem; Write: 8=OFM 9=Mem2Mem + uint32_t irq_history_mask : 16; // IRQ History mask + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR status_r() : + state(static_cast(::state::STOPPED)), irq_raised(static_cast(0x0)), + bus_status(static_cast(0x0)), reset_status(static_cast(0x1)), + cmd_parse_error(static_cast(0x0)), cmd_end_reached(static_cast(0x0)), + pmu_irq_raised(static_cast(0x0)), wd_fault(static_cast(0x0)), + faulting_interface(static_cast(0x0)), faulting_channel(static_cast(0x0)), + irq_history_mask(static_cast(0x0)) + { + } + CONSTEXPR status_r(uint32_t value) : + state(value >> 0), irq_raised(value >> 1), bus_status(value >> 2), reset_status(value >> 3), + cmd_parse_error(value >> 4), cmd_end_reached(value >> 5), pmu_irq_raised(value >> 6), wd_fault(value >> 7), + faulting_interface(value >> 11), faulting_channel(value >> 12), irq_history_mask(value >> 16) + { + } + CONSTEXPR void operator=(uint32_t value) + { + state = value >> 0; + irq_raised = value >> 1; + bus_status = value >> 2; + reset_status = value >> 3; + cmd_parse_error = value >> 4; + cmd_end_reached = value >> 5; + pmu_irq_raised = value >> 6; + wd_fault = value >> 7; + faulting_interface = value >> 11; + faulting_channel = value >> 12; + irq_history_mask = value >> 16; + } + CONSTEXPR operator uint32_t() const + { + return (state << 0) | (irq_raised << 1) | (bus_status << 2) | (reset_status << 3) | (cmd_parse_error << 4) | + (cmd_end_reached << 5) | (pmu_irq_raised << 6) | (wd_fault << 7) | (faulting_interface << 11) | + (faulting_channel << 12) | (irq_history_mask << 16); + } + status_r copy() + { + return *this; + } +#else + CONSTEXPR status_r() : + state(static_cast(::state::STOPPED)), irq_raised(static_cast(0x0)), + bus_status(static_cast(0x0)), reset_status(static_cast(0x1)), + cmd_parse_error(static_cast(0x0)), cmd_end_reached(static_cast(0x0)), + pmu_irq_raised(static_cast(0x0)), wd_fault(static_cast(0x0)), + reserved0(static_cast(0)), faulting_interface(static_cast(0x0)), + faulting_channel(static_cast(0x0)), irq_history_mask(static_cast(0x0)) + { + } + CONSTEXPR status_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + status_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::state get_state() const + { + ::state value = static_cast<::state>(state); + return value; + } +#ifndef MODEL_REGS + ::state get_state() const volatile + { + ::state value = static_cast<::state>(state); + return value; + } +#endif + CONSTEXPR status_r &set_state(::state value) + { + state = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_irq_raised() const + { + uint32_t value = static_cast(irq_raised); + return value; + } +#ifndef MODEL_REGS + uint32_t get_irq_raised() const volatile + { + uint32_t value = static_cast(irq_raised); + return value; + } +#endif + CONSTEXPR status_r &set_irq_raised(uint32_t value) + { + irq_raised = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_bus_status() const + { + uint32_t value = static_cast(bus_status); + return value; + } +#ifndef MODEL_REGS + uint32_t get_bus_status() const volatile + { + uint32_t value = static_cast(bus_status); + return value; + } +#endif + CONSTEXPR status_r &set_bus_status(uint32_t value) + { + bus_status = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_reset_status() const + { + uint32_t value = static_cast(reset_status); + return value; + } +#ifndef MODEL_REGS + uint32_t get_reset_status() const volatile + { + uint32_t value = static_cast(reset_status); + return value; + } +#endif + CONSTEXPR status_r &set_reset_status(uint32_t value) + { + reset_status = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_cmd_parse_error() const + { + uint32_t value = static_cast(cmd_parse_error); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cmd_parse_error() const volatile + { + uint32_t value = static_cast(cmd_parse_error); + return value; + } +#endif + CONSTEXPR status_r &set_cmd_parse_error(uint32_t value) + { + cmd_parse_error = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_cmd_end_reached() const + { + uint32_t value = static_cast(cmd_end_reached); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cmd_end_reached() const volatile + { + uint32_t value = static_cast(cmd_end_reached); + return value; + } +#endif + CONSTEXPR status_r &set_cmd_end_reached(uint32_t value) + { + cmd_end_reached = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_pmu_irq_raised() const + { + uint32_t value = static_cast(pmu_irq_raised); + return value; + } +#ifndef MODEL_REGS + uint32_t get_pmu_irq_raised() const volatile + { + uint32_t value = static_cast(pmu_irq_raised); + return value; + } +#endif + CONSTEXPR status_r &set_pmu_irq_raised(uint32_t value) + { + pmu_irq_raised = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_wd_fault() const + { + uint32_t value = static_cast(wd_fault); + return value; + } +#ifndef MODEL_REGS + uint32_t get_wd_fault() const volatile + { + uint32_t value = static_cast(wd_fault); + return value; + } +#endif + CONSTEXPR status_r &set_wd_fault(uint32_t value) + { + wd_fault = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_faulting_interface() const + { + uint32_t value = static_cast(faulting_interface); + return value; + } +#ifndef MODEL_REGS + uint32_t get_faulting_interface() const volatile + { + uint32_t value = static_cast(faulting_interface); + return value; + } +#endif + CONSTEXPR status_r &set_faulting_interface(uint32_t value) + { + faulting_interface = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_faulting_channel() const + { + uint32_t value = static_cast(faulting_channel); + return value; + } +#ifndef MODEL_REGS + uint32_t get_faulting_channel() const volatile + { + uint32_t value = static_cast(faulting_channel); + return value; + } +#endif + CONSTEXPR status_r &set_faulting_channel(uint32_t value) + { + faulting_channel = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_irq_history_mask() const + { + uint32_t value = static_cast(irq_history_mask); + return value; + } +#ifndef MODEL_REGS + uint32_t get_irq_history_mask() const volatile + { + uint32_t value = static_cast(irq_history_mask); + return value; + } +#endif + CONSTEXPR status_r &set_irq_history_mask(uint32_t value) + { + irq_history_mask = ((1u << 16) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// cmd_r - Command register, reads as last written command +struct cmd_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> + transition_to_running_state; // Write 1 to transition the NPU to running state. Writing 0 has no effect + ::core::dt::uint_t<1> clear_irq; // Write 1 to clear the IRQ status in the STATUS register. Writing 0 has no effect + ::core::dt::uint_t<1> clock_q_enable; // Write 1 to this bit to enable clock off using clock q-interface and enable + // the master clock gate + ::core::dt::uint_t<1> power_q_enable; // Write 1 to this bit to enable power off using power q-interface + ::core::dt::uint_t<1> + stop_request; // Write 1 to this bit to request STOP after completing any already-started commands + ::core::dt::uint_t<16> clear_irq_history; // Clears the IRQ history mask +#else + union + { + struct + { + uint32_t transition_to_running_state : 1; // Write 1 to transition the NPU to running state. Writing 0 has + // no effect + uint32_t clear_irq : 1; // Write 1 to clear the IRQ status in the STATUS register. Writing 0 has no effect + uint32_t clock_q_enable : 1; // Write 1 to this bit to enable clock off using clock q-interface and enable + // the master clock gate + uint32_t power_q_enable : 1; // Write 1 to this bit to enable power off using power q-interface + uint32_t + stop_request : 1; // Write 1 to this bit to request STOP after completing any already-started commands + uint32_t reserved0 : 11; + uint32_t clear_irq_history : 16; // Clears the IRQ history mask + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR cmd_r() : + transition_to_running_state(static_cast(0x0)), clear_irq(static_cast(0x0)), + clock_q_enable(static_cast(0x0)), power_q_enable(static_cast(0x0)), + stop_request(static_cast(0x0)), clear_irq_history(static_cast(0x0)) + { + } + CONSTEXPR cmd_r(uint32_t value) : + transition_to_running_state(value >> 0), clear_irq(value >> 1), clock_q_enable(value >> 2), + power_q_enable(value >> 3), stop_request(value >> 4), clear_irq_history(value >> 16) + { + } + CONSTEXPR void operator=(uint32_t value) + { + transition_to_running_state = value >> 0; + clear_irq = value >> 1; + clock_q_enable = value >> 2; + power_q_enable = value >> 3; + stop_request = value >> 4; + clear_irq_history = value >> 16; + } + CONSTEXPR operator uint32_t() const + { + return (transition_to_running_state << 0) | (clear_irq << 1) | (clock_q_enable << 2) | (power_q_enable << 3) | + (stop_request << 4) | (clear_irq_history << 16); + } + cmd_r copy() + { + return *this; + } +#else + CONSTEXPR cmd_r() : + transition_to_running_state(static_cast(0x0)), clear_irq(static_cast(0x0)), + clock_q_enable(static_cast(0x0)), power_q_enable(static_cast(0x0)), + stop_request(static_cast(0x0)), reserved0(static_cast(0)), + clear_irq_history(static_cast(0x0)) + { + } + CONSTEXPR cmd_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + cmd_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_transition_to_running_state() const + { + uint32_t value = static_cast(transition_to_running_state); + return value; + } +#ifndef MODEL_REGS + uint32_t get_transition_to_running_state() const volatile + { + uint32_t value = static_cast(transition_to_running_state); + return value; + } +#endif + CONSTEXPR cmd_r &set_transition_to_running_state(uint32_t value) + { + transition_to_running_state = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_clear_irq() const + { + uint32_t value = static_cast(clear_irq); + return value; + } +#ifndef MODEL_REGS + uint32_t get_clear_irq() const volatile + { + uint32_t value = static_cast(clear_irq); + return value; + } +#endif + CONSTEXPR cmd_r &set_clear_irq(uint32_t value) + { + clear_irq = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_clock_q_enable() const + { + uint32_t value = static_cast(clock_q_enable); + return value; + } +#ifndef MODEL_REGS + uint32_t get_clock_q_enable() const volatile + { + uint32_t value = static_cast(clock_q_enable); + return value; + } +#endif + CONSTEXPR cmd_r &set_clock_q_enable(uint32_t value) + { + clock_q_enable = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_power_q_enable() const + { + uint32_t value = static_cast(power_q_enable); + return value; + } +#ifndef MODEL_REGS + uint32_t get_power_q_enable() const volatile + { + uint32_t value = static_cast(power_q_enable); + return value; + } +#endif + CONSTEXPR cmd_r &set_power_q_enable(uint32_t value) + { + power_q_enable = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_stop_request() const + { + uint32_t value = static_cast(stop_request); + return value; + } +#ifndef MODEL_REGS + uint32_t get_stop_request() const volatile + { + uint32_t value = static_cast(stop_request); + return value; + } +#endif + CONSTEXPR cmd_r &set_stop_request(uint32_t value) + { + stop_request = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_clear_irq_history() const + { + uint32_t value = static_cast(clear_irq_history); + return value; + } +#ifndef MODEL_REGS + uint32_t get_clear_irq_history() const volatile + { + uint32_t value = static_cast(clear_irq_history); + return value; + } +#endif + CONSTEXPR cmd_r &set_clear_irq_history(uint32_t value) + { + clear_irq_history = ((1u << 16) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// reset_r - Request Reset and new security mode +struct reset_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> pending_CPL; // Current privilege level 0=User 1=Privileged + ::core::dt::uint_t<1> pending_CSL; // Current security level 0=Secure 1=Non secure +#else + union + { + struct + { + uint32_t pending_CPL : 1; // Current privilege level 0=User 1=Privileged + uint32_t pending_CSL : 1; // Current security level 0=Secure 1=Non secure + uint32_t reserved0 : 30; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR reset_r() : + pending_CPL(static_cast(::privilege_level::USER)), + pending_CSL(static_cast(::security_level::SECURE)) + { + } + CONSTEXPR reset_r(uint32_t value) : pending_CPL(value >> 0), pending_CSL(value >> 1) {} + CONSTEXPR void operator=(uint32_t value) + { + pending_CPL = value >> 0; + pending_CSL = value >> 1; + } + CONSTEXPR operator uint32_t() const + { + return (pending_CPL << 0) | (pending_CSL << 1); + } + reset_r copy() + { + return *this; + } +#else + CONSTEXPR reset_r() : + pending_CPL(static_cast(::privilege_level::USER)), + pending_CSL(static_cast(::security_level::SECURE)), reserved0(static_cast(0)) + { + } + CONSTEXPR reset_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + reset_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::privilege_level get_pending_CPL() const + { + ::privilege_level value = static_cast<::privilege_level>(pending_CPL); + return value; + } +#ifndef MODEL_REGS + ::privilege_level get_pending_CPL() const volatile + { + ::privilege_level value = static_cast<::privilege_level>(pending_CPL); + return value; + } +#endif + CONSTEXPR reset_r &set_pending_CPL(::privilege_level value) + { + pending_CPL = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::security_level get_pending_CSL() const + { + ::security_level value = static_cast<::security_level>(pending_CSL); + return value; + } +#ifndef MODEL_REGS + ::security_level get_pending_CSL() const volatile + { + ::security_level value = static_cast<::security_level>(pending_CSL); + return value; + } +#endif + CONSTEXPR reset_r &set_pending_CSL(::security_level value) + { + pending_CSL = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// qbase0_r - Base address of command queue bits [31:0]. The address is 4 byte aligned +struct qbase0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> QBASE0; // The 4 byte aligned lower bytes of the base address value for the command stream +#else + union + { + uint32_t QBASE0; // The 4 byte aligned lower bytes of the base address value for the command stream + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR qbase0_r() : QBASE0(static_cast(0x00000000)) {} + CONSTEXPR qbase0_r(uint32_t value) : QBASE0(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + QBASE0 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (QBASE0 << 0); + } + qbase0_r copy() + { + return *this; + } +#else + CONSTEXPR qbase0_r() : QBASE0(static_cast(0x00000000)) {} + CONSTEXPR qbase0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + qbase0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_QBASE0() const + { + uint32_t value = static_cast(QBASE0); + return value; + } +#ifndef MODEL_REGS + uint32_t get_QBASE0() const volatile + { + uint32_t value = static_cast(QBASE0); + return value; + } +#endif + CONSTEXPR qbase0_r &set_QBASE0(uint32_t value) + { + QBASE0 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// qbase1_r - Address extension bits [47:32] bits for queue base +struct qbase1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> QBASE1; // The 4 byte aligned upper bytes of the base address value for the command stream +#else + union + { + uint32_t QBASE1; // The 4 byte aligned upper bytes of the base address value for the command stream + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR qbase1_r() : QBASE1(static_cast(0x00000000)) {} + CONSTEXPR qbase1_r(uint32_t value) : QBASE1(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + QBASE1 = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (QBASE1 << 0); + } + qbase1_r copy() + { + return *this; + } +#else + CONSTEXPR qbase1_r() : QBASE1(static_cast(0x00000000)) {} + CONSTEXPR qbase1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + qbase1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_QBASE1() const + { + uint32_t value = static_cast(QBASE1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_QBASE1() const volatile + { + uint32_t value = static_cast(QBASE1); + return value; + } +#endif + CONSTEXPR qbase1_r &set_QBASE1(uint32_t value) + { + QBASE1 = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// qread_r - Read offset in the command stream in bytes. Multiple of 4 in the range 0 to 16 MB +struct qread_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> QREAD; // The read offset of the current command under execution +#else + union + { + uint32_t QREAD; // The read offset of the current command under execution + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR qread_r() : QREAD(static_cast(0x00000000)) {} + CONSTEXPR qread_r(uint32_t value) : QREAD(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + QREAD = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (QREAD << 0); + } + qread_r copy() + { + return *this; + } +#else + CONSTEXPR qread_r() : QREAD(static_cast(0x00000000)) {} + CONSTEXPR qread_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + qread_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_QREAD() const + { + uint32_t value = static_cast(QREAD); + return value; + } +#ifndef MODEL_REGS + uint32_t get_QREAD() const volatile + { + uint32_t value = static_cast(QREAD); + return value; + } +#endif + CONSTEXPR qread_r &set_QREAD(uint32_t value) + { + QREAD = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// qconfig_r - AXI configuration for the command stream in the range 0-3. Same encoding as for REGIONCFG +struct qconfig_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> QCONFIG; // AXI configuration for the command stream in the range 0-3 +#else + union + { + uint32_t QCONFIG; // AXI configuration for the command stream in the range 0-3 + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR qconfig_r() : QCONFIG(static_cast(0x00000000)) {} + CONSTEXPR qconfig_r(uint32_t value) : QCONFIG(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + QCONFIG = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (QCONFIG << 0); + } + qconfig_r copy() + { + return *this; + } +#else + CONSTEXPR qconfig_r() : QCONFIG(static_cast(0x00000000)) {} + CONSTEXPR qconfig_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + qconfig_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_QCONFIG() const + { + uint32_t value = static_cast(QCONFIG); + return value; + } +#ifndef MODEL_REGS + uint32_t get_QCONFIG() const volatile + { + uint32_t value = static_cast(QCONFIG); + return value; + } +#endif + CONSTEXPR qconfig_r &set_QCONFIG(uint32_t value) + { + QCONFIG = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// qsize_r - Size of the command stream in bytes. Multiple of 4 in the range 0 to 16 MB +struct qsize_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> QSIZE; // Size of the next command stream to be executed by the NPU +#else + union + { + uint32_t QSIZE; // Size of the next command stream to be executed by the NPU + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR qsize_r() : QSIZE(static_cast(0x00000000)) {} + CONSTEXPR qsize_r(uint32_t value) : QSIZE(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + QSIZE = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (QSIZE << 0); + } + qsize_r copy() + { + return *this; + } +#else + CONSTEXPR qsize_r() : QSIZE(static_cast(0x00000000)) {} + CONSTEXPR qsize_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + qsize_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_QSIZE() const + { + uint32_t value = static_cast(QSIZE); + return value; + } +#ifndef MODEL_REGS + uint32_t get_QSIZE() const volatile + { + uint32_t value = static_cast(QSIZE); + return value; + } +#endif + CONSTEXPR qsize_r &set_QSIZE(uint32_t value) + { + QSIZE = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// prot_r - Protection level configured for the NPU when acting as an AXI master +struct prot_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> active_CPL; // Current privilege level 0=User 1=Privileged + ::core::dt::uint_t<1> active_CSL; // Current security level 0=Secure 1=Non secure +#else + union + { + struct + { + uint32_t active_CPL : 1; // Current privilege level 0=User 1=Privileged + uint32_t active_CSL : 1; // Current security level 0=Secure 1=Non secure + uint32_t reserved0 : 30; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR prot_r() : + active_CPL(static_cast(::privilege_level::USER)), + active_CSL(static_cast(::security_level::SECURE)) + { + } + CONSTEXPR prot_r(uint32_t value) : active_CPL(value >> 0), active_CSL(value >> 1) {} + CONSTEXPR void operator=(uint32_t value) + { + active_CPL = value >> 0; + active_CSL = value >> 1; + } + CONSTEXPR operator uint32_t() const + { + return (active_CPL << 0) | (active_CSL << 1); + } + prot_r copy() + { + return *this; + } +#else + CONSTEXPR prot_r() : + active_CPL(static_cast(::privilege_level::USER)), + active_CSL(static_cast(::security_level::SECURE)), reserved0(static_cast(0)) + { + } + CONSTEXPR prot_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + prot_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::privilege_level get_active_CPL() const + { + ::privilege_level value = static_cast<::privilege_level>(active_CPL); + return value; + } +#ifndef MODEL_REGS + ::privilege_level get_active_CPL() const volatile + { + ::privilege_level value = static_cast<::privilege_level>(active_CPL); + return value; + } +#endif + CONSTEXPR prot_r &set_active_CPL(::privilege_level value) + { + active_CPL = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::security_level get_active_CSL() const + { + ::security_level value = static_cast<::security_level>(active_CSL); + return value; + } +#ifndef MODEL_REGS + ::security_level get_active_CSL() const volatile + { + ::security_level value = static_cast<::security_level>(active_CSL); + return value; + } +#endif + CONSTEXPR prot_r &set_active_CSL(::security_level value) + { + active_CSL = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// config_r - RTL configuration +struct config_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<4> + macs_per_cc; // The log2(macs/clock cycle). Valid encoding range is 5 to 8 for 32 to 256 MACs/clock cycle. + ::core::dt::uint_t<4> + cmd_stream_version; // command stream version accepted by this NPU. Set to 0 for Ethos-U55 EAC. + ::core::dt::uint_t<8> shram_size; // Size in KB of SHRAM in the range 8 to 48. + ::core::dt::uint_t<4> product; // Product configuration +#else + union + { + struct + { + uint32_t macs_per_cc : 4; // The log2(macs/clock cycle). Valid encoding range is 5 to 8 for 32 to 256 + // MACs/clock cycle. + uint32_t cmd_stream_version : 4; // command stream version accepted by this NPU. Set to 0 for Ethos-U55 EAC. + uint32_t shram_size : 8; // Size in KB of SHRAM in the range 8 to 48. + uint32_t reserved0 : 12; + uint32_t product : 4; // Product configuration + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR config_r() : + macs_per_cc(static_cast(0x0)), cmd_stream_version(static_cast(0x0)), + shram_size(static_cast(0x0)), product(static_cast(::product::ETHOS_U55)) + { + } + CONSTEXPR config_r(uint32_t value) : + macs_per_cc(value >> 0), cmd_stream_version(value >> 4), shram_size(value >> 8), product(value >> 28) + { + } + CONSTEXPR void operator=(uint32_t value) + { + macs_per_cc = value >> 0; + cmd_stream_version = value >> 4; + shram_size = value >> 8; + product = value >> 28; + } + CONSTEXPR operator uint32_t() const + { + return (macs_per_cc << 0) | (cmd_stream_version << 4) | (shram_size << 8) | (product << 28); + } + config_r copy() + { + return *this; + } +#else + CONSTEXPR config_r() : + macs_per_cc(static_cast(0x0)), cmd_stream_version(static_cast(0x0)), + shram_size(static_cast(0x0)), reserved0(static_cast(0)), + product(static_cast(::product::ETHOS_U55)) + { + } + CONSTEXPR config_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + config_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_macs_per_cc() const + { + uint32_t value = static_cast(macs_per_cc); + return value; + } +#ifndef MODEL_REGS + uint32_t get_macs_per_cc() const volatile + { + uint32_t value = static_cast(macs_per_cc); + return value; + } +#endif + CONSTEXPR config_r &set_macs_per_cc(uint32_t value) + { + macs_per_cc = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_cmd_stream_version() const + { + uint32_t value = static_cast(cmd_stream_version); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cmd_stream_version() const volatile + { + uint32_t value = static_cast(cmd_stream_version); + return value; + } +#endif + CONSTEXPR config_r &set_cmd_stream_version(uint32_t value) + { + cmd_stream_version = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_shram_size() const + { + uint32_t value = static_cast(shram_size); + return value; + } +#ifndef MODEL_REGS + uint32_t get_shram_size() const volatile + { + uint32_t value = static_cast(shram_size); + return value; + } +#endif + CONSTEXPR config_r &set_shram_size(uint32_t value) + { + shram_size = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::product get_product() const + { + ::product value = static_cast<::product>(product); + return value; + } +#ifndef MODEL_REGS + ::product get_product() const volatile + { + ::product value = static_cast<::product>(product); + return value; + } +#endif + CONSTEXPR config_r &set_product(::product value) + { + product = ((1u << 4) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// lock_r - Lock register. This register is designed for driver use and does not affect NPU functionality +struct lock_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> LOCK; // 32 bit value for LOCK configuration +#else + union + { + uint32_t LOCK; // 32 bit value for LOCK configuration + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR lock_r() : LOCK(static_cast(0x00000000)) {} + CONSTEXPR lock_r(uint32_t value) : LOCK(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + LOCK = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (LOCK << 0); + } + lock_r copy() + { + return *this; + } +#else + CONSTEXPR lock_r() : LOCK(static_cast(0x00000000)) {} + CONSTEXPR lock_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + lock_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_LOCK() const + { + uint32_t value = static_cast(LOCK); + return value; + } +#ifndef MODEL_REGS + uint32_t get_LOCK() const volatile + { + uint32_t value = static_cast(LOCK); + return value; + } +#endif + CONSTEXPR lock_r &set_LOCK(uint32_t value) + { + LOCK = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// regioncfg_r - Base pointer configuration. Bits[2*k+1:2*k] give the memory type for REGION[k] +struct regioncfg_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<2> region0; // Bits for Region0 Configurion + ::core::dt::uint_t<2> region1; // Bits for Region1 Configurion + ::core::dt::uint_t<2> region2; // Bits for Region2 Configurion + ::core::dt::uint_t<2> region3; // Bits for Region3 Configurion + ::core::dt::uint_t<2> region4; // Bits for Region4 Configurion + ::core::dt::uint_t<2> region5; // Bits for Region5 Configurion + ::core::dt::uint_t<2> region6; // Bits for Region6 Configurion + ::core::dt::uint_t<2> region7; // Bits for Region7 Configurion +#else + union + { + struct + { + uint32_t region0 : 2; // Bits for Region0 Configurion + uint32_t region1 : 2; // Bits for Region1 Configurion + uint32_t region2 : 2; // Bits for Region2 Configurion + uint32_t region3 : 2; // Bits for Region3 Configurion + uint32_t region4 : 2; // Bits for Region4 Configurion + uint32_t region5 : 2; // Bits for Region5 Configurion + uint32_t region6 : 2; // Bits for Region6 Configurion + uint32_t region7 : 2; // Bits for Region7 Configurion + uint32_t reserved0 : 16; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR regioncfg_r() : + region0(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region1(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region2(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region3(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region4(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region5(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region6(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region7(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)) + { + } + CONSTEXPR regioncfg_r(uint32_t value) : + region0(value >> 0), region1(value >> 2), region2(value >> 4), region3(value >> 6), region4(value >> 8), + region5(value >> 10), region6(value >> 12), region7(value >> 14) + { + } + CONSTEXPR void operator=(uint32_t value) + { + region0 = value >> 0; + region1 = value >> 2; + region2 = value >> 4; + region3 = value >> 6; + region4 = value >> 8; + region5 = value >> 10; + region6 = value >> 12; + region7 = value >> 14; + } + CONSTEXPR operator uint32_t() const + { + return (region0 << 0) | (region1 << 2) | (region2 << 4) | (region3 << 6) | (region4 << 8) | (region5 << 10) | + (region6 << 12) | (region7 << 14); + } + regioncfg_r copy() + { + return *this; + } +#else + CONSTEXPR regioncfg_r() : + region0(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region1(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region2(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region3(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region4(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region5(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region6(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), + region7(static_cast(::memory_type::AXI0_OUTSTANDING_COUNTER0)), reserved0(static_cast(0)) + { + } + CONSTEXPR regioncfg_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + regioncfg_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::memory_type get_region0() const + { + ::memory_type value = static_cast<::memory_type>(region0); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region0() const volatile + { + ::memory_type value = static_cast<::memory_type>(region0); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region0(::memory_type value) + { + region0 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region1() const + { + ::memory_type value = static_cast<::memory_type>(region1); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region1() const volatile + { + ::memory_type value = static_cast<::memory_type>(region1); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region1(::memory_type value) + { + region1 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region2() const + { + ::memory_type value = static_cast<::memory_type>(region2); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region2() const volatile + { + ::memory_type value = static_cast<::memory_type>(region2); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region2(::memory_type value) + { + region2 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region3() const + { + ::memory_type value = static_cast<::memory_type>(region3); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region3() const volatile + { + ::memory_type value = static_cast<::memory_type>(region3); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region3(::memory_type value) + { + region3 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region4() const + { + ::memory_type value = static_cast<::memory_type>(region4); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region4() const volatile + { + ::memory_type value = static_cast<::memory_type>(region4); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region4(::memory_type value) + { + region4 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region5() const + { + ::memory_type value = static_cast<::memory_type>(region5); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region5() const volatile + { + ::memory_type value = static_cast<::memory_type>(region5); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region5(::memory_type value) + { + region5 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region6() const + { + ::memory_type value = static_cast<::memory_type>(region6); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region6() const volatile + { + ::memory_type value = static_cast<::memory_type>(region6); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region6(::memory_type value) + { + region6 = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR ::memory_type get_region7() const + { + ::memory_type value = static_cast<::memory_type>(region7); + return value; + } +#ifndef MODEL_REGS + ::memory_type get_region7() const volatile + { + ::memory_type value = static_cast<::memory_type>(region7); + return value; + } +#endif + CONSTEXPR regioncfg_r &set_region7(::memory_type value) + { + region7 = ((1u << 2) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// axi_limit0_r - AXI limits for port 0 counter 0 +struct axi_limit0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<2> max_beats; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + ::core::dt::uint_t<4> memtype; // Memtype + ::core::dt::uint_t<8> + max_outstanding_read_m1; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + ::core::dt::uint_t<8> + max_outstanding_write_m1; // Maximum number of outstanding AXI write transactions - 1 in range 0 to 15 +#else + union + { + struct + { + uint32_t max_beats : 2; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + uint32_t reserved0 : 2; + uint32_t memtype : 4; // Memtype + uint32_t reserved1 : 8; + uint32_t + max_outstanding_read_m1 : 8; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + uint32_t max_outstanding_write_m1 : 8; // Maximum number of outstanding AXI write transactions - 1 in range + // 0 to 15 + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR axi_limit0_r() : + max_beats(static_cast(0)), memtype(static_cast(0)), + max_outstanding_read_m1(static_cast(0x00)), max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit0_r(uint32_t value) : + max_beats(value >> 0), memtype(value >> 4), max_outstanding_read_m1(value >> 16), + max_outstanding_write_m1(value >> 24) + { + } + CONSTEXPR void operator=(uint32_t value) + { + max_beats = value >> 0; + memtype = value >> 4; + max_outstanding_read_m1 = value >> 16; + max_outstanding_write_m1 = value >> 24; + } + CONSTEXPR operator uint32_t() const + { + return (max_beats << 0) | (memtype << 4) | (max_outstanding_read_m1 << 16) | (max_outstanding_write_m1 << 24); + } + axi_limit0_r copy() + { + return *this; + } +#else + CONSTEXPR axi_limit0_r() : + max_beats(static_cast(0)), reserved0(static_cast(0)), memtype(static_cast(0)), + reserved1(static_cast(0)), max_outstanding_read_m1(static_cast(0x00)), + max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + axi_limit0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_max_beats() const + { + uint32_t value = static_cast(max_beats); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_beats() const volatile + { + uint32_t value = static_cast(max_beats); + return value; + } +#endif + CONSTEXPR axi_limit0_r &set_max_beats(uint32_t value) + { + max_beats = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_memtype() const + { + uint32_t value = static_cast(memtype); + return value; + } +#ifndef MODEL_REGS + uint32_t get_memtype() const volatile + { + uint32_t value = static_cast(memtype); + return value; + } +#endif + CONSTEXPR axi_limit0_r &set_memtype(uint32_t value) + { + memtype = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_read_m1() const + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_read_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#endif + CONSTEXPR axi_limit0_r &set_max_outstanding_read_m1(uint32_t value) + { + max_outstanding_read_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_write_m1() const + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_write_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#endif + CONSTEXPR axi_limit0_r &set_max_outstanding_write_m1(uint32_t value) + { + max_outstanding_write_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// axi_limit1_r - AXI limits for port 0 counter 1 +struct axi_limit1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<2> max_beats; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + ::core::dt::uint_t<4> memtype; // Memtype + ::core::dt::uint_t<8> + max_outstanding_read_m1; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + ::core::dt::uint_t<8> + max_outstanding_write_m1; // Maximum number of outstanding AXI write transactions - 1 in range 0 to 15 +#else + union + { + struct + { + uint32_t max_beats : 2; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + uint32_t reserved0 : 2; + uint32_t memtype : 4; // Memtype + uint32_t reserved1 : 8; + uint32_t + max_outstanding_read_m1 : 8; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + uint32_t max_outstanding_write_m1 : 8; // Maximum number of outstanding AXI write transactions - 1 in range + // 0 to 15 + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR axi_limit1_r() : + max_beats(static_cast(0)), memtype(static_cast(0)), + max_outstanding_read_m1(static_cast(0x00)), max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit1_r(uint32_t value) : + max_beats(value >> 0), memtype(value >> 4), max_outstanding_read_m1(value >> 16), + max_outstanding_write_m1(value >> 24) + { + } + CONSTEXPR void operator=(uint32_t value) + { + max_beats = value >> 0; + memtype = value >> 4; + max_outstanding_read_m1 = value >> 16; + max_outstanding_write_m1 = value >> 24; + } + CONSTEXPR operator uint32_t() const + { + return (max_beats << 0) | (memtype << 4) | (max_outstanding_read_m1 << 16) | (max_outstanding_write_m1 << 24); + } + axi_limit1_r copy() + { + return *this; + } +#else + CONSTEXPR axi_limit1_r() : + max_beats(static_cast(0)), reserved0(static_cast(0)), memtype(static_cast(0)), + reserved1(static_cast(0)), max_outstanding_read_m1(static_cast(0x00)), + max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + axi_limit1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_max_beats() const + { + uint32_t value = static_cast(max_beats); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_beats() const volatile + { + uint32_t value = static_cast(max_beats); + return value; + } +#endif + CONSTEXPR axi_limit1_r &set_max_beats(uint32_t value) + { + max_beats = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_memtype() const + { + uint32_t value = static_cast(memtype); + return value; + } +#ifndef MODEL_REGS + uint32_t get_memtype() const volatile + { + uint32_t value = static_cast(memtype); + return value; + } +#endif + CONSTEXPR axi_limit1_r &set_memtype(uint32_t value) + { + memtype = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_read_m1() const + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_read_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#endif + CONSTEXPR axi_limit1_r &set_max_outstanding_read_m1(uint32_t value) + { + max_outstanding_read_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_write_m1() const + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_write_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#endif + CONSTEXPR axi_limit1_r &set_max_outstanding_write_m1(uint32_t value) + { + max_outstanding_write_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// axi_limit2_r - AXI limits for port 1 counter 2 +struct axi_limit2_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<2> max_beats; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + ::core::dt::uint_t<4> memtype; // Memtype + ::core::dt::uint_t<8> + max_outstanding_read_m1; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + ::core::dt::uint_t<8> + max_outstanding_write_m1; // Maximum number of outstanding AXI write transactions - 1 in range 0 to 15 +#else + union + { + struct + { + uint32_t max_beats : 2; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + uint32_t reserved0 : 2; + uint32_t memtype : 4; // Memtype + uint32_t reserved1 : 8; + uint32_t + max_outstanding_read_m1 : 8; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + uint32_t max_outstanding_write_m1 : 8; // Maximum number of outstanding AXI write transactions - 1 in range + // 0 to 15 + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR axi_limit2_r() : + max_beats(static_cast(0)), memtype(static_cast(0)), + max_outstanding_read_m1(static_cast(0x00)), max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit2_r(uint32_t value) : + max_beats(value >> 0), memtype(value >> 4), max_outstanding_read_m1(value >> 16), + max_outstanding_write_m1(value >> 24) + { + } + CONSTEXPR void operator=(uint32_t value) + { + max_beats = value >> 0; + memtype = value >> 4; + max_outstanding_read_m1 = value >> 16; + max_outstanding_write_m1 = value >> 24; + } + CONSTEXPR operator uint32_t() const + { + return (max_beats << 0) | (memtype << 4) | (max_outstanding_read_m1 << 16) | (max_outstanding_write_m1 << 24); + } + axi_limit2_r copy() + { + return *this; + } +#else + CONSTEXPR axi_limit2_r() : + max_beats(static_cast(0)), reserved0(static_cast(0)), memtype(static_cast(0)), + reserved1(static_cast(0)), max_outstanding_read_m1(static_cast(0x00)), + max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit2_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + axi_limit2_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_max_beats() const + { + uint32_t value = static_cast(max_beats); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_beats() const volatile + { + uint32_t value = static_cast(max_beats); + return value; + } +#endif + CONSTEXPR axi_limit2_r &set_max_beats(uint32_t value) + { + max_beats = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_memtype() const + { + uint32_t value = static_cast(memtype); + return value; + } +#ifndef MODEL_REGS + uint32_t get_memtype() const volatile + { + uint32_t value = static_cast(memtype); + return value; + } +#endif + CONSTEXPR axi_limit2_r &set_memtype(uint32_t value) + { + memtype = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_read_m1() const + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_read_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#endif + CONSTEXPR axi_limit2_r &set_max_outstanding_read_m1(uint32_t value) + { + max_outstanding_read_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_write_m1() const + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_write_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#endif + CONSTEXPR axi_limit2_r &set_max_outstanding_write_m1(uint32_t value) + { + max_outstanding_write_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// axi_limit3_r - AXI limits for port 1 counter 3 +struct axi_limit3_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<2> max_beats; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + ::core::dt::uint_t<4> memtype; // Memtype + ::core::dt::uint_t<8> + max_outstanding_read_m1; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + ::core::dt::uint_t<8> + max_outstanding_write_m1; // Maximum number of outstanding AXI write transactions - 1 in range 0 to 15 +#else + union + { + struct + { + uint32_t max_beats : 2; // Burst split alignment: 0=64 bytes, 1=128 bytes, 2=256 bytes, 3=reserved + uint32_t reserved0 : 2; + uint32_t memtype : 4; // Memtype + uint32_t reserved1 : 8; + uint32_t + max_outstanding_read_m1 : 8; // Maximum number of outstanding AXI read transactions - 1 in range 0 to 31 + uint32_t max_outstanding_write_m1 : 8; // Maximum number of outstanding AXI write transactions - 1 in range + // 0 to 15 + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR axi_limit3_r() : + max_beats(static_cast(0)), memtype(static_cast(0)), + max_outstanding_read_m1(static_cast(0x00)), max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit3_r(uint32_t value) : + max_beats(value >> 0), memtype(value >> 4), max_outstanding_read_m1(value >> 16), + max_outstanding_write_m1(value >> 24) + { + } + CONSTEXPR void operator=(uint32_t value) + { + max_beats = value >> 0; + memtype = value >> 4; + max_outstanding_read_m1 = value >> 16; + max_outstanding_write_m1 = value >> 24; + } + CONSTEXPR operator uint32_t() const + { + return (max_beats << 0) | (memtype << 4) | (max_outstanding_read_m1 << 16) | (max_outstanding_write_m1 << 24); + } + axi_limit3_r copy() + { + return *this; + } +#else + CONSTEXPR axi_limit3_r() : + max_beats(static_cast(0)), reserved0(static_cast(0)), memtype(static_cast(0)), + reserved1(static_cast(0)), max_outstanding_read_m1(static_cast(0x00)), + max_outstanding_write_m1(static_cast(0x000000)) + { + } + CONSTEXPR axi_limit3_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + axi_limit3_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_max_beats() const + { + uint32_t value = static_cast(max_beats); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_beats() const volatile + { + uint32_t value = static_cast(max_beats); + return value; + } +#endif + CONSTEXPR axi_limit3_r &set_max_beats(uint32_t value) + { + max_beats = ((1u << 2) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_memtype() const + { + uint32_t value = static_cast(memtype); + return value; + } +#ifndef MODEL_REGS + uint32_t get_memtype() const volatile + { + uint32_t value = static_cast(memtype); + return value; + } +#endif + CONSTEXPR axi_limit3_r &set_memtype(uint32_t value) + { + memtype = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_read_m1() const + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_read_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_read_m1); + return value; + } +#endif + CONSTEXPR axi_limit3_r &set_max_outstanding_read_m1(uint32_t value) + { + max_outstanding_read_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_max_outstanding_write_m1() const + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_max_outstanding_write_m1() const volatile + { + uint32_t value = static_cast(max_outstanding_write_m1); + return value; + } +#endif + CONSTEXPR axi_limit3_r &set_max_outstanding_write_m1(uint32_t value) + { + max_outstanding_write_m1 = ((1u << 8) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmcr_r - PMU Register control +struct pmcr_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> cnt_en; // Enable counters (RW) + ::core::dt::uint_t<1> event_cnt_rst; // Reset event counters (WO) + ::core::dt::uint_t<1> cycle_cnt_rst; // Reset cycle counter (WO) + ::core::dt::uint_t<1> mask_en; // PMU can be enabled/disabled by command stream operation NPU_OP_PMU_MASK + ::core::dt::uint_t<5> num_event_cnt; // Number of event counters (RO) +#else + union + { + struct + { + uint32_t cnt_en : 1; // Enable counters (RW) + uint32_t event_cnt_rst : 1; // Reset event counters (WO) + uint32_t cycle_cnt_rst : 1; // Reset cycle counter (WO) + uint32_t mask_en : 1; // PMU can be enabled/disabled by command stream operation NPU_OP_PMU_MASK + uint32_t reserved0 : 7; + uint32_t num_event_cnt : 5; // Number of event counters (RO) + uint32_t reserved1 : 16; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmcr_r() : + cnt_en(static_cast(0)), event_cnt_rst(static_cast(0)), + cycle_cnt_rst(static_cast(0)), mask_en(static_cast(0)), + num_event_cnt(static_cast(4)) + { + } + CONSTEXPR pmcr_r(uint32_t value) : + cnt_en(value >> 0), event_cnt_rst(value >> 1), cycle_cnt_rst(value >> 2), mask_en(value >> 3), + num_event_cnt(value >> 11) + { + } + CONSTEXPR void operator=(uint32_t value) + { + cnt_en = value >> 0; + event_cnt_rst = value >> 1; + cycle_cnt_rst = value >> 2; + mask_en = value >> 3; + num_event_cnt = value >> 11; + } + CONSTEXPR operator uint32_t() const + { + return (cnt_en << 0) | (event_cnt_rst << 1) | (cycle_cnt_rst << 2) | (mask_en << 3) | (num_event_cnt << 11); + } + pmcr_r copy() + { + return *this; + } +#else + CONSTEXPR pmcr_r() : + cnt_en(static_cast(0)), event_cnt_rst(static_cast(0)), + cycle_cnt_rst(static_cast(0)), mask_en(static_cast(0)), reserved0(static_cast(0)), + num_event_cnt(static_cast(4)), reserved1(static_cast(0)) + { + } + CONSTEXPR pmcr_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmcr_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_cnt_en() const + { + uint32_t value = static_cast(cnt_en); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cnt_en() const volatile + { + uint32_t value = static_cast(cnt_en); + return value; + } +#endif + CONSTEXPR pmcr_r &set_cnt_en(uint32_t value) + { + cnt_en = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_event_cnt_rst() const + { + uint32_t value = static_cast(event_cnt_rst); + return value; + } +#ifndef MODEL_REGS + uint32_t get_event_cnt_rst() const volatile + { + uint32_t value = static_cast(event_cnt_rst); + return value; + } +#endif + CONSTEXPR pmcr_r &set_event_cnt_rst(uint32_t value) + { + event_cnt_rst = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_cycle_cnt_rst() const + { + uint32_t value = static_cast(cycle_cnt_rst); + return value; + } +#ifndef MODEL_REGS + uint32_t get_cycle_cnt_rst() const volatile + { + uint32_t value = static_cast(cycle_cnt_rst); + return value; + } +#endif + CONSTEXPR pmcr_r &set_cycle_cnt_rst(uint32_t value) + { + cycle_cnt_rst = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_mask_en() const + { + uint32_t value = static_cast(mask_en); + return value; + } +#ifndef MODEL_REGS + uint32_t get_mask_en() const volatile + { + uint32_t value = static_cast(mask_en); + return value; + } +#endif + CONSTEXPR pmcr_r &set_mask_en(uint32_t value) + { + mask_en = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_num_event_cnt() const + { + uint32_t value = static_cast(num_event_cnt); + return value; + } +#ifndef MODEL_REGS + uint32_t get_num_event_cnt() const volatile + { + uint32_t value = static_cast(num_event_cnt); + return value; + } +#endif + CONSTEXPR pmcr_r &set_num_event_cnt(uint32_t value) + { + num_event_cnt = ((1u << 5) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmcntenset_r - Count enable set register +struct pmcntenset_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0; // Event counter enable bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1; // Event counter enable bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2; // Event counter enable bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3; // Event counter enable bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT; // PMCCNTR enable bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0 : 1; // Event counter enable bit for PMEVCNTR0 + uint32_t EVENT_CNT_1 : 1; // Event counter enable bit for PMEVCNTR1 + uint32_t EVENT_CNT_2 : 1; // Event counter enable bit for PMEVCNTR2 + uint32_t EVENT_CNT_3 : 1; // Event counter enable bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT : 1; // PMCCNTR enable bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmcntenset_r() : + EVENT_CNT_0(static_cast(0)), EVENT_CNT_1(static_cast(0)), + EVENT_CNT_2(static_cast(0)), EVENT_CNT_3(static_cast(0)), + CYCLE_CNT(static_cast(0)) + { + } + CONSTEXPR pmcntenset_r(uint32_t value) : + EVENT_CNT_0(value >> 0), EVENT_CNT_1(value >> 1), EVENT_CNT_2(value >> 2), EVENT_CNT_3(value >> 3), + CYCLE_CNT(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0 = value >> 0; + EVENT_CNT_1 = value >> 1; + EVENT_CNT_2 = value >> 2; + EVENT_CNT_3 = value >> 3; + CYCLE_CNT = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0 << 0) | (EVENT_CNT_1 << 1) | (EVENT_CNT_2 << 2) | (EVENT_CNT_3 << 3) | (CYCLE_CNT << 31); + } + pmcntenset_r copy() + { + return *this; + } +#else + CONSTEXPR pmcntenset_r() : + EVENT_CNT_0(static_cast(0)), EVENT_CNT_1(static_cast(0)), + EVENT_CNT_2(static_cast(0)), EVENT_CNT_3(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT(static_cast(0)) + { + } + CONSTEXPR pmcntenset_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmcntenset_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0() const + { + uint32_t value = static_cast(EVENT_CNT_0); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0); + return value; + } +#endif + CONSTEXPR pmcntenset_r &set_EVENT_CNT_0(uint32_t value) + { + EVENT_CNT_0 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1() const + { + uint32_t value = static_cast(EVENT_CNT_1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1); + return value; + } +#endif + CONSTEXPR pmcntenset_r &set_EVENT_CNT_1(uint32_t value) + { + EVENT_CNT_1 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2() const + { + uint32_t value = static_cast(EVENT_CNT_2); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2); + return value; + } +#endif + CONSTEXPR pmcntenset_r &set_EVENT_CNT_2(uint32_t value) + { + EVENT_CNT_2 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3() const + { + uint32_t value = static_cast(EVENT_CNT_3); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3); + return value; + } +#endif + CONSTEXPR pmcntenset_r &set_EVENT_CNT_3(uint32_t value) + { + EVENT_CNT_3 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT() const + { + uint32_t value = static_cast(CYCLE_CNT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT() const volatile + { + uint32_t value = static_cast(CYCLE_CNT); + return value; + } +#endif + CONSTEXPR pmcntenset_r &set_CYCLE_CNT(uint32_t value) + { + CYCLE_CNT = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmcntenclr_r - Count enable clear register +struct pmcntenclr_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0; // Event counter disable bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1; // Event counter disable bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2; // Event counter disable bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3; // Event counter disable bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT; // PMCCNTR disable bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0 : 1; // Event counter disable bit for PMEVCNTR0 + uint32_t EVENT_CNT_1 : 1; // Event counter disable bit for PMEVCNTR1 + uint32_t EVENT_CNT_2 : 1; // Event counter disable bit for PMEVCNTR2 + uint32_t EVENT_CNT_3 : 1; // Event counter disable bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT : 1; // PMCCNTR disable bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmcntenclr_r() : + EVENT_CNT_0(static_cast(0)), EVENT_CNT_1(static_cast(0)), + EVENT_CNT_2(static_cast(0)), EVENT_CNT_3(static_cast(0)), + CYCLE_CNT(static_cast(0)) + { + } + CONSTEXPR pmcntenclr_r(uint32_t value) : + EVENT_CNT_0(value >> 0), EVENT_CNT_1(value >> 1), EVENT_CNT_2(value >> 2), EVENT_CNT_3(value >> 3), + CYCLE_CNT(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0 = value >> 0; + EVENT_CNT_1 = value >> 1; + EVENT_CNT_2 = value >> 2; + EVENT_CNT_3 = value >> 3; + CYCLE_CNT = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0 << 0) | (EVENT_CNT_1 << 1) | (EVENT_CNT_2 << 2) | (EVENT_CNT_3 << 3) | (CYCLE_CNT << 31); + } + pmcntenclr_r copy() + { + return *this; + } +#else + CONSTEXPR pmcntenclr_r() : + EVENT_CNT_0(static_cast(0)), EVENT_CNT_1(static_cast(0)), + EVENT_CNT_2(static_cast(0)), EVENT_CNT_3(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT(static_cast(0)) + { + } + CONSTEXPR pmcntenclr_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmcntenclr_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0() const + { + uint32_t value = static_cast(EVENT_CNT_0); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0); + return value; + } +#endif + CONSTEXPR pmcntenclr_r &set_EVENT_CNT_0(uint32_t value) + { + EVENT_CNT_0 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1() const + { + uint32_t value = static_cast(EVENT_CNT_1); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1); + return value; + } +#endif + CONSTEXPR pmcntenclr_r &set_EVENT_CNT_1(uint32_t value) + { + EVENT_CNT_1 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2() const + { + uint32_t value = static_cast(EVENT_CNT_2); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2); + return value; + } +#endif + CONSTEXPR pmcntenclr_r &set_EVENT_CNT_2(uint32_t value) + { + EVENT_CNT_2 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3() const + { + uint32_t value = static_cast(EVENT_CNT_3); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3); + return value; + } +#endif + CONSTEXPR pmcntenclr_r &set_EVENT_CNT_3(uint32_t value) + { + EVENT_CNT_3 = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT() const + { + uint32_t value = static_cast(CYCLE_CNT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT() const volatile + { + uint32_t value = static_cast(CYCLE_CNT); + return value; + } +#endif + CONSTEXPR pmcntenclr_r &set_CYCLE_CNT(uint32_t value) + { + CYCLE_CNT = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmovsset_r - Overflow flag status set register +struct pmovsset_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0_OVF; // Event counter overflow set bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1_OVF; // Event counter overflow set bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2_OVF; // Event counter overflow set bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3_OVF; // Event counter overflow set bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT_OVF; // PMCCNTR overflow set bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0_OVF : 1; // Event counter overflow set bit for PMEVCNTR0 + uint32_t EVENT_CNT_1_OVF : 1; // Event counter overflow set bit for PMEVCNTR1 + uint32_t EVENT_CNT_2_OVF : 1; // Event counter overflow set bit for PMEVCNTR2 + uint32_t EVENT_CNT_3_OVF : 1; // Event counter overflow set bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT_OVF : 1; // PMCCNTR overflow set bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmovsset_r() : + EVENT_CNT_0_OVF(static_cast(0)), EVENT_CNT_1_OVF(static_cast(0)), + EVENT_CNT_2_OVF(static_cast(0)), EVENT_CNT_3_OVF(static_cast(0)), + CYCLE_CNT_OVF(static_cast(0)) + { + } + CONSTEXPR pmovsset_r(uint32_t value) : + EVENT_CNT_0_OVF(value >> 0), EVENT_CNT_1_OVF(value >> 1), EVENT_CNT_2_OVF(value >> 2), + EVENT_CNT_3_OVF(value >> 3), CYCLE_CNT_OVF(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0_OVF = value >> 0; + EVENT_CNT_1_OVF = value >> 1; + EVENT_CNT_2_OVF = value >> 2; + EVENT_CNT_3_OVF = value >> 3; + CYCLE_CNT_OVF = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0_OVF << 0) | (EVENT_CNT_1_OVF << 1) | (EVENT_CNT_2_OVF << 2) | (EVENT_CNT_3_OVF << 3) | + (CYCLE_CNT_OVF << 31); + } + pmovsset_r copy() + { + return *this; + } +#else + CONSTEXPR pmovsset_r() : + EVENT_CNT_0_OVF(static_cast(0)), EVENT_CNT_1_OVF(static_cast(0)), + EVENT_CNT_2_OVF(static_cast(0)), EVENT_CNT_3_OVF(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT_OVF(static_cast(0)) + { + } + CONSTEXPR pmovsset_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmovsset_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_0_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0_OVF); + return value; + } +#endif + CONSTEXPR pmovsset_r &set_EVENT_CNT_0_OVF(uint32_t value) + { + EVENT_CNT_0_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_1_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1_OVF); + return value; + } +#endif + CONSTEXPR pmovsset_r &set_EVENT_CNT_1_OVF(uint32_t value) + { + EVENT_CNT_1_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_2_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2_OVF); + return value; + } +#endif + CONSTEXPR pmovsset_r &set_EVENT_CNT_2_OVF(uint32_t value) + { + EVENT_CNT_2_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_3_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3_OVF); + return value; + } +#endif + CONSTEXPR pmovsset_r &set_EVENT_CNT_3_OVF(uint32_t value) + { + EVENT_CNT_3_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT_OVF() const + { + uint32_t value = static_cast(CYCLE_CNT_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_OVF() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_OVF); + return value; + } +#endif + CONSTEXPR pmovsset_r &set_CYCLE_CNT_OVF(uint32_t value) + { + CYCLE_CNT_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmovsclr_r - Overflow flag status clear register +struct pmovsclr_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0_OVF; // Event counter overflow clear bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1_OVF; // Event counter overflow clear bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2_OVF; // Event counter overflow clear bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3_OVF; // Event counter overflow clear bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT_OVF; // PMCCNTR overflow clear bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0_OVF : 1; // Event counter overflow clear bit for PMEVCNTR0 + uint32_t EVENT_CNT_1_OVF : 1; // Event counter overflow clear bit for PMEVCNTR1 + uint32_t EVENT_CNT_2_OVF : 1; // Event counter overflow clear bit for PMEVCNTR2 + uint32_t EVENT_CNT_3_OVF : 1; // Event counter overflow clear bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT_OVF : 1; // PMCCNTR overflow clear bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmovsclr_r() : + EVENT_CNT_0_OVF(static_cast(0)), EVENT_CNT_1_OVF(static_cast(0)), + EVENT_CNT_2_OVF(static_cast(0)), EVENT_CNT_3_OVF(static_cast(0)), + CYCLE_CNT_OVF(static_cast(0)) + { + } + CONSTEXPR pmovsclr_r(uint32_t value) : + EVENT_CNT_0_OVF(value >> 0), EVENT_CNT_1_OVF(value >> 1), EVENT_CNT_2_OVF(value >> 2), + EVENT_CNT_3_OVF(value >> 3), CYCLE_CNT_OVF(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0_OVF = value >> 0; + EVENT_CNT_1_OVF = value >> 1; + EVENT_CNT_2_OVF = value >> 2; + EVENT_CNT_3_OVF = value >> 3; + CYCLE_CNT_OVF = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0_OVF << 0) | (EVENT_CNT_1_OVF << 1) | (EVENT_CNT_2_OVF << 2) | (EVENT_CNT_3_OVF << 3) | + (CYCLE_CNT_OVF << 31); + } + pmovsclr_r copy() + { + return *this; + } +#else + CONSTEXPR pmovsclr_r() : + EVENT_CNT_0_OVF(static_cast(0)), EVENT_CNT_1_OVF(static_cast(0)), + EVENT_CNT_2_OVF(static_cast(0)), EVENT_CNT_3_OVF(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT_OVF(static_cast(0)) + { + } + CONSTEXPR pmovsclr_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmovsclr_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_0_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0_OVF); + return value; + } +#endif + CONSTEXPR pmovsclr_r &set_EVENT_CNT_0_OVF(uint32_t value) + { + EVENT_CNT_0_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_1_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1_OVF); + return value; + } +#endif + CONSTEXPR pmovsclr_r &set_EVENT_CNT_1_OVF(uint32_t value) + { + EVENT_CNT_1_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_2_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2_OVF); + return value; + } +#endif + CONSTEXPR pmovsclr_r &set_EVENT_CNT_2_OVF(uint32_t value) + { + EVENT_CNT_2_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3_OVF() const + { + uint32_t value = static_cast(EVENT_CNT_3_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3_OVF() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3_OVF); + return value; + } +#endif + CONSTEXPR pmovsclr_r &set_EVENT_CNT_3_OVF(uint32_t value) + { + EVENT_CNT_3_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT_OVF() const + { + uint32_t value = static_cast(CYCLE_CNT_OVF); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_OVF() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_OVF); + return value; + } +#endif + CONSTEXPR pmovsclr_r &set_CYCLE_CNT_OVF(uint32_t value) + { + CYCLE_CNT_OVF = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmintset_r - Interrupt enable set register +struct pmintset_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0_INT; // Event counter overflow interrupt request enable bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1_INT; // Event counter overflow interrupt request enable bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2_INT; // Event counter overflow interrupt request enable bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3_INT; // Event counter overflow interrupt request enable bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT_INT; // PMCCNTR overflow interrupt request enable bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0_INT : 1; // Event counter overflow interrupt request enable bit for PMEVCNTR0 + uint32_t EVENT_CNT_1_INT : 1; // Event counter overflow interrupt request enable bit for PMEVCNTR1 + uint32_t EVENT_CNT_2_INT : 1; // Event counter overflow interrupt request enable bit for PMEVCNTR2 + uint32_t EVENT_CNT_3_INT : 1; // Event counter overflow interrupt request enable bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT_INT : 1; // PMCCNTR overflow interrupt request enable bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmintset_r() : + EVENT_CNT_0_INT(static_cast(0)), EVENT_CNT_1_INT(static_cast(0)), + EVENT_CNT_2_INT(static_cast(0)), EVENT_CNT_3_INT(static_cast(0)), + CYCLE_CNT_INT(static_cast(0)) + { + } + CONSTEXPR pmintset_r(uint32_t value) : + EVENT_CNT_0_INT(value >> 0), EVENT_CNT_1_INT(value >> 1), EVENT_CNT_2_INT(value >> 2), + EVENT_CNT_3_INT(value >> 3), CYCLE_CNT_INT(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0_INT = value >> 0; + EVENT_CNT_1_INT = value >> 1; + EVENT_CNT_2_INT = value >> 2; + EVENT_CNT_3_INT = value >> 3; + CYCLE_CNT_INT = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0_INT << 0) | (EVENT_CNT_1_INT << 1) | (EVENT_CNT_2_INT << 2) | (EVENT_CNT_3_INT << 3) | + (CYCLE_CNT_INT << 31); + } + pmintset_r copy() + { + return *this; + } +#else + CONSTEXPR pmintset_r() : + EVENT_CNT_0_INT(static_cast(0)), EVENT_CNT_1_INT(static_cast(0)), + EVENT_CNT_2_INT(static_cast(0)), EVENT_CNT_3_INT(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT_INT(static_cast(0)) + { + } + CONSTEXPR pmintset_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmintset_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0_INT() const + { + uint32_t value = static_cast(EVENT_CNT_0_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0_INT); + return value; + } +#endif + CONSTEXPR pmintset_r &set_EVENT_CNT_0_INT(uint32_t value) + { + EVENT_CNT_0_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1_INT() const + { + uint32_t value = static_cast(EVENT_CNT_1_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1_INT); + return value; + } +#endif + CONSTEXPR pmintset_r &set_EVENT_CNT_1_INT(uint32_t value) + { + EVENT_CNT_1_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2_INT() const + { + uint32_t value = static_cast(EVENT_CNT_2_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2_INT); + return value; + } +#endif + CONSTEXPR pmintset_r &set_EVENT_CNT_2_INT(uint32_t value) + { + EVENT_CNT_2_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3_INT() const + { + uint32_t value = static_cast(EVENT_CNT_3_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3_INT); + return value; + } +#endif + CONSTEXPR pmintset_r &set_EVENT_CNT_3_INT(uint32_t value) + { + EVENT_CNT_3_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT_INT() const + { + uint32_t value = static_cast(CYCLE_CNT_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_INT() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_INT); + return value; + } +#endif + CONSTEXPR pmintset_r &set_CYCLE_CNT_INT(uint32_t value) + { + CYCLE_CNT_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmintclr_r - Interrupt enable clear register +struct pmintclr_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<1> EVENT_CNT_0_INT; // Event counter overflow interrupt request disable bit for PMEVCNTR0 + ::core::dt::uint_t<1> EVENT_CNT_1_INT; // Event counter overflow interrupt request disable bit for PMEVCNTR1 + ::core::dt::uint_t<1> EVENT_CNT_2_INT; // Event counter overflow interrupt request disable bit for PMEVCNTR2 + ::core::dt::uint_t<1> EVENT_CNT_3_INT; // Event counter overflow interrupt request disable bit for PMEVCNTR3 + ::core::dt::uint_t<1> CYCLE_CNT_INT; // PMCCNTR overflow interrupt request disable bit +#else + union + { + struct + { + uint32_t EVENT_CNT_0_INT : 1; // Event counter overflow interrupt request disable bit for PMEVCNTR0 + uint32_t EVENT_CNT_1_INT : 1; // Event counter overflow interrupt request disable bit for PMEVCNTR1 + uint32_t EVENT_CNT_2_INT : 1; // Event counter overflow interrupt request disable bit for PMEVCNTR2 + uint32_t EVENT_CNT_3_INT : 1; // Event counter overflow interrupt request disable bit for PMEVCNTR3 + uint32_t reserved0 : 27; + uint32_t CYCLE_CNT_INT : 1; // PMCCNTR overflow interrupt request disable bit + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmintclr_r() : + EVENT_CNT_0_INT(static_cast(0)), EVENT_CNT_1_INT(static_cast(0)), + EVENT_CNT_2_INT(static_cast(0)), EVENT_CNT_3_INT(static_cast(0)), + CYCLE_CNT_INT(static_cast(0)) + { + } + CONSTEXPR pmintclr_r(uint32_t value) : + EVENT_CNT_0_INT(value >> 0), EVENT_CNT_1_INT(value >> 1), EVENT_CNT_2_INT(value >> 2), + EVENT_CNT_3_INT(value >> 3), CYCLE_CNT_INT(value >> 31) + { + } + CONSTEXPR void operator=(uint32_t value) + { + EVENT_CNT_0_INT = value >> 0; + EVENT_CNT_1_INT = value >> 1; + EVENT_CNT_2_INT = value >> 2; + EVENT_CNT_3_INT = value >> 3; + CYCLE_CNT_INT = value >> 31; + } + CONSTEXPR operator uint32_t() const + { + return (EVENT_CNT_0_INT << 0) | (EVENT_CNT_1_INT << 1) | (EVENT_CNT_2_INT << 2) | (EVENT_CNT_3_INT << 3) | + (CYCLE_CNT_INT << 31); + } + pmintclr_r copy() + { + return *this; + } +#else + CONSTEXPR pmintclr_r() : + EVENT_CNT_0_INT(static_cast(0)), EVENT_CNT_1_INT(static_cast(0)), + EVENT_CNT_2_INT(static_cast(0)), EVENT_CNT_3_INT(static_cast(0)), + reserved0(static_cast(0)), CYCLE_CNT_INT(static_cast(0)) + { + } + CONSTEXPR pmintclr_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmintclr_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_EVENT_CNT_0_INT() const + { + uint32_t value = static_cast(EVENT_CNT_0_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_0_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_0_INT); + return value; + } +#endif + CONSTEXPR pmintclr_r &set_EVENT_CNT_0_INT(uint32_t value) + { + EVENT_CNT_0_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_1_INT() const + { + uint32_t value = static_cast(EVENT_CNT_1_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_1_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_1_INT); + return value; + } +#endif + CONSTEXPR pmintclr_r &set_EVENT_CNT_1_INT(uint32_t value) + { + EVENT_CNT_1_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_2_INT() const + { + uint32_t value = static_cast(EVENT_CNT_2_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_2_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_2_INT); + return value; + } +#endif + CONSTEXPR pmintclr_r &set_EVENT_CNT_2_INT(uint32_t value) + { + EVENT_CNT_2_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_EVENT_CNT_3_INT() const + { + uint32_t value = static_cast(EVENT_CNT_3_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_EVENT_CNT_3_INT() const volatile + { + uint32_t value = static_cast(EVENT_CNT_3_INT); + return value; + } +#endif + CONSTEXPR pmintclr_r &set_EVENT_CNT_3_INT(uint32_t value) + { + EVENT_CNT_3_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT_INT() const + { + uint32_t value = static_cast(CYCLE_CNT_INT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_INT() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_INT); + return value; + } +#endif + CONSTEXPR pmintclr_r &set_CYCLE_CNT_INT(uint32_t value) + { + CYCLE_CNT_INT = ((1u << 1) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmccntr_lo_r - Performance monitor cycle count low register +struct pmccntr_lo_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<32> CYCLE_CNT_LO; // Cycle count low +#else + union + { + uint32_t CYCLE_CNT_LO; // Cycle count low + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmccntr_lo_r() : CYCLE_CNT_LO(static_cast(0)) {} + CONSTEXPR pmccntr_lo_r(uint32_t value) : CYCLE_CNT_LO(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CYCLE_CNT_LO = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CYCLE_CNT_LO << 0); + } + pmccntr_lo_r copy() + { + return *this; + } +#else + CONSTEXPR pmccntr_lo_r() : CYCLE_CNT_LO(static_cast(0)) {} + CONSTEXPR pmccntr_lo_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmccntr_lo_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CYCLE_CNT_LO() const + { + uint32_t value = static_cast(CYCLE_CNT_LO); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_LO() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_LO); + return value; + } +#endif + CONSTEXPR pmccntr_lo_r &set_CYCLE_CNT_LO(uint32_t value) + { + CYCLE_CNT_LO = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmccntr_hi_r - Performance monitor cycle count high register +struct pmccntr_hi_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<16> CYCLE_CNT_HI; // Cycle count high +#else + union + { + struct + { + uint32_t CYCLE_CNT_HI : 16; // Cycle count high + uint32_t reserved0 : 16; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmccntr_hi_r() : CYCLE_CNT_HI(static_cast(0)) {} + CONSTEXPR pmccntr_hi_r(uint32_t value) : CYCLE_CNT_HI(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + CYCLE_CNT_HI = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (CYCLE_CNT_HI << 0); + } + pmccntr_hi_r copy() + { + return *this; + } +#else + CONSTEXPR pmccntr_hi_r() : CYCLE_CNT_HI(static_cast(0)), reserved0(static_cast(0)) {} + CONSTEXPR pmccntr_hi_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmccntr_hi_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CYCLE_CNT_HI() const + { + uint32_t value = static_cast(CYCLE_CNT_HI); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_HI() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_HI); + return value; + } +#endif + CONSTEXPR pmccntr_hi_r &set_CYCLE_CNT_HI(uint32_t value) + { + CYCLE_CNT_HI = ((1u << 16) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmccntr_cfg_r - Set start/stop event on the cycle counter +struct pmccntr_cfg_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<10> CYCLE_CNT_CFG_START; // Cycle counter start event + ::core::dt::uint_t<10> CYCLE_CNT_CFG_STOP; // Cycle counter stop event +#else + union + { + struct + { + uint32_t CYCLE_CNT_CFG_START : 10; // Cycle counter start event + uint32_t reserved0 : 6; + uint32_t CYCLE_CNT_CFG_STOP : 10; // Cycle counter stop event + uint32_t reserved1 : 6; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmccntr_cfg_r() : + CYCLE_CNT_CFG_START(static_cast(0)), CYCLE_CNT_CFG_STOP(static_cast(0)) + { + } + CONSTEXPR pmccntr_cfg_r(uint32_t value) : CYCLE_CNT_CFG_START(value >> 0), CYCLE_CNT_CFG_STOP(value >> 16) {} + CONSTEXPR void operator=(uint32_t value) + { + CYCLE_CNT_CFG_START = value >> 0; + CYCLE_CNT_CFG_STOP = value >> 16; + } + CONSTEXPR operator uint32_t() const + { + return (CYCLE_CNT_CFG_START << 0) | (CYCLE_CNT_CFG_STOP << 16); + } + pmccntr_cfg_r copy() + { + return *this; + } +#else + CONSTEXPR pmccntr_cfg_r() : + CYCLE_CNT_CFG_START(static_cast(0)), reserved0(static_cast(0)), + CYCLE_CNT_CFG_STOP(static_cast(0)), reserved1(static_cast(0)) + { + } + CONSTEXPR pmccntr_cfg_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmccntr_cfg_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_CYCLE_CNT_CFG_START() const + { + uint32_t value = static_cast(CYCLE_CNT_CFG_START); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_CFG_START() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_CFG_START); + return value; + } +#endif + CONSTEXPR pmccntr_cfg_r &set_CYCLE_CNT_CFG_START(uint32_t value) + { + CYCLE_CNT_CFG_START = ((1u << 10) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_CYCLE_CNT_CFG_STOP() const + { + uint32_t value = static_cast(CYCLE_CNT_CFG_STOP); + return value; + } +#ifndef MODEL_REGS + uint32_t get_CYCLE_CNT_CFG_STOP() const volatile + { + uint32_t value = static_cast(CYCLE_CNT_CFG_STOP); + return value; + } +#endif + CONSTEXPR pmccntr_cfg_r &set_CYCLE_CNT_CFG_STOP(uint32_t value) + { + CYCLE_CNT_CFG_STOP = ((1u << 10) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmcaxi_chan_r - Set which AXI channel to monitor in PMU +struct pmcaxi_chan_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<4> AXI_CHAN; // Channel number to monitor (Read: 0=Cmd 1=IFM 2=Weights 3=Scale+Bias 4=Mem2Mem; + // Write: 8=OFM 9=Mem2Mem) + ::core::dt::uint_t<1> RW; // 0 for read, 1 for write + ::core::dt::uint_t<2> + AXI_CNT; // AXI counter to monitor (0=AXI0 counter0, 1=AXI0 counter1, 2=AXI1 counter 2, 3=AXI counter3) +#else + union + { + struct + { + uint32_t AXI_CHAN : 4; // Channel number to monitor (Read: 0=Cmd 1=IFM 2=Weights 3=Scale+Bias 4=Mem2Mem; + // Write: 8=OFM 9=Mem2Mem) + uint32_t reserved0 : 3; + uint32_t RW : 1; // 0 for read, 1 for write + uint32_t AXI_CNT : 2; // AXI counter to monitor (0=AXI0 counter0, 1=AXI0 counter1, 2=AXI1 counter 2, 3=AXI + // counter3) + uint32_t reserved1 : 22; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmcaxi_chan_r() : + AXI_CHAN(static_cast(0)), RW(static_cast(0)), AXI_CNT(static_cast(0)) + { + } + CONSTEXPR pmcaxi_chan_r(uint32_t value) : AXI_CHAN(value >> 0), RW(value >> 7), AXI_CNT(value >> 8) {} + CONSTEXPR void operator=(uint32_t value) + { + AXI_CHAN = value >> 0; + RW = value >> 7; + AXI_CNT = value >> 8; + } + CONSTEXPR operator uint32_t() const + { + return (AXI_CHAN << 0) | (RW << 7) | (AXI_CNT << 8); + } + pmcaxi_chan_r copy() + { + return *this; + } +#else + CONSTEXPR pmcaxi_chan_r() : + AXI_CHAN(static_cast(0)), reserved0(static_cast(0)), RW(static_cast(0)), + AXI_CNT(static_cast(0)), reserved1(static_cast(0)) + { + } + CONSTEXPR pmcaxi_chan_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmcaxi_chan_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR uint32_t get_AXI_CHAN() const + { + uint32_t value = static_cast(AXI_CHAN); + return value; + } +#ifndef MODEL_REGS + uint32_t get_AXI_CHAN() const volatile + { + uint32_t value = static_cast(AXI_CHAN); + return value; + } +#endif + CONSTEXPR pmcaxi_chan_r &set_AXI_CHAN(uint32_t value) + { + AXI_CHAN = ((1u << 4) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_RW() const + { + uint32_t value = static_cast(RW); + return value; + } +#ifndef MODEL_REGS + uint32_t get_RW() const volatile + { + uint32_t value = static_cast(RW); + return value; + } +#endif + CONSTEXPR pmcaxi_chan_r &set_RW(uint32_t value) + { + RW = ((1u << 1) - 1) & static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_AXI_CNT() const + { + uint32_t value = static_cast(AXI_CNT); + return value; + } +#ifndef MODEL_REGS + uint32_t get_AXI_CNT() const volatile + { + uint32_t value = static_cast(AXI_CNT); + return value; + } +#endif + CONSTEXPR pmcaxi_chan_r &set_AXI_CNT(uint32_t value) + { + AXI_CNT = ((1u << 2) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmevtyper0_r - Performance monitor event type register 0 +struct pmevtyper0_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<10> EV_TYPE; // Event Type +#else + union + { + struct + { + uint32_t EV_TYPE : 10; // Event Type + uint32_t reserved0 : 22; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmevtyper0_r() : EV_TYPE(static_cast(0)) {} + CONSTEXPR pmevtyper0_r(uint32_t value) : EV_TYPE(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + EV_TYPE = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (EV_TYPE << 0); + } + pmevtyper0_r copy() + { + return *this; + } +#else + CONSTEXPR pmevtyper0_r() : EV_TYPE(static_cast(0)), reserved0(static_cast(0)) {} + CONSTEXPR pmevtyper0_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmevtyper0_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::pmu_event_type get_EV_TYPE() const + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#ifndef MODEL_REGS + ::pmu_event_type get_EV_TYPE() const volatile + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#endif + CONSTEXPR pmevtyper0_r &set_EV_TYPE(::pmu_event_type value) + { + EV_TYPE = ((1u << 10) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmevtyper1_r - Performance monitor event type register 1 +struct pmevtyper1_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<10> EV_TYPE; // Event Type +#else + union + { + struct + { + uint32_t EV_TYPE : 10; // Event Type + uint32_t reserved0 : 22; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmevtyper1_r() : EV_TYPE(static_cast(0)) {} + CONSTEXPR pmevtyper1_r(uint32_t value) : EV_TYPE(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + EV_TYPE = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (EV_TYPE << 0); + } + pmevtyper1_r copy() + { + return *this; + } +#else + CONSTEXPR pmevtyper1_r() : EV_TYPE(static_cast(0)), reserved0(static_cast(0)) {} + CONSTEXPR pmevtyper1_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmevtyper1_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::pmu_event_type get_EV_TYPE() const + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#ifndef MODEL_REGS + ::pmu_event_type get_EV_TYPE() const volatile + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#endif + CONSTEXPR pmevtyper1_r &set_EV_TYPE(::pmu_event_type value) + { + EV_TYPE = ((1u << 10) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmevtyper2_r - Performance monitor event type register 2 +struct pmevtyper2_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<10> EV_TYPE; // Event Type +#else + union + { + struct + { + uint32_t EV_TYPE : 10; // Event Type + uint32_t reserved0 : 22; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmevtyper2_r() : EV_TYPE(static_cast(0)) {} + CONSTEXPR pmevtyper2_r(uint32_t value) : EV_TYPE(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + EV_TYPE = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (EV_TYPE << 0); + } + pmevtyper2_r copy() + { + return *this; + } +#else + CONSTEXPR pmevtyper2_r() : EV_TYPE(static_cast(0)), reserved0(static_cast(0)) {} + CONSTEXPR pmevtyper2_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmevtyper2_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::pmu_event_type get_EV_TYPE() const + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#ifndef MODEL_REGS + ::pmu_event_type get_EV_TYPE() const volatile + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#endif + CONSTEXPR pmevtyper2_r &set_EV_TYPE(::pmu_event_type value) + { + EV_TYPE = ((1u << 10) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// pmevtyper3_r - Performance monitor event type register 3 +struct pmevtyper3_r +{ +#ifdef __cplusplus + private: +#endif //__cplusplus +#ifdef MODEL_REGS + ::core::dt::uint_t<10> EV_TYPE; // Event Type +#else + union + { + struct + { + uint32_t EV_TYPE : 10; // Event Type + uint32_t reserved0 : 22; + }; + uint32_t word; + }; +#endif +#ifdef __cplusplus + public: +#ifdef MODEL_REGS + CONSTEXPR pmevtyper3_r() : EV_TYPE(static_cast(0)) {} + CONSTEXPR pmevtyper3_r(uint32_t value) : EV_TYPE(value >> 0) {} + CONSTEXPR void operator=(uint32_t value) + { + EV_TYPE = value >> 0; + } + CONSTEXPR operator uint32_t() const + { + return (EV_TYPE << 0); + } + pmevtyper3_r copy() + { + return *this; + } +#else + CONSTEXPR pmevtyper3_r() : EV_TYPE(static_cast(0)), reserved0(static_cast(0)) {} + CONSTEXPR pmevtyper3_r(uint32_t init) : word(init) {} + CONSTEXPR void operator=(uint32_t value) + { + word = value; + } + void operator=(uint32_t value) volatile + { + word = value; + } + CONSTEXPR operator uint32_t() + { + return word; + } + operator uint32_t() volatile + { + return word; + } + pmevtyper3_r copy() volatile + { + return *this; + } +#endif + CONSTEXPR ::pmu_event_type get_EV_TYPE() const + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#ifndef MODEL_REGS + ::pmu_event_type get_EV_TYPE() const volatile + { + ::pmu_event_type value = static_cast<::pmu_event_type>(EV_TYPE); + return value; + } +#endif + CONSTEXPR pmevtyper3_r &set_EV_TYPE(::pmu_event_type value) + { + EV_TYPE = ((1u << 10) - 1) & static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +struct NPU_REG +{ + STRUCT id_r ID; // 0x0 + STRUCT status_r STATUS; // 0x4 + STRUCT cmd_r CMD; // 0x8 + STRUCT reset_r RESET; // 0xc + STRUCT qbase0_r QBASE0; // 0x10 + STRUCT qbase1_r QBASE1; // 0x14 + STRUCT qread_r QREAD; // 0x18 + STRUCT qconfig_r QCONFIG; // 0x1c + STRUCT qsize_r QSIZE; // 0x20 + STRUCT prot_r PROT; // 0x24 + STRUCT config_r CONFIG; // 0x28 + STRUCT lock_r LOCK; // 0x2c +#ifndef MODEL_REGS + uint32_t unused0[3]; +#endif + STRUCT regioncfg_r REGIONCFG; // 0x3c + STRUCT axi_limit0_r AXI_LIMIT0; // 0x40 + STRUCT axi_limit1_r AXI_LIMIT1; // 0x44 + STRUCT axi_limit2_r AXI_LIMIT2; // 0x48 + STRUCT axi_limit3_r AXI_LIMIT3; // 0x4c +#ifndef MODEL_REGS + uint32_t unused1[12]; +#endif + STRUCT basep0_r BASEP0; // 0x80 + STRUCT basep1_r BASEP1; // 0x84 + STRUCT basep2_r BASEP2; // 0x88 + STRUCT basep3_r BASEP3; // 0x8c + STRUCT basep4_r BASEP4; // 0x90 + STRUCT basep5_r BASEP5; // 0x94 + STRUCT basep6_r BASEP6; // 0x98 + STRUCT basep7_r BASEP7; // 0x9c + STRUCT basep8_r BASEP8; // 0xa0 + STRUCT basep9_r BASEP9; // 0xa4 + STRUCT basep10_r BASEP10; // 0xa8 + STRUCT basep11_r BASEP11; // 0xac + STRUCT basep12_r BASEP12; // 0xb0 + STRUCT basep13_r BASEP13; // 0xb4 + STRUCT basep14_r BASEP14; // 0xb8 + STRUCT basep15_r BASEP15; // 0xbc +#ifndef MODEL_REGS + uint32_t unused2[32]; +#endif + STRUCT clkforce_r CLKFORCE; // 0x140 + uint32_t DEBUG; // 0x144 + uint32_t DEBUG2; // 0x148 + uint32_t DEBUGCORE; // 0x14c +#ifndef MODEL_REGS + uint32_t unused3[12]; +#endif + STRUCT pmcr_r PMCR; // 0x180 + STRUCT pmcntenset_r PMCNTENSET; // 0x184 + STRUCT pmcntenclr_r PMCNTENCLR; // 0x188 + STRUCT pmovsset_r PMOVSSET; // 0x18c + STRUCT pmovsclr_r PMOVSCLR; // 0x190 + STRUCT pmintset_r PMINTSET; // 0x194 + STRUCT pmintclr_r PMINTCLR; // 0x198 +#ifndef MODEL_REGS + uint32_t unused4[1]; +#endif + STRUCT pmccntr_lo_r PMCCNTR_LO; // 0x1a0 + STRUCT pmccntr_hi_r PMCCNTR_HI; // 0x1a4 + STRUCT pmccntr_cfg_r PMCCNTR_CFG; // 0x1a8 + STRUCT pmcaxi_chan_r PMCAXI_CHAN; // 0x1ac +#ifndef MODEL_REGS + uint32_t unused5[20]; +#endif + uint32_t KERNEL_X; // 0x200 + uint32_t KERNEL_Y; // 0x204 + uint32_t KERNEL_W_M1; // 0x208 + uint32_t KERNEL_H_M1; // 0x20c + uint32_t OFM_CBLK_WIDTH_M1; // 0x210 + uint32_t OFM_CBLK_HEIGHT_M1; // 0x214 + uint32_t OFM_CBLK_DEPTH_M1; // 0x218 + uint32_t IFM_CBLK_DEPTH_M1; // 0x21c + uint32_t OFM_X; // 0x220 + uint32_t OFM_Y; // 0x224 + uint32_t OFM_Z; // 0x228 + uint32_t IFM_Z; // 0x22c + uint32_t PAD_TOP; // 0x230 + uint32_t PAD_LEFT; // 0x234 + uint32_t IFM_CBLK_WIDTH; // 0x238 + uint32_t IFM_CBLK_HEIGHT; // 0x23c + uint32_t DMA_IFM_SRC; // 0x240 + uint32_t DMA_IFM_SRC_HI; // 0x244 + uint32_t DMA_IFM_DST; // 0x248 + uint32_t DMA_OFM_SRC; // 0x24c + uint32_t DMA_OFM_DST; // 0x250 + uint32_t DMA_OFM_DST_HI; // 0x254 + uint32_t DMA_WEIGHT_SRC; // 0x258 + uint32_t DMA_WEIGHT_SRC_HI; // 0x25c + uint32_t DMA_CMD_SRC; // 0x260 + uint32_t DMA_CMD_SRC_HI; // 0x264 + uint32_t DMA_CMD_SIZE; // 0x268 + uint32_t DMA_M2M_SRC; // 0x26c + uint32_t DMA_M2M_SRC_HI; // 0x270 + uint32_t DMA_M2M_DST; // 0x274 + uint32_t DMA_M2M_DST_HI; // 0x278 + uint32_t CURRENT_QREAD; // 0x27c + uint32_t DMA_SCALE_SRC; // 0x280 + uint32_t DMA_SCALE_SRC_HI; // 0x284 +#ifndef MODEL_REGS + uint32_t unused6[13]; +#endif + uint32_t CURRENT_CMD; // 0x2bc +#ifndef MODEL_REGS + uint32_t unused7[16]; +#endif + uint32_t PMEVCNTR[4]; // 0x300 +#ifndef MODEL_REGS + uint32_t unused8[28]; +#endif + STRUCT pmevtyper0_r PMEVTYPER[4]; // 0x380 +#ifndef MODEL_REGS + uint32_t unused9[28]; +#endif + uint32_t SHARED_BUFFER[256]; // 0x400 + uint32_t IFM_PAD_TOP; // 0x800 + uint32_t IFM_PAD_LEFT; // 0x804 + uint32_t IFM_PAD_RIGHT; // 0x808 + uint32_t IFM_PAD_BOTTOM; // 0x80c + uint32_t IFM_DEPTH_M1; // 0x810 + uint32_t IFM_PRECISION; // 0x814 +#ifndef MODEL_REGS + uint32_t unused10[1]; +#endif + uint32_t IFM_UPSCALE; // 0x81c +#ifndef MODEL_REGS + uint32_t unused11[1]; +#endif + uint32_t IFM_ZERO_POINT; // 0x824 + uint32_t IFM_WIDTH0_M1; // 0x828 + uint32_t IFM_HEIGHT0_M1; // 0x82c + uint32_t IFM_HEIGHT1_M1; // 0x830 + uint32_t IFM_IB_END; // 0x834 +#ifndef MODEL_REGS + uint32_t unused12[1]; +#endif + uint32_t IFM_REGION; // 0x83c +#ifndef MODEL_REGS + uint32_t unused13[1]; +#endif + uint32_t OFM_WIDTH_M1; // 0x844 + uint32_t OFM_HEIGHT_M1; // 0x848 + uint32_t OFM_DEPTH_M1; // 0x84c + uint32_t OFM_PRECISION; // 0x850 + uint32_t OFM_BLK_WIDTH_M1; // 0x854 + uint32_t OFM_BLK_HEIGHT_M1; // 0x858 + uint32_t OFM_BLK_DEPTH_M1; // 0x85c + uint32_t OFM_ZERO_POINT; // 0x860 +#ifndef MODEL_REGS + uint32_t unused14[1]; +#endif + uint32_t OFM_WIDTH0_M1; // 0x868 + uint32_t OFM_HEIGHT0_M1; // 0x86c + uint32_t OFM_HEIGHT1_M1; // 0x870 +#ifndef MODEL_REGS + uint32_t unused15[2]; +#endif + uint32_t OFM_REGION; // 0x87c + uint32_t KERNEL_WIDTH_M1; // 0x880 + uint32_t KERNEL_HEIGHT_M1; // 0x884 + uint32_t KERNEL_STRIDE; // 0x888 + uint32_t PARALLEL_MODE; // 0x88c + uint32_t ACC_FORMAT; // 0x890 + uint32_t ACTIVATION; // 0x894 + uint32_t ACTIVATION_MIN; // 0x898 + uint32_t ACTIVATION_MAX; // 0x89c + uint32_t WEIGHT_REGION; // 0x8a0 + uint32_t SCALE_REGION; // 0x8a4 +#ifndef MODEL_REGS + uint32_t unused16[3]; +#endif + uint32_t AB_START; // 0x8b4 +#ifndef MODEL_REGS + uint32_t unused17[1]; +#endif + uint32_t BLOCKDEP; // 0x8bc + uint32_t DMA0_SRC_REGION; // 0x8c0 + uint32_t DMA0_DST_REGION; // 0x8c4 + uint32_t DMA0_SIZE0; // 0x8c8 + uint32_t DMA0_SIZE1; // 0x8cc +#ifndef MODEL_REGS + uint32_t unused18[12]; +#endif + uint32_t IFM2_BROADCAST; // 0x900 + uint32_t IFM2_SCALAR; // 0x904 +#ifndef MODEL_REGS + uint32_t unused19[3]; +#endif + uint32_t IFM2_PRECISION; // 0x914 +#ifndef MODEL_REGS + uint32_t unused20[3]; +#endif + uint32_t IFM2_ZERO_POINT; // 0x924 + uint32_t IFM2_WIDTH0_M1; // 0x928 + uint32_t IFM2_HEIGHT0_M1; // 0x92c + uint32_t IFM2_HEIGHT1_M1; // 0x930 + uint32_t IFM2_IB_START; // 0x934 +#ifndef MODEL_REGS + uint32_t unused21[1]; +#endif + uint32_t IFM2_REGION; // 0x93c +#ifndef MODEL_REGS + uint32_t unused22[48]; +#endif + uint32_t IFM_BASE0; // 0xa00 + uint32_t IFM_BASE0_HI; // 0xa04 + uint32_t IFM_BASE1; // 0xa08 + uint32_t IFM_BASE1_HI; // 0xa0c + uint32_t IFM_BASE2; // 0xa10 + uint32_t IFM_BASE2_HI; // 0xa14 + uint32_t IFM_BASE3; // 0xa18 + uint32_t IFM_BASE3_HI; // 0xa1c + uint32_t IFM_STRIDE_X; // 0xa20 + uint32_t IFM_STRIDE_X_HI; // 0xa24 + uint32_t IFM_STRIDE_Y; // 0xa28 + uint32_t IFM_STRIDE_Y_HI; // 0xa2c + uint32_t IFM_STRIDE_C; // 0xa30 + uint32_t IFM_STRIDE_C_HI; // 0xa34 +#ifndef MODEL_REGS + uint32_t unused23[2]; +#endif + uint32_t OFM_BASE0; // 0xa40 + uint32_t OFM_BASE0_HI; // 0xa44 + uint32_t OFM_BASE1; // 0xa48 + uint32_t OFM_BASE1_HI; // 0xa4c + uint32_t OFM_BASE2; // 0xa50 + uint32_t OFM_BASE2_HI; // 0xa54 + uint32_t OFM_BASE3; // 0xa58 + uint32_t OFM_BASE3_HI; // 0xa5c + uint32_t OFM_STRIDE_X; // 0xa60 + uint32_t OFM_STRIDE_X_HI; // 0xa64 + uint32_t OFM_STRIDE_Y; // 0xa68 + uint32_t OFM_STRIDE_Y_HI; // 0xa6c + uint32_t OFM_STRIDE_C; // 0xa70 + uint32_t OFM_STRIDE_C_HI; // 0xa74 +#ifndef MODEL_REGS + uint32_t unused24[2]; +#endif + uint32_t WEIGHT_BASE; // 0xa80 + uint32_t WEIGHT_BASE_HI; // 0xa84 + uint32_t WEIGHT_LENGTH; // 0xa88 + uint32_t WEIGHT_LENGTH_HI; // 0xa8c + uint32_t SCALE_BASE; // 0xa90 + uint32_t SCALE_BASE_HI; // 0xa94 + uint32_t SCALE_LENGTH; // 0xa98 +#ifndef MODEL_REGS + uint32_t unused25[1]; +#endif + uint32_t OFM_SCALE; // 0xaa0 + uint32_t OFM_SCALE_SHIFT; // 0xaa4 + uint32_t OPA_SCALE; // 0xaa8 + uint32_t OPA_SCALE_SHIFT; // 0xaac + uint32_t OPB_SCALE; // 0xab0 +#ifndef MODEL_REGS + uint32_t unused26[3]; +#endif + uint32_t DMA0_SRC; // 0xac0 + uint32_t DMA0_SRC_HI; // 0xac4 + uint32_t DMA0_DST; // 0xac8 + uint32_t DMA0_DST_HI; // 0xacc + uint32_t DMA0_LEN; // 0xad0 + uint32_t DMA0_LEN_HI; // 0xad4 + uint32_t DMA0_SKIP0; // 0xad8 + uint32_t DMA0_SKIP0_HI; // 0xadc + uint32_t DMA0_SKIP1; // 0xae0 + uint32_t DMA0_SKIP1_HI; // 0xae4 +#ifndef MODEL_REGS + uint32_t unused27[6]; +#endif + uint32_t IFM2_BASE0; // 0xb00 + uint32_t IFM2_BASE0_HI; // 0xb04 + uint32_t IFM2_BASE1; // 0xb08 + uint32_t IFM2_BASE1_HI; // 0xb0c + uint32_t IFM2_BASE2; // 0xb10 + uint32_t IFM2_BASE2_HI; // 0xb14 + uint32_t IFM2_BASE3; // 0xb18 + uint32_t IFM2_BASE3_HI; // 0xb1c + uint32_t IFM2_STRIDE_X; // 0xb20 + uint32_t IFM2_STRIDE_X_HI; // 0xb24 + uint32_t IFM2_STRIDE_Y; // 0xb28 + uint32_t IFM2_STRIDE_Y_HI; // 0xb2c + uint32_t IFM2_STRIDE_C; // 0xb30 + uint32_t IFM2_STRIDE_C_HI; // 0xb34 +#ifndef MODEL_REGS + uint32_t unused28[2]; +#endif + uint32_t WEIGHT1_BASE; // 0xb40 + uint32_t WEIGHT1_BASE_HI; // 0xb44 + uint32_t WEIGHT1_LENGTH; // 0xb48 + uint32_t WEIGHT1_LENGTH_HI; // 0xb4c + uint32_t SCALE1_BASE; // 0xb50 + uint32_t SCALE1_BASE_HI; // 0xb54 + uint32_t SCALE1_LENGTH; // 0xb58 +#ifndef MODEL_REGS + uint32_t unused29[281]; +#endif + uint32_t REVISION; // 0xfc0 +#ifndef MODEL_REGS + uint32_t unused30[3]; +#endif + STRUCT pid4_r PID4; // 0xfd0 + STRUCT pid5_r PID5; // 0xfd4 + STRUCT pid6_r PID6; // 0xfd8 + STRUCT pid7_r PID7; // 0xfdc + STRUCT pid0_r PID0; // 0xfe0 + STRUCT pid1_r PID1; // 0xfe4 + STRUCT pid2_r PID2; // 0xfe8 + STRUCT pid3_r PID3; // 0xfec + STRUCT cid0_r CID0; // 0xff0 + STRUCT cid1_r CID1; // 0xff4 + STRUCT cid2_r CID2; // 0xff8 + STRUCT cid3_r CID3; // 0xffc +#ifdef __cplusplus + NPU_REG() + { + reset(); + } + void reset() + { + ID = 161480704; + STATUS = 8; + CMD = 0; + RESET = 0; + QBASE0 = 0; + QBASE1 = 0; + QREAD = 0; + QCONFIG = 0; + QSIZE = 0; + PROT = 0; + CONFIG = 0; + LOCK = 0; + REGIONCFG = 0; + AXI_LIMIT0 = 0; + AXI_LIMIT1 = 0; + AXI_LIMIT2 = 0; + AXI_LIMIT3 = 0; + BASEP0 = 0; + BASEP1 = 0; + BASEP2 = 0; + BASEP3 = 0; + BASEP4 = 0; + BASEP5 = 0; + BASEP6 = 0; + BASEP7 = 0; + BASEP8 = 0; + BASEP9 = 0; + BASEP10 = 0; + BASEP11 = 0; + BASEP12 = 0; + BASEP13 = 0; + BASEP14 = 0; + BASEP15 = 0; + REVISION = 0; + PID4 = 4; + PID5 = 0; + PID6 = 0; + PID7 = 0; + PID0 = 128; + PID1 = 181; + PID2 = 11; + PID3 = 0; + CID0 = 13; + CID1 = 240; + CID2 = 5; + CID3 = 177; + CLKFORCE = 0; + DEBUG = 0; + DEBUG2 = 0; + DEBUGCORE = 0; + KERNEL_X = 0; + KERNEL_Y = 0; + KERNEL_W_M1 = 0; + KERNEL_H_M1 = 0; + OFM_CBLK_WIDTH_M1 = 0; + OFM_CBLK_HEIGHT_M1 = 0; + OFM_CBLK_DEPTH_M1 = 0; + IFM_CBLK_DEPTH_M1 = 0; + OFM_X = 0; + OFM_Y = 0; + OFM_Z = 0; + IFM_Z = 0; + PAD_TOP = 0; + PAD_LEFT = 0; + IFM_CBLK_WIDTH = 0; + IFM_CBLK_HEIGHT = 0; + DMA_IFM_SRC = 0; + DMA_IFM_SRC_HI = 0; + DMA_IFM_DST = 0; + DMA_OFM_SRC = 0; + DMA_OFM_DST = 0; + DMA_OFM_DST_HI = 0; + DMA_WEIGHT_SRC = 0; + DMA_WEIGHT_SRC_HI = 0; + DMA_CMD_SRC = 0; + DMA_CMD_SRC_HI = 0; + DMA_CMD_SIZE = 0; + DMA_M2M_SRC = 0; + DMA_M2M_SRC_HI = 0; + DMA_M2M_DST = 0; + DMA_M2M_DST_HI = 0; + CURRENT_QREAD = 0; + DMA_SCALE_SRC = 0; + DMA_SCALE_SRC_HI = 0; + CURRENT_CMD = 0; + IFM_PAD_TOP = 0; + IFM_PAD_LEFT = 0; + IFM_PAD_RIGHT = 0; + IFM_PAD_BOTTOM = 0; + IFM_DEPTH_M1 = 0; + IFM_PRECISION = 0; + IFM_UPSCALE = 0; + IFM_ZERO_POINT = 0; + IFM_WIDTH0_M1 = 0; + IFM_HEIGHT0_M1 = 0; + IFM_HEIGHT1_M1 = 0; + IFM_IB_END = 0; + IFM_REGION = 0; + OFM_WIDTH_M1 = 0; + OFM_HEIGHT_M1 = 0; + OFM_DEPTH_M1 = 0; + OFM_PRECISION = 0; + OFM_BLK_WIDTH_M1 = 0; + OFM_BLK_HEIGHT_M1 = 0; + OFM_BLK_DEPTH_M1 = 0; + OFM_ZERO_POINT = 0; + OFM_WIDTH0_M1 = 0; + OFM_HEIGHT0_M1 = 0; + OFM_HEIGHT1_M1 = 0; + OFM_REGION = 0; + KERNEL_WIDTH_M1 = 0; + KERNEL_HEIGHT_M1 = 0; + KERNEL_STRIDE = 0; + PARALLEL_MODE = 0; + ACC_FORMAT = 0; + ACTIVATION = 0; + ACTIVATION_MIN = 0; + ACTIVATION_MAX = 0; + WEIGHT_REGION = 0; + SCALE_REGION = 0; + AB_START = 0; + BLOCKDEP = 0; + DMA0_SRC_REGION = 0; + DMA0_DST_REGION = 0; + DMA0_SIZE0 = 0; + DMA0_SIZE1 = 0; + IFM2_BROADCAST = 0; + IFM2_SCALAR = 0; + IFM2_PRECISION = 0; + IFM2_ZERO_POINT = 0; + IFM2_WIDTH0_M1 = 0; + IFM2_HEIGHT0_M1 = 0; + IFM2_HEIGHT1_M1 = 0; + IFM2_IB_START = 0; + IFM2_REGION = 0; + IFM_BASE0 = 0; + IFM_BASE0_HI = 0; + IFM_BASE1 = 0; + IFM_BASE1_HI = 0; + IFM_BASE2 = 0; + IFM_BASE2_HI = 0; + IFM_BASE3 = 0; + IFM_BASE3_HI = 0; + IFM_STRIDE_X = 0; + IFM_STRIDE_X_HI = 0; + IFM_STRIDE_Y = 0; + IFM_STRIDE_Y_HI = 0; + IFM_STRIDE_C = 0; + IFM_STRIDE_C_HI = 0; + OFM_BASE0 = 0; + OFM_BASE0_HI = 0; + OFM_BASE1 = 0; + OFM_BASE1_HI = 0; + OFM_BASE2 = 0; + OFM_BASE2_HI = 0; + OFM_BASE3 = 0; + OFM_BASE3_HI = 0; + OFM_STRIDE_X = 0; + OFM_STRIDE_X_HI = 0; + OFM_STRIDE_Y = 0; + OFM_STRIDE_Y_HI = 0; + OFM_STRIDE_C = 0; + OFM_STRIDE_C_HI = 0; + WEIGHT_BASE = 0; + WEIGHT_BASE_HI = 0; + WEIGHT_LENGTH = 0; + WEIGHT_LENGTH_HI = 0; + SCALE_BASE = 0; + SCALE_BASE_HI = 0; + SCALE_LENGTH = 0; + OFM_SCALE = 0; + OFM_SCALE_SHIFT = 0; + OPA_SCALE = 0; + OPA_SCALE_SHIFT = 0; + OPB_SCALE = 0; + DMA0_SRC = 0; + DMA0_SRC_HI = 0; + DMA0_DST = 0; + DMA0_DST_HI = 0; + DMA0_LEN = 0; + DMA0_LEN_HI = 0; + DMA0_SKIP0 = 0; + DMA0_SKIP0_HI = 0; + DMA0_SKIP1 = 0; + DMA0_SKIP1_HI = 0; + IFM2_BASE0 = 0; + IFM2_BASE0_HI = 0; + IFM2_BASE1 = 0; + IFM2_BASE1_HI = 0; + IFM2_BASE2 = 0; + IFM2_BASE2_HI = 0; + IFM2_BASE3 = 0; + IFM2_BASE3_HI = 0; + IFM2_STRIDE_X = 0; + IFM2_STRIDE_X_HI = 0; + IFM2_STRIDE_Y = 0; + IFM2_STRIDE_Y_HI = 0; + IFM2_STRIDE_C = 0; + IFM2_STRIDE_C_HI = 0; + WEIGHT1_BASE = 0; + WEIGHT1_BASE_HI = 0; + WEIGHT1_LENGTH = 0; + WEIGHT1_LENGTH_HI = 0; + SCALE1_BASE = 0; + SCALE1_BASE_HI = 0; + SCALE1_LENGTH = 0; + PMCR = 8192; + PMCNTENSET = 0; + PMCNTENCLR = 0; + PMOVSSET = 0; + PMOVSCLR = 0; + PMINTSET = 0; + PMINTCLR = 0; + PMCCNTR_LO = 0; + PMCCNTR_HI = 0; + PMCCNTR_CFG = 0; + PMCAXI_CHAN = 0; + for (size_t i = 0; i < (sizeof(PMEVCNTR) / sizeof(PMEVCNTR[0])); ++i) + PMEVCNTR[i] = 0; + for (size_t i = 0; i < (sizeof(PMEVTYPER) / sizeof(PMEVTYPER[0])); ++i) + PMEVTYPER[i] = 0; + for (size_t i = 0; i < (sizeof(SHARED_BUFFER) / sizeof(SHARED_BUFFER[0])); ++i) + SHARED_BUFFER[i] = 0; + } +#ifdef MODEL_REGS + uint32_t get(size_t offset) const + { + switch (offset) + { + case 0: + return ID; + case 4: + return STATUS; + case 8: + return CMD; + case 12: + return RESET; + case 16: + return QBASE0; + case 20: + return QBASE1; + case 24: + return QREAD; + case 28: + return QCONFIG; + case 32: + return QSIZE; + case 36: + return PROT; + case 40: + return CONFIG; + case 44: + return LOCK; + case 60: + return REGIONCFG; + case 64: + return AXI_LIMIT0; + case 68: + return AXI_LIMIT1; + case 72: + return AXI_LIMIT2; + case 76: + return AXI_LIMIT3; + case 128: + return BASEP0; + case 132: + return BASEP1; + case 136: + return BASEP2; + case 140: + return BASEP3; + case 144: + return BASEP4; + case 148: + return BASEP5; + case 152: + return BASEP6; + case 156: + return BASEP7; + case 160: + return BASEP8; + case 164: + return BASEP9; + case 168: + return BASEP10; + case 172: + return BASEP11; + case 176: + return BASEP12; + case 180: + return BASEP13; + case 184: + return BASEP14; + case 188: + return BASEP15; + case 4032: + return REVISION; + case 4048: + return PID4; + case 4052: + return PID5; + case 4056: + return PID6; + case 4060: + return PID7; + case 4064: + return PID0; + case 4068: + return PID1; + case 4072: + return PID2; + case 4076: + return PID3; + case 4080: + return CID0; + case 4084: + return CID1; + case 4088: + return CID2; + case 4092: + return CID3; + case 320: + return CLKFORCE; + case 324: + return DEBUG; + case 328: + return DEBUG2; + case 332: + return DEBUGCORE; + case 512: + return KERNEL_X; + case 516: + return KERNEL_Y; + case 520: + return KERNEL_W_M1; + case 524: + return KERNEL_H_M1; + case 528: + return OFM_CBLK_WIDTH_M1; + case 532: + return OFM_CBLK_HEIGHT_M1; + case 536: + return OFM_CBLK_DEPTH_M1; + case 540: + return IFM_CBLK_DEPTH_M1; + case 544: + return OFM_X; + case 548: + return OFM_Y; + case 552: + return OFM_Z; + case 556: + return IFM_Z; + case 560: + return PAD_TOP; + case 564: + return PAD_LEFT; + case 568: + return IFM_CBLK_WIDTH; + case 572: + return IFM_CBLK_HEIGHT; + case 576: + return DMA_IFM_SRC; + case 580: + return DMA_IFM_SRC_HI; + case 584: + return DMA_IFM_DST; + case 588: + return DMA_OFM_SRC; + case 592: + return DMA_OFM_DST; + case 596: + return DMA_OFM_DST_HI; + case 600: + return DMA_WEIGHT_SRC; + case 604: + return DMA_WEIGHT_SRC_HI; + case 608: + return DMA_CMD_SRC; + case 612: + return DMA_CMD_SRC_HI; + case 616: + return DMA_CMD_SIZE; + case 620: + return DMA_M2M_SRC; + case 624: + return DMA_M2M_SRC_HI; + case 628: + return DMA_M2M_DST; + case 632: + return DMA_M2M_DST_HI; + case 636: + return CURRENT_QREAD; + case 640: + return DMA_SCALE_SRC; + case 644: + return DMA_SCALE_SRC_HI; + case 700: + return CURRENT_CMD; + case 2048: + return IFM_PAD_TOP; + case 2052: + return IFM_PAD_LEFT; + case 2056: + return IFM_PAD_RIGHT; + case 2060: + return IFM_PAD_BOTTOM; + case 2064: + return IFM_DEPTH_M1; + case 2068: + return IFM_PRECISION; + case 2076: + return IFM_UPSCALE; + case 2084: + return IFM_ZERO_POINT; + case 2088: + return IFM_WIDTH0_M1; + case 2092: + return IFM_HEIGHT0_M1; + case 2096: + return IFM_HEIGHT1_M1; + case 2100: + return IFM_IB_END; + case 2108: + return IFM_REGION; + case 2116: + return OFM_WIDTH_M1; + case 2120: + return OFM_HEIGHT_M1; + case 2124: + return OFM_DEPTH_M1; + case 2128: + return OFM_PRECISION; + case 2132: + return OFM_BLK_WIDTH_M1; + case 2136: + return OFM_BLK_HEIGHT_M1; + case 2140: + return OFM_BLK_DEPTH_M1; + case 2144: + return OFM_ZERO_POINT; + case 2152: + return OFM_WIDTH0_M1; + case 2156: + return OFM_HEIGHT0_M1; + case 2160: + return OFM_HEIGHT1_M1; + case 2172: + return OFM_REGION; + case 2176: + return KERNEL_WIDTH_M1; + case 2180: + return KERNEL_HEIGHT_M1; + case 2184: + return KERNEL_STRIDE; + case 2188: + return PARALLEL_MODE; + case 2192: + return ACC_FORMAT; + case 2196: + return ACTIVATION; + case 2200: + return ACTIVATION_MIN; + case 2204: + return ACTIVATION_MAX; + case 2208: + return WEIGHT_REGION; + case 2212: + return SCALE_REGION; + case 2228: + return AB_START; + case 2236: + return BLOCKDEP; + case 2240: + return DMA0_SRC_REGION; + case 2244: + return DMA0_DST_REGION; + case 2248: + return DMA0_SIZE0; + case 2252: + return DMA0_SIZE1; + case 2304: + return IFM2_BROADCAST; + case 2308: + return IFM2_SCALAR; + case 2324: + return IFM2_PRECISION; + case 2340: + return IFM2_ZERO_POINT; + case 2344: + return IFM2_WIDTH0_M1; + case 2348: + return IFM2_HEIGHT0_M1; + case 2352: + return IFM2_HEIGHT1_M1; + case 2356: + return IFM2_IB_START; + case 2364: + return IFM2_REGION; + case 2560: + return IFM_BASE0; + case 2564: + return IFM_BASE0_HI; + case 2568: + return IFM_BASE1; + case 2572: + return IFM_BASE1_HI; + case 2576: + return IFM_BASE2; + case 2580: + return IFM_BASE2_HI; + case 2584: + return IFM_BASE3; + case 2588: + return IFM_BASE3_HI; + case 2592: + return IFM_STRIDE_X; + case 2596: + return IFM_STRIDE_X_HI; + case 2600: + return IFM_STRIDE_Y; + case 2604: + return IFM_STRIDE_Y_HI; + case 2608: + return IFM_STRIDE_C; + case 2612: + return IFM_STRIDE_C_HI; + case 2624: + return OFM_BASE0; + case 2628: + return OFM_BASE0_HI; + case 2632: + return OFM_BASE1; + case 2636: + return OFM_BASE1_HI; + case 2640: + return OFM_BASE2; + case 2644: + return OFM_BASE2_HI; + case 2648: + return OFM_BASE3; + case 2652: + return OFM_BASE3_HI; + case 2656: + return OFM_STRIDE_X; + case 2660: + return OFM_STRIDE_X_HI; + case 2664: + return OFM_STRIDE_Y; + case 2668: + return OFM_STRIDE_Y_HI; + case 2672: + return OFM_STRIDE_C; + case 2676: + return OFM_STRIDE_C_HI; + case 2688: + return WEIGHT_BASE; + case 2692: + return WEIGHT_BASE_HI; + case 2696: + return WEIGHT_LENGTH; + case 2700: + return WEIGHT_LENGTH_HI; + case 2704: + return SCALE_BASE; + case 2708: + return SCALE_BASE_HI; + case 2712: + return SCALE_LENGTH; + case 2720: + return OFM_SCALE; + case 2724: + return OFM_SCALE_SHIFT; + case 2728: + return OPA_SCALE; + case 2732: + return OPA_SCALE_SHIFT; + case 2736: + return OPB_SCALE; + case 2752: + return DMA0_SRC; + case 2756: + return DMA0_SRC_HI; + case 2760: + return DMA0_DST; + case 2764: + return DMA0_DST_HI; + case 2768: + return DMA0_LEN; + case 2772: + return DMA0_LEN_HI; + case 2776: + return DMA0_SKIP0; + case 2780: + return DMA0_SKIP0_HI; + case 2784: + return DMA0_SKIP1; + case 2788: + return DMA0_SKIP1_HI; + case 2816: + return IFM2_BASE0; + case 2820: + return IFM2_BASE0_HI; + case 2824: + return IFM2_BASE1; + case 2828: + return IFM2_BASE1_HI; + case 2832: + return IFM2_BASE2; + case 2836: + return IFM2_BASE2_HI; + case 2840: + return IFM2_BASE3; + case 2844: + return IFM2_BASE3_HI; + case 2848: + return IFM2_STRIDE_X; + case 2852: + return IFM2_STRIDE_X_HI; + case 2856: + return IFM2_STRIDE_Y; + case 2860: + return IFM2_STRIDE_Y_HI; + case 2864: + return IFM2_STRIDE_C; + case 2868: + return IFM2_STRIDE_C_HI; + case 2880: + return WEIGHT1_BASE; + case 2884: + return WEIGHT1_BASE_HI; + case 2888: + return WEIGHT1_LENGTH; + case 2892: + return WEIGHT1_LENGTH_HI; + case 2896: + return SCALE1_BASE; + case 2900: + return SCALE1_BASE_HI; + case 2904: + return SCALE1_LENGTH; + case 384: + return PMCR; + case 388: + return PMCNTENSET; + case 392: + return PMCNTENCLR; + case 396: + return PMOVSSET; + case 400: + return PMOVSCLR; + case 404: + return PMINTSET; + case 408: + return PMINTCLR; + case 416: + return PMCCNTR_LO; + case 420: + return PMCCNTR_HI; + case 424: + return PMCCNTR_CFG; + case 428: + return PMCAXI_CHAN; + case 768: + return PMEVCNTR[0]; + case 772: + return PMEVCNTR[1]; + case 776: + return PMEVCNTR[2]; + case 780: + return PMEVCNTR[3]; + case 896: + return PMEVTYPER[0]; + case 900: + return PMEVTYPER[1]; + case 904: + return PMEVTYPER[2]; + case 908: + return PMEVTYPER[3]; + case 1024: + return SHARED_BUFFER[0]; + case 1028: + return SHARED_BUFFER[1]; + case 1032: + return SHARED_BUFFER[2]; + case 1036: + return SHARED_BUFFER[3]; + case 1040: + return SHARED_BUFFER[4]; + case 1044: + return SHARED_BUFFER[5]; + case 1048: + return SHARED_BUFFER[6]; + case 1052: + return SHARED_BUFFER[7]; + case 1056: + return SHARED_BUFFER[8]; + case 1060: + return SHARED_BUFFER[9]; + case 1064: + return SHARED_BUFFER[10]; + case 1068: + return SHARED_BUFFER[11]; + case 1072: + return SHARED_BUFFER[12]; + case 1076: + return SHARED_BUFFER[13]; + case 1080: + return SHARED_BUFFER[14]; + case 1084: + return SHARED_BUFFER[15]; + case 1088: + return SHARED_BUFFER[16]; + case 1092: + return SHARED_BUFFER[17]; + case 1096: + return SHARED_BUFFER[18]; + case 1100: + return SHARED_BUFFER[19]; + case 1104: + return SHARED_BUFFER[20]; + case 1108: + return SHARED_BUFFER[21]; + case 1112: + return SHARED_BUFFER[22]; + case 1116: + return SHARED_BUFFER[23]; + case 1120: + return SHARED_BUFFER[24]; + case 1124: + return SHARED_BUFFER[25]; + case 1128: + return SHARED_BUFFER[26]; + case 1132: + return SHARED_BUFFER[27]; + case 1136: + return SHARED_BUFFER[28]; + case 1140: + return SHARED_BUFFER[29]; + case 1144: + return SHARED_BUFFER[30]; + case 1148: + return SHARED_BUFFER[31]; + case 1152: + return SHARED_BUFFER[32]; + case 1156: + return SHARED_BUFFER[33]; + case 1160: + return SHARED_BUFFER[34]; + case 1164: + return SHARED_BUFFER[35]; + case 1168: + return SHARED_BUFFER[36]; + case 1172: + return SHARED_BUFFER[37]; + case 1176: + return SHARED_BUFFER[38]; + case 1180: + return SHARED_BUFFER[39]; + case 1184: + return SHARED_BUFFER[40]; + case 1188: + return SHARED_BUFFER[41]; + case 1192: + return SHARED_BUFFER[42]; + case 1196: + return SHARED_BUFFER[43]; + case 1200: + return SHARED_BUFFER[44]; + case 1204: + return SHARED_BUFFER[45]; + case 1208: + return SHARED_BUFFER[46]; + case 1212: + return SHARED_BUFFER[47]; + case 1216: + return SHARED_BUFFER[48]; + case 1220: + return SHARED_BUFFER[49]; + case 1224: + return SHARED_BUFFER[50]; + case 1228: + return SHARED_BUFFER[51]; + case 1232: + return SHARED_BUFFER[52]; + case 1236: + return SHARED_BUFFER[53]; + case 1240: + return SHARED_BUFFER[54]; + case 1244: + return SHARED_BUFFER[55]; + case 1248: + return SHARED_BUFFER[56]; + case 1252: + return SHARED_BUFFER[57]; + case 1256: + return SHARED_BUFFER[58]; + case 1260: + return SHARED_BUFFER[59]; + case 1264: + return SHARED_BUFFER[60]; + case 1268: + return SHARED_BUFFER[61]; + case 1272: + return SHARED_BUFFER[62]; + case 1276: + return SHARED_BUFFER[63]; + case 1280: + return SHARED_BUFFER[64]; + case 1284: + return SHARED_BUFFER[65]; + case 1288: + return SHARED_BUFFER[66]; + case 1292: + return SHARED_BUFFER[67]; + case 1296: + return SHARED_BUFFER[68]; + case 1300: + return SHARED_BUFFER[69]; + case 1304: + return SHARED_BUFFER[70]; + case 1308: + return SHARED_BUFFER[71]; + case 1312: + return SHARED_BUFFER[72]; + case 1316: + return SHARED_BUFFER[73]; + case 1320: + return SHARED_BUFFER[74]; + case 1324: + return SHARED_BUFFER[75]; + case 1328: + return SHARED_BUFFER[76]; + case 1332: + return SHARED_BUFFER[77]; + case 1336: + return SHARED_BUFFER[78]; + case 1340: + return SHARED_BUFFER[79]; + case 1344: + return SHARED_BUFFER[80]; + case 1348: + return SHARED_BUFFER[81]; + case 1352: + return SHARED_BUFFER[82]; + case 1356: + return SHARED_BUFFER[83]; + case 1360: + return SHARED_BUFFER[84]; + case 1364: + return SHARED_BUFFER[85]; + case 1368: + return SHARED_BUFFER[86]; + case 1372: + return SHARED_BUFFER[87]; + case 1376: + return SHARED_BUFFER[88]; + case 1380: + return SHARED_BUFFER[89]; + case 1384: + return SHARED_BUFFER[90]; + case 1388: + return SHARED_BUFFER[91]; + case 1392: + return SHARED_BUFFER[92]; + case 1396: + return SHARED_BUFFER[93]; + case 1400: + return SHARED_BUFFER[94]; + case 1404: + return SHARED_BUFFER[95]; + case 1408: + return SHARED_BUFFER[96]; + case 1412: + return SHARED_BUFFER[97]; + case 1416: + return SHARED_BUFFER[98]; + case 1420: + return SHARED_BUFFER[99]; + case 1424: + return SHARED_BUFFER[100]; + case 1428: + return SHARED_BUFFER[101]; + case 1432: + return SHARED_BUFFER[102]; + case 1436: + return SHARED_BUFFER[103]; + case 1440: + return SHARED_BUFFER[104]; + case 1444: + return SHARED_BUFFER[105]; + case 1448: + return SHARED_BUFFER[106]; + case 1452: + return SHARED_BUFFER[107]; + case 1456: + return SHARED_BUFFER[108]; + case 1460: + return SHARED_BUFFER[109]; + case 1464: + return SHARED_BUFFER[110]; + case 1468: + return SHARED_BUFFER[111]; + case 1472: + return SHARED_BUFFER[112]; + case 1476: + return SHARED_BUFFER[113]; + case 1480: + return SHARED_BUFFER[114]; + case 1484: + return SHARED_BUFFER[115]; + case 1488: + return SHARED_BUFFER[116]; + case 1492: + return SHARED_BUFFER[117]; + case 1496: + return SHARED_BUFFER[118]; + case 1500: + return SHARED_BUFFER[119]; + case 1504: + return SHARED_BUFFER[120]; + case 1508: + return SHARED_BUFFER[121]; + case 1512: + return SHARED_BUFFER[122]; + case 1516: + return SHARED_BUFFER[123]; + case 1520: + return SHARED_BUFFER[124]; + case 1524: + return SHARED_BUFFER[125]; + case 1528: + return SHARED_BUFFER[126]; + case 1532: + return SHARED_BUFFER[127]; + case 1536: + return SHARED_BUFFER[128]; + case 1540: + return SHARED_BUFFER[129]; + case 1544: + return SHARED_BUFFER[130]; + case 1548: + return SHARED_BUFFER[131]; + case 1552: + return SHARED_BUFFER[132]; + case 1556: + return SHARED_BUFFER[133]; + case 1560: + return SHARED_BUFFER[134]; + case 1564: + return SHARED_BUFFER[135]; + case 1568: + return SHARED_BUFFER[136]; + case 1572: + return SHARED_BUFFER[137]; + case 1576: + return SHARED_BUFFER[138]; + case 1580: + return SHARED_BUFFER[139]; + case 1584: + return SHARED_BUFFER[140]; + case 1588: + return SHARED_BUFFER[141]; + case 1592: + return SHARED_BUFFER[142]; + case 1596: + return SHARED_BUFFER[143]; + case 1600: + return SHARED_BUFFER[144]; + case 1604: + return SHARED_BUFFER[145]; + case 1608: + return SHARED_BUFFER[146]; + case 1612: + return SHARED_BUFFER[147]; + case 1616: + return SHARED_BUFFER[148]; + case 1620: + return SHARED_BUFFER[149]; + case 1624: + return SHARED_BUFFER[150]; + case 1628: + return SHARED_BUFFER[151]; + case 1632: + return SHARED_BUFFER[152]; + case 1636: + return SHARED_BUFFER[153]; + case 1640: + return SHARED_BUFFER[154]; + case 1644: + return SHARED_BUFFER[155]; + case 1648: + return SHARED_BUFFER[156]; + case 1652: + return SHARED_BUFFER[157]; + case 1656: + return SHARED_BUFFER[158]; + case 1660: + return SHARED_BUFFER[159]; + case 1664: + return SHARED_BUFFER[160]; + case 1668: + return SHARED_BUFFER[161]; + case 1672: + return SHARED_BUFFER[162]; + case 1676: + return SHARED_BUFFER[163]; + case 1680: + return SHARED_BUFFER[164]; + case 1684: + return SHARED_BUFFER[165]; + case 1688: + return SHARED_BUFFER[166]; + case 1692: + return SHARED_BUFFER[167]; + case 1696: + return SHARED_BUFFER[168]; + case 1700: + return SHARED_BUFFER[169]; + case 1704: + return SHARED_BUFFER[170]; + case 1708: + return SHARED_BUFFER[171]; + case 1712: + return SHARED_BUFFER[172]; + case 1716: + return SHARED_BUFFER[173]; + case 1720: + return SHARED_BUFFER[174]; + case 1724: + return SHARED_BUFFER[175]; + case 1728: + return SHARED_BUFFER[176]; + case 1732: + return SHARED_BUFFER[177]; + case 1736: + return SHARED_BUFFER[178]; + case 1740: + return SHARED_BUFFER[179]; + case 1744: + return SHARED_BUFFER[180]; + case 1748: + return SHARED_BUFFER[181]; + case 1752: + return SHARED_BUFFER[182]; + case 1756: + return SHARED_BUFFER[183]; + case 1760: + return SHARED_BUFFER[184]; + case 1764: + return SHARED_BUFFER[185]; + case 1768: + return SHARED_BUFFER[186]; + case 1772: + return SHARED_BUFFER[187]; + case 1776: + return SHARED_BUFFER[188]; + case 1780: + return SHARED_BUFFER[189]; + case 1784: + return SHARED_BUFFER[190]; + case 1788: + return SHARED_BUFFER[191]; + case 1792: + return SHARED_BUFFER[192]; + case 1796: + return SHARED_BUFFER[193]; + case 1800: + return SHARED_BUFFER[194]; + case 1804: + return SHARED_BUFFER[195]; + case 1808: + return SHARED_BUFFER[196]; + case 1812: + return SHARED_BUFFER[197]; + case 1816: + return SHARED_BUFFER[198]; + case 1820: + return SHARED_BUFFER[199]; + case 1824: + return SHARED_BUFFER[200]; + case 1828: + return SHARED_BUFFER[201]; + case 1832: + return SHARED_BUFFER[202]; + case 1836: + return SHARED_BUFFER[203]; + case 1840: + return SHARED_BUFFER[204]; + case 1844: + return SHARED_BUFFER[205]; + case 1848: + return SHARED_BUFFER[206]; + case 1852: + return SHARED_BUFFER[207]; + case 1856: + return SHARED_BUFFER[208]; + case 1860: + return SHARED_BUFFER[209]; + case 1864: + return SHARED_BUFFER[210]; + case 1868: + return SHARED_BUFFER[211]; + case 1872: + return SHARED_BUFFER[212]; + case 1876: + return SHARED_BUFFER[213]; + case 1880: + return SHARED_BUFFER[214]; + case 1884: + return SHARED_BUFFER[215]; + case 1888: + return SHARED_BUFFER[216]; + case 1892: + return SHARED_BUFFER[217]; + case 1896: + return SHARED_BUFFER[218]; + case 1900: + return SHARED_BUFFER[219]; + case 1904: + return SHARED_BUFFER[220]; + case 1908: + return SHARED_BUFFER[221]; + case 1912: + return SHARED_BUFFER[222]; + case 1916: + return SHARED_BUFFER[223]; + case 1920: + return SHARED_BUFFER[224]; + case 1924: + return SHARED_BUFFER[225]; + case 1928: + return SHARED_BUFFER[226]; + case 1932: + return SHARED_BUFFER[227]; + case 1936: + return SHARED_BUFFER[228]; + case 1940: + return SHARED_BUFFER[229]; + case 1944: + return SHARED_BUFFER[230]; + case 1948: + return SHARED_BUFFER[231]; + case 1952: + return SHARED_BUFFER[232]; + case 1956: + return SHARED_BUFFER[233]; + case 1960: + return SHARED_BUFFER[234]; + case 1964: + return SHARED_BUFFER[235]; + case 1968: + return SHARED_BUFFER[236]; + case 1972: + return SHARED_BUFFER[237]; + case 1976: + return SHARED_BUFFER[238]; + case 1980: + return SHARED_BUFFER[239]; + case 1984: + return SHARED_BUFFER[240]; + case 1988: + return SHARED_BUFFER[241]; + case 1992: + return SHARED_BUFFER[242]; + case 1996: + return SHARED_BUFFER[243]; + case 2000: + return SHARED_BUFFER[244]; + case 2004: + return SHARED_BUFFER[245]; + case 2008: + return SHARED_BUFFER[246]; + case 2012: + return SHARED_BUFFER[247]; + case 2016: + return SHARED_BUFFER[248]; + case 2020: + return SHARED_BUFFER[249]; + case 2024: + return SHARED_BUFFER[250]; + case 2028: + return SHARED_BUFFER[251]; + case 2032: + return SHARED_BUFFER[252]; + case 2036: + return SHARED_BUFFER[253]; + case 2040: + return SHARED_BUFFER[254]; + case 2044: + return SHARED_BUFFER[255]; + default: + throw std::runtime_error("invalid register address"); + } + } + void set(size_t offset, uint32_t value) + { + switch (offset) + { + case 0: + ID = value; + return; + case 4: + STATUS = value; + return; + case 8: + CMD = value; + return; + case 12: + RESET = value; + return; + case 16: + QBASE0 = value; + return; + case 20: + QBASE1 = value; + return; + case 24: + QREAD = value; + return; + case 28: + QCONFIG = value; + return; + case 32: + QSIZE = value; + return; + case 36: + PROT = value; + return; + case 40: + CONFIG = value; + return; + case 44: + LOCK = value; + return; + case 60: + REGIONCFG = value; + return; + case 64: + AXI_LIMIT0 = value; + return; + case 68: + AXI_LIMIT1 = value; + return; + case 72: + AXI_LIMIT2 = value; + return; + case 76: + AXI_LIMIT3 = value; + return; + case 128: + BASEP0 = value; + return; + case 132: + BASEP1 = value; + return; + case 136: + BASEP2 = value; + return; + case 140: + BASEP3 = value; + return; + case 144: + BASEP4 = value; + return; + case 148: + BASEP5 = value; + return; + case 152: + BASEP6 = value; + return; + case 156: + BASEP7 = value; + return; + case 160: + BASEP8 = value; + return; + case 164: + BASEP9 = value; + return; + case 168: + BASEP10 = value; + return; + case 172: + BASEP11 = value; + return; + case 176: + BASEP12 = value; + return; + case 180: + BASEP13 = value; + return; + case 184: + BASEP14 = value; + return; + case 188: + BASEP15 = value; + return; + case 4032: + REVISION = value; + return; + case 4048: + PID4 = value; + return; + case 4052: + PID5 = value; + return; + case 4056: + PID6 = value; + return; + case 4060: + PID7 = value; + return; + case 4064: + PID0 = value; + return; + case 4068: + PID1 = value; + return; + case 4072: + PID2 = value; + return; + case 4076: + PID3 = value; + return; + case 4080: + CID0 = value; + return; + case 4084: + CID1 = value; + return; + case 4088: + CID2 = value; + return; + case 4092: + CID3 = value; + return; + case 320: + CLKFORCE = value; + return; + case 324: + DEBUG = value; + return; + case 328: + DEBUG2 = value; + return; + case 332: + DEBUGCORE = value; + return; + case 512: + KERNEL_X = value; + return; + case 516: + KERNEL_Y = value; + return; + case 520: + KERNEL_W_M1 = value; + return; + case 524: + KERNEL_H_M1 = value; + return; + case 528: + OFM_CBLK_WIDTH_M1 = value; + return; + case 532: + OFM_CBLK_HEIGHT_M1 = value; + return; + case 536: + OFM_CBLK_DEPTH_M1 = value; + return; + case 540: + IFM_CBLK_DEPTH_M1 = value; + return; + case 544: + OFM_X = value; + return; + case 548: + OFM_Y = value; + return; + case 552: + OFM_Z = value; + return; + case 556: + IFM_Z = value; + return; + case 560: + PAD_TOP = value; + return; + case 564: + PAD_LEFT = value; + return; + case 568: + IFM_CBLK_WIDTH = value; + return; + case 572: + IFM_CBLK_HEIGHT = value; + return; + case 576: + DMA_IFM_SRC = value; + return; + case 580: + DMA_IFM_SRC_HI = value; + return; + case 584: + DMA_IFM_DST = value; + return; + case 588: + DMA_OFM_SRC = value; + return; + case 592: + DMA_OFM_DST = value; + return; + case 596: + DMA_OFM_DST_HI = value; + return; + case 600: + DMA_WEIGHT_SRC = value; + return; + case 604: + DMA_WEIGHT_SRC_HI = value; + return; + case 608: + DMA_CMD_SRC = value; + return; + case 612: + DMA_CMD_SRC_HI = value; + return; + case 616: + DMA_CMD_SIZE = value; + return; + case 620: + DMA_M2M_SRC = value; + return; + case 624: + DMA_M2M_SRC_HI = value; + return; + case 628: + DMA_M2M_DST = value; + return; + case 632: + DMA_M2M_DST_HI = value; + return; + case 636: + CURRENT_QREAD = value; + return; + case 640: + DMA_SCALE_SRC = value; + return; + case 644: + DMA_SCALE_SRC_HI = value; + return; + case 700: + CURRENT_CMD = value; + return; + case 2048: + IFM_PAD_TOP = value; + return; + case 2052: + IFM_PAD_LEFT = value; + return; + case 2056: + IFM_PAD_RIGHT = value; + return; + case 2060: + IFM_PAD_BOTTOM = value; + return; + case 2064: + IFM_DEPTH_M1 = value; + return; + case 2068: + IFM_PRECISION = value; + return; + case 2076: + IFM_UPSCALE = value; + return; + case 2084: + IFM_ZERO_POINT = value; + return; + case 2088: + IFM_WIDTH0_M1 = value; + return; + case 2092: + IFM_HEIGHT0_M1 = value; + return; + case 2096: + IFM_HEIGHT1_M1 = value; + return; + case 2100: + IFM_IB_END = value; + return; + case 2108: + IFM_REGION = value; + return; + case 2116: + OFM_WIDTH_M1 = value; + return; + case 2120: + OFM_HEIGHT_M1 = value; + return; + case 2124: + OFM_DEPTH_M1 = value; + return; + case 2128: + OFM_PRECISION = value; + return; + case 2132: + OFM_BLK_WIDTH_M1 = value; + return; + case 2136: + OFM_BLK_HEIGHT_M1 = value; + return; + case 2140: + OFM_BLK_DEPTH_M1 = value; + return; + case 2144: + OFM_ZERO_POINT = value; + return; + case 2152: + OFM_WIDTH0_M1 = value; + return; + case 2156: + OFM_HEIGHT0_M1 = value; + return; + case 2160: + OFM_HEIGHT1_M1 = value; + return; + case 2172: + OFM_REGION = value; + return; + case 2176: + KERNEL_WIDTH_M1 = value; + return; + case 2180: + KERNEL_HEIGHT_M1 = value; + return; + case 2184: + KERNEL_STRIDE = value; + return; + case 2188: + PARALLEL_MODE = value; + return; + case 2192: + ACC_FORMAT = value; + return; + case 2196: + ACTIVATION = value; + return; + case 2200: + ACTIVATION_MIN = value; + return; + case 2204: + ACTIVATION_MAX = value; + return; + case 2208: + WEIGHT_REGION = value; + return; + case 2212: + SCALE_REGION = value; + return; + case 2228: + AB_START = value; + return; + case 2236: + BLOCKDEP = value; + return; + case 2240: + DMA0_SRC_REGION = value; + return; + case 2244: + DMA0_DST_REGION = value; + return; + case 2248: + DMA0_SIZE0 = value; + return; + case 2252: + DMA0_SIZE1 = value; + return; + case 2304: + IFM2_BROADCAST = value; + return; + case 2308: + IFM2_SCALAR = value; + return; + case 2324: + IFM2_PRECISION = value; + return; + case 2340: + IFM2_ZERO_POINT = value; + return; + case 2344: + IFM2_WIDTH0_M1 = value; + return; + case 2348: + IFM2_HEIGHT0_M1 = value; + return; + case 2352: + IFM2_HEIGHT1_M1 = value; + return; + case 2356: + IFM2_IB_START = value; + return; + case 2364: + IFM2_REGION = value; + return; + case 2560: + IFM_BASE0 = value; + return; + case 2564: + IFM_BASE0_HI = value; + return; + case 2568: + IFM_BASE1 = value; + return; + case 2572: + IFM_BASE1_HI = value; + return; + case 2576: + IFM_BASE2 = value; + return; + case 2580: + IFM_BASE2_HI = value; + return; + case 2584: + IFM_BASE3 = value; + return; + case 2588: + IFM_BASE3_HI = value; + return; + case 2592: + IFM_STRIDE_X = value; + return; + case 2596: + IFM_STRIDE_X_HI = value; + return; + case 2600: + IFM_STRIDE_Y = value; + return; + case 2604: + IFM_STRIDE_Y_HI = value; + return; + case 2608: + IFM_STRIDE_C = value; + return; + case 2612: + IFM_STRIDE_C_HI = value; + return; + case 2624: + OFM_BASE0 = value; + return; + case 2628: + OFM_BASE0_HI = value; + return; + case 2632: + OFM_BASE1 = value; + return; + case 2636: + OFM_BASE1_HI = value; + return; + case 2640: + OFM_BASE2 = value; + return; + case 2644: + OFM_BASE2_HI = value; + return; + case 2648: + OFM_BASE3 = value; + return; + case 2652: + OFM_BASE3_HI = value; + return; + case 2656: + OFM_STRIDE_X = value; + return; + case 2660: + OFM_STRIDE_X_HI = value; + return; + case 2664: + OFM_STRIDE_Y = value; + return; + case 2668: + OFM_STRIDE_Y_HI = value; + return; + case 2672: + OFM_STRIDE_C = value; + return; + case 2676: + OFM_STRIDE_C_HI = value; + return; + case 2688: + WEIGHT_BASE = value; + return; + case 2692: + WEIGHT_BASE_HI = value; + return; + case 2696: + WEIGHT_LENGTH = value; + return; + case 2700: + WEIGHT_LENGTH_HI = value; + return; + case 2704: + SCALE_BASE = value; + return; + case 2708: + SCALE_BASE_HI = value; + return; + case 2712: + SCALE_LENGTH = value; + return; + case 2720: + OFM_SCALE = value; + return; + case 2724: + OFM_SCALE_SHIFT = value; + return; + case 2728: + OPA_SCALE = value; + return; + case 2732: + OPA_SCALE_SHIFT = value; + return; + case 2736: + OPB_SCALE = value; + return; + case 2752: + DMA0_SRC = value; + return; + case 2756: + DMA0_SRC_HI = value; + return; + case 2760: + DMA0_DST = value; + return; + case 2764: + DMA0_DST_HI = value; + return; + case 2768: + DMA0_LEN = value; + return; + case 2772: + DMA0_LEN_HI = value; + return; + case 2776: + DMA0_SKIP0 = value; + return; + case 2780: + DMA0_SKIP0_HI = value; + return; + case 2784: + DMA0_SKIP1 = value; + return; + case 2788: + DMA0_SKIP1_HI = value; + return; + case 2816: + IFM2_BASE0 = value; + return; + case 2820: + IFM2_BASE0_HI = value; + return; + case 2824: + IFM2_BASE1 = value; + return; + case 2828: + IFM2_BASE1_HI = value; + return; + case 2832: + IFM2_BASE2 = value; + return; + case 2836: + IFM2_BASE2_HI = value; + return; + case 2840: + IFM2_BASE3 = value; + return; + case 2844: + IFM2_BASE3_HI = value; + return; + case 2848: + IFM2_STRIDE_X = value; + return; + case 2852: + IFM2_STRIDE_X_HI = value; + return; + case 2856: + IFM2_STRIDE_Y = value; + return; + case 2860: + IFM2_STRIDE_Y_HI = value; + return; + case 2864: + IFM2_STRIDE_C = value; + return; + case 2868: + IFM2_STRIDE_C_HI = value; + return; + case 2880: + WEIGHT1_BASE = value; + return; + case 2884: + WEIGHT1_BASE_HI = value; + return; + case 2888: + WEIGHT1_LENGTH = value; + return; + case 2892: + WEIGHT1_LENGTH_HI = value; + return; + case 2896: + SCALE1_BASE = value; + return; + case 2900: + SCALE1_BASE_HI = value; + return; + case 2904: + SCALE1_LENGTH = value; + return; + case 384: + PMCR = value; + return; + case 388: + PMCNTENSET = value; + return; + case 392: + PMCNTENCLR = value; + return; + case 396: + PMOVSSET = value; + return; + case 400: + PMOVSCLR = value; + return; + case 404: + PMINTSET = value; + return; + case 408: + PMINTCLR = value; + return; + case 416: + PMCCNTR_LO = value; + return; + case 420: + PMCCNTR_HI = value; + return; + case 424: + PMCCNTR_CFG = value; + return; + case 428: + PMCAXI_CHAN = value; + return; + case 768: + PMEVCNTR[0] = value; + return; + case 772: + PMEVCNTR[1] = value; + return; + case 776: + PMEVCNTR[2] = value; + return; + case 780: + PMEVCNTR[3] = value; + return; + case 896: + PMEVTYPER[0] = value; + return; + case 900: + PMEVTYPER[1] = value; + return; + case 904: + PMEVTYPER[2] = value; + return; + case 908: + PMEVTYPER[3] = value; + return; + case 1024: + SHARED_BUFFER[0] = value; + return; + case 1028: + SHARED_BUFFER[1] = value; + return; + case 1032: + SHARED_BUFFER[2] = value; + return; + case 1036: + SHARED_BUFFER[3] = value; + return; + case 1040: + SHARED_BUFFER[4] = value; + return; + case 1044: + SHARED_BUFFER[5] = value; + return; + case 1048: + SHARED_BUFFER[6] = value; + return; + case 1052: + SHARED_BUFFER[7] = value; + return; + case 1056: + SHARED_BUFFER[8] = value; + return; + case 1060: + SHARED_BUFFER[9] = value; + return; + case 1064: + SHARED_BUFFER[10] = value; + return; + case 1068: + SHARED_BUFFER[11] = value; + return; + case 1072: + SHARED_BUFFER[12] = value; + return; + case 1076: + SHARED_BUFFER[13] = value; + return; + case 1080: + SHARED_BUFFER[14] = value; + return; + case 1084: + SHARED_BUFFER[15] = value; + return; + case 1088: + SHARED_BUFFER[16] = value; + return; + case 1092: + SHARED_BUFFER[17] = value; + return; + case 1096: + SHARED_BUFFER[18] = value; + return; + case 1100: + SHARED_BUFFER[19] = value; + return; + case 1104: + SHARED_BUFFER[20] = value; + return; + case 1108: + SHARED_BUFFER[21] = value; + return; + case 1112: + SHARED_BUFFER[22] = value; + return; + case 1116: + SHARED_BUFFER[23] = value; + return; + case 1120: + SHARED_BUFFER[24] = value; + return; + case 1124: + SHARED_BUFFER[25] = value; + return; + case 1128: + SHARED_BUFFER[26] = value; + return; + case 1132: + SHARED_BUFFER[27] = value; + return; + case 1136: + SHARED_BUFFER[28] = value; + return; + case 1140: + SHARED_BUFFER[29] = value; + return; + case 1144: + SHARED_BUFFER[30] = value; + return; + case 1148: + SHARED_BUFFER[31] = value; + return; + case 1152: + SHARED_BUFFER[32] = value; + return; + case 1156: + SHARED_BUFFER[33] = value; + return; + case 1160: + SHARED_BUFFER[34] = value; + return; + case 1164: + SHARED_BUFFER[35] = value; + return; + case 1168: + SHARED_BUFFER[36] = value; + return; + case 1172: + SHARED_BUFFER[37] = value; + return; + case 1176: + SHARED_BUFFER[38] = value; + return; + case 1180: + SHARED_BUFFER[39] = value; + return; + case 1184: + SHARED_BUFFER[40] = value; + return; + case 1188: + SHARED_BUFFER[41] = value; + return; + case 1192: + SHARED_BUFFER[42] = value; + return; + case 1196: + SHARED_BUFFER[43] = value; + return; + case 1200: + SHARED_BUFFER[44] = value; + return; + case 1204: + SHARED_BUFFER[45] = value; + return; + case 1208: + SHARED_BUFFER[46] = value; + return; + case 1212: + SHARED_BUFFER[47] = value; + return; + case 1216: + SHARED_BUFFER[48] = value; + return; + case 1220: + SHARED_BUFFER[49] = value; + return; + case 1224: + SHARED_BUFFER[50] = value; + return; + case 1228: + SHARED_BUFFER[51] = value; + return; + case 1232: + SHARED_BUFFER[52] = value; + return; + case 1236: + SHARED_BUFFER[53] = value; + return; + case 1240: + SHARED_BUFFER[54] = value; + return; + case 1244: + SHARED_BUFFER[55] = value; + return; + case 1248: + SHARED_BUFFER[56] = value; + return; + case 1252: + SHARED_BUFFER[57] = value; + return; + case 1256: + SHARED_BUFFER[58] = value; + return; + case 1260: + SHARED_BUFFER[59] = value; + return; + case 1264: + SHARED_BUFFER[60] = value; + return; + case 1268: + SHARED_BUFFER[61] = value; + return; + case 1272: + SHARED_BUFFER[62] = value; + return; + case 1276: + SHARED_BUFFER[63] = value; + return; + case 1280: + SHARED_BUFFER[64] = value; + return; + case 1284: + SHARED_BUFFER[65] = value; + return; + case 1288: + SHARED_BUFFER[66] = value; + return; + case 1292: + SHARED_BUFFER[67] = value; + return; + case 1296: + SHARED_BUFFER[68] = value; + return; + case 1300: + SHARED_BUFFER[69] = value; + return; + case 1304: + SHARED_BUFFER[70] = value; + return; + case 1308: + SHARED_BUFFER[71] = value; + return; + case 1312: + SHARED_BUFFER[72] = value; + return; + case 1316: + SHARED_BUFFER[73] = value; + return; + case 1320: + SHARED_BUFFER[74] = value; + return; + case 1324: + SHARED_BUFFER[75] = value; + return; + case 1328: + SHARED_BUFFER[76] = value; + return; + case 1332: + SHARED_BUFFER[77] = value; + return; + case 1336: + SHARED_BUFFER[78] = value; + return; + case 1340: + SHARED_BUFFER[79] = value; + return; + case 1344: + SHARED_BUFFER[80] = value; + return; + case 1348: + SHARED_BUFFER[81] = value; + return; + case 1352: + SHARED_BUFFER[82] = value; + return; + case 1356: + SHARED_BUFFER[83] = value; + return; + case 1360: + SHARED_BUFFER[84] = value; + return; + case 1364: + SHARED_BUFFER[85] = value; + return; + case 1368: + SHARED_BUFFER[86] = value; + return; + case 1372: + SHARED_BUFFER[87] = value; + return; + case 1376: + SHARED_BUFFER[88] = value; + return; + case 1380: + SHARED_BUFFER[89] = value; + return; + case 1384: + SHARED_BUFFER[90] = value; + return; + case 1388: + SHARED_BUFFER[91] = value; + return; + case 1392: + SHARED_BUFFER[92] = value; + return; + case 1396: + SHARED_BUFFER[93] = value; + return; + case 1400: + SHARED_BUFFER[94] = value; + return; + case 1404: + SHARED_BUFFER[95] = value; + return; + case 1408: + SHARED_BUFFER[96] = value; + return; + case 1412: + SHARED_BUFFER[97] = value; + return; + case 1416: + SHARED_BUFFER[98] = value; + return; + case 1420: + SHARED_BUFFER[99] = value; + return; + case 1424: + SHARED_BUFFER[100] = value; + return; + case 1428: + SHARED_BUFFER[101] = value; + return; + case 1432: + SHARED_BUFFER[102] = value; + return; + case 1436: + SHARED_BUFFER[103] = value; + return; + case 1440: + SHARED_BUFFER[104] = value; + return; + case 1444: + SHARED_BUFFER[105] = value; + return; + case 1448: + SHARED_BUFFER[106] = value; + return; + case 1452: + SHARED_BUFFER[107] = value; + return; + case 1456: + SHARED_BUFFER[108] = value; + return; + case 1460: + SHARED_BUFFER[109] = value; + return; + case 1464: + SHARED_BUFFER[110] = value; + return; + case 1468: + SHARED_BUFFER[111] = value; + return; + case 1472: + SHARED_BUFFER[112] = value; + return; + case 1476: + SHARED_BUFFER[113] = value; + return; + case 1480: + SHARED_BUFFER[114] = value; + return; + case 1484: + SHARED_BUFFER[115] = value; + return; + case 1488: + SHARED_BUFFER[116] = value; + return; + case 1492: + SHARED_BUFFER[117] = value; + return; + case 1496: + SHARED_BUFFER[118] = value; + return; + case 1500: + SHARED_BUFFER[119] = value; + return; + case 1504: + SHARED_BUFFER[120] = value; + return; + case 1508: + SHARED_BUFFER[121] = value; + return; + case 1512: + SHARED_BUFFER[122] = value; + return; + case 1516: + SHARED_BUFFER[123] = value; + return; + case 1520: + SHARED_BUFFER[124] = value; + return; + case 1524: + SHARED_BUFFER[125] = value; + return; + case 1528: + SHARED_BUFFER[126] = value; + return; + case 1532: + SHARED_BUFFER[127] = value; + return; + case 1536: + SHARED_BUFFER[128] = value; + return; + case 1540: + SHARED_BUFFER[129] = value; + return; + case 1544: + SHARED_BUFFER[130] = value; + return; + case 1548: + SHARED_BUFFER[131] = value; + return; + case 1552: + SHARED_BUFFER[132] = value; + return; + case 1556: + SHARED_BUFFER[133] = value; + return; + case 1560: + SHARED_BUFFER[134] = value; + return; + case 1564: + SHARED_BUFFER[135] = value; + return; + case 1568: + SHARED_BUFFER[136] = value; + return; + case 1572: + SHARED_BUFFER[137] = value; + return; + case 1576: + SHARED_BUFFER[138] = value; + return; + case 1580: + SHARED_BUFFER[139] = value; + return; + case 1584: + SHARED_BUFFER[140] = value; + return; + case 1588: + SHARED_BUFFER[141] = value; + return; + case 1592: + SHARED_BUFFER[142] = value; + return; + case 1596: + SHARED_BUFFER[143] = value; + return; + case 1600: + SHARED_BUFFER[144] = value; + return; + case 1604: + SHARED_BUFFER[145] = value; + return; + case 1608: + SHARED_BUFFER[146] = value; + return; + case 1612: + SHARED_BUFFER[147] = value; + return; + case 1616: + SHARED_BUFFER[148] = value; + return; + case 1620: + SHARED_BUFFER[149] = value; + return; + case 1624: + SHARED_BUFFER[150] = value; + return; + case 1628: + SHARED_BUFFER[151] = value; + return; + case 1632: + SHARED_BUFFER[152] = value; + return; + case 1636: + SHARED_BUFFER[153] = value; + return; + case 1640: + SHARED_BUFFER[154] = value; + return; + case 1644: + SHARED_BUFFER[155] = value; + return; + case 1648: + SHARED_BUFFER[156] = value; + return; + case 1652: + SHARED_BUFFER[157] = value; + return; + case 1656: + SHARED_BUFFER[158] = value; + return; + case 1660: + SHARED_BUFFER[159] = value; + return; + case 1664: + SHARED_BUFFER[160] = value; + return; + case 1668: + SHARED_BUFFER[161] = value; + return; + case 1672: + SHARED_BUFFER[162] = value; + return; + case 1676: + SHARED_BUFFER[163] = value; + return; + case 1680: + SHARED_BUFFER[164] = value; + return; + case 1684: + SHARED_BUFFER[165] = value; + return; + case 1688: + SHARED_BUFFER[166] = value; + return; + case 1692: + SHARED_BUFFER[167] = value; + return; + case 1696: + SHARED_BUFFER[168] = value; + return; + case 1700: + SHARED_BUFFER[169] = value; + return; + case 1704: + SHARED_BUFFER[170] = value; + return; + case 1708: + SHARED_BUFFER[171] = value; + return; + case 1712: + SHARED_BUFFER[172] = value; + return; + case 1716: + SHARED_BUFFER[173] = value; + return; + case 1720: + SHARED_BUFFER[174] = value; + return; + case 1724: + SHARED_BUFFER[175] = value; + return; + case 1728: + SHARED_BUFFER[176] = value; + return; + case 1732: + SHARED_BUFFER[177] = value; + return; + case 1736: + SHARED_BUFFER[178] = value; + return; + case 1740: + SHARED_BUFFER[179] = value; + return; + case 1744: + SHARED_BUFFER[180] = value; + return; + case 1748: + SHARED_BUFFER[181] = value; + return; + case 1752: + SHARED_BUFFER[182] = value; + return; + case 1756: + SHARED_BUFFER[183] = value; + return; + case 1760: + SHARED_BUFFER[184] = value; + return; + case 1764: + SHARED_BUFFER[185] = value; + return; + case 1768: + SHARED_BUFFER[186] = value; + return; + case 1772: + SHARED_BUFFER[187] = value; + return; + case 1776: + SHARED_BUFFER[188] = value; + return; + case 1780: + SHARED_BUFFER[189] = value; + return; + case 1784: + SHARED_BUFFER[190] = value; + return; + case 1788: + SHARED_BUFFER[191] = value; + return; + case 1792: + SHARED_BUFFER[192] = value; + return; + case 1796: + SHARED_BUFFER[193] = value; + return; + case 1800: + SHARED_BUFFER[194] = value; + return; + case 1804: + SHARED_BUFFER[195] = value; + return; + case 1808: + SHARED_BUFFER[196] = value; + return; + case 1812: + SHARED_BUFFER[197] = value; + return; + case 1816: + SHARED_BUFFER[198] = value; + return; + case 1820: + SHARED_BUFFER[199] = value; + return; + case 1824: + SHARED_BUFFER[200] = value; + return; + case 1828: + SHARED_BUFFER[201] = value; + return; + case 1832: + SHARED_BUFFER[202] = value; + return; + case 1836: + SHARED_BUFFER[203] = value; + return; + case 1840: + SHARED_BUFFER[204] = value; + return; + case 1844: + SHARED_BUFFER[205] = value; + return; + case 1848: + SHARED_BUFFER[206] = value; + return; + case 1852: + SHARED_BUFFER[207] = value; + return; + case 1856: + SHARED_BUFFER[208] = value; + return; + case 1860: + SHARED_BUFFER[209] = value; + return; + case 1864: + SHARED_BUFFER[210] = value; + return; + case 1868: + SHARED_BUFFER[211] = value; + return; + case 1872: + SHARED_BUFFER[212] = value; + return; + case 1876: + SHARED_BUFFER[213] = value; + return; + case 1880: + SHARED_BUFFER[214] = value; + return; + case 1884: + SHARED_BUFFER[215] = value; + return; + case 1888: + SHARED_BUFFER[216] = value; + return; + case 1892: + SHARED_BUFFER[217] = value; + return; + case 1896: + SHARED_BUFFER[218] = value; + return; + case 1900: + SHARED_BUFFER[219] = value; + return; + case 1904: + SHARED_BUFFER[220] = value; + return; + case 1908: + SHARED_BUFFER[221] = value; + return; + case 1912: + SHARED_BUFFER[222] = value; + return; + case 1916: + SHARED_BUFFER[223] = value; + return; + case 1920: + SHARED_BUFFER[224] = value; + return; + case 1924: + SHARED_BUFFER[225] = value; + return; + case 1928: + SHARED_BUFFER[226] = value; + return; + case 1932: + SHARED_BUFFER[227] = value; + return; + case 1936: + SHARED_BUFFER[228] = value; + return; + case 1940: + SHARED_BUFFER[229] = value; + return; + case 1944: + SHARED_BUFFER[230] = value; + return; + case 1948: + SHARED_BUFFER[231] = value; + return; + case 1952: + SHARED_BUFFER[232] = value; + return; + case 1956: + SHARED_BUFFER[233] = value; + return; + case 1960: + SHARED_BUFFER[234] = value; + return; + case 1964: + SHARED_BUFFER[235] = value; + return; + case 1968: + SHARED_BUFFER[236] = value; + return; + case 1972: + SHARED_BUFFER[237] = value; + return; + case 1976: + SHARED_BUFFER[238] = value; + return; + case 1980: + SHARED_BUFFER[239] = value; + return; + case 1984: + SHARED_BUFFER[240] = value; + return; + case 1988: + SHARED_BUFFER[241] = value; + return; + case 1992: + SHARED_BUFFER[242] = value; + return; + case 1996: + SHARED_BUFFER[243] = value; + return; + case 2000: + SHARED_BUFFER[244] = value; + return; + case 2004: + SHARED_BUFFER[245] = value; + return; + case 2008: + SHARED_BUFFER[246] = value; + return; + case 2012: + SHARED_BUFFER[247] = value; + return; + case 2016: + SHARED_BUFFER[248] = value; + return; + case 2020: + SHARED_BUFFER[249] = value; + return; + case 2024: + SHARED_BUFFER[250] = value; + return; + case 2028: + SHARED_BUFFER[251] = value; + return; + case 2032: + SHARED_BUFFER[252] = value; + return; + case 2036: + SHARED_BUFFER[253] = value; + return; + case 2040: + SHARED_BUFFER[254] = value; + return; + case 2044: + SHARED_BUFFER[255] = value; + return; + default: + throw std::runtime_error("invalid register address"); + } + } +#else + uint32_t &operator[](const int addr_offset) + { + return reinterpret_cast(this)[addr_offset / 4]; + } +#endif + enum class access_type_t : bool + { + RO, + RW + }; + access_type_t get_access_type(uint32_t offset) + { + switch (offset) + { + case 0: + return access_type_t::RO; + case 4: + return access_type_t::RO; + case 8: + return access_type_t::RW; + case 12: + return access_type_t::RW; + case 16: + return access_type_t::RW; + case 20: + return access_type_t::RW; + case 24: + return access_type_t::RO; + case 28: + return access_type_t::RW; + case 32: + return access_type_t::RW; + case 36: + return access_type_t::RO; + case 40: + return access_type_t::RO; + case 44: + return access_type_t::RW; + case 60: + return access_type_t::RW; + case 64: + return access_type_t::RW; + case 68: + return access_type_t::RW; + case 72: + return access_type_t::RW; + case 76: + return access_type_t::RW; + case 128: + return access_type_t::RW; + case 132: + return access_type_t::RW; + case 136: + return access_type_t::RW; + case 140: + return access_type_t::RW; + case 144: + return access_type_t::RW; + case 148: + return access_type_t::RW; + case 152: + return access_type_t::RW; + case 156: + return access_type_t::RW; + case 160: + return access_type_t::RW; + case 164: + return access_type_t::RW; + case 168: + return access_type_t::RW; + case 172: + return access_type_t::RW; + case 176: + return access_type_t::RW; + case 180: + return access_type_t::RW; + case 184: + return access_type_t::RW; + case 188: + return access_type_t::RW; + case 4032: + return access_type_t::RO; + case 4048: + return access_type_t::RO; + case 4052: + return access_type_t::RO; + case 4056: + return access_type_t::RO; + case 4060: + return access_type_t::RO; + case 4064: + return access_type_t::RO; + case 4068: + return access_type_t::RO; + case 4072: + return access_type_t::RO; + case 4076: + return access_type_t::RO; + case 4080: + return access_type_t::RO; + case 4084: + return access_type_t::RO; + case 4088: + return access_type_t::RO; + case 4092: + return access_type_t::RO; + case 320: + return access_type_t::RW; + case 324: + return access_type_t::RW; + case 328: + return access_type_t::RW; + case 332: + return access_type_t::RW; + case 512: + return access_type_t::RO; + case 516: + return access_type_t::RO; + case 520: + return access_type_t::RO; + case 524: + return access_type_t::RO; + case 528: + return access_type_t::RO; + case 532: + return access_type_t::RO; + case 536: + return access_type_t::RO; + case 540: + return access_type_t::RO; + case 544: + return access_type_t::RO; + case 548: + return access_type_t::RO; + case 552: + return access_type_t::RO; + case 556: + return access_type_t::RO; + case 560: + return access_type_t::RO; + case 564: + return access_type_t::RO; + case 568: + return access_type_t::RO; + case 572: + return access_type_t::RO; + case 576: + return access_type_t::RO; + case 580: + return access_type_t::RO; + case 584: + return access_type_t::RO; + case 588: + return access_type_t::RO; + case 592: + return access_type_t::RO; + case 596: + return access_type_t::RO; + case 600: + return access_type_t::RO; + case 604: + return access_type_t::RO; + case 608: + return access_type_t::RO; + case 612: + return access_type_t::RO; + case 616: + return access_type_t::RO; + case 620: + return access_type_t::RO; + case 624: + return access_type_t::RO; + case 628: + return access_type_t::RO; + case 632: + return access_type_t::RO; + case 636: + return access_type_t::RO; + case 640: + return access_type_t::RO; + case 644: + return access_type_t::RO; + case 700: + return access_type_t::RO; + case 2048: + return access_type_t::RW; + case 2052: + return access_type_t::RW; + case 2056: + return access_type_t::RW; + case 2060: + return access_type_t::RW; + case 2064: + return access_type_t::RW; + case 2068: + return access_type_t::RW; + case 2076: + return access_type_t::RW; + case 2084: + return access_type_t::RW; + case 2088: + return access_type_t::RW; + case 2092: + return access_type_t::RW; + case 2096: + return access_type_t::RW; + case 2100: + return access_type_t::RW; + case 2108: + return access_type_t::RW; + case 2116: + return access_type_t::RW; + case 2120: + return access_type_t::RW; + case 2124: + return access_type_t::RW; + case 2128: + return access_type_t::RW; + case 2132: + return access_type_t::RW; + case 2136: + return access_type_t::RW; + case 2140: + return access_type_t::RW; + case 2144: + return access_type_t::RW; + case 2152: + return access_type_t::RW; + case 2156: + return access_type_t::RW; + case 2160: + return access_type_t::RW; + case 2172: + return access_type_t::RW; + case 2176: + return access_type_t::RW; + case 2180: + return access_type_t::RW; + case 2184: + return access_type_t::RW; + case 2188: + return access_type_t::RW; + case 2192: + return access_type_t::RW; + case 2196: + return access_type_t::RW; + case 2200: + return access_type_t::RW; + case 2204: + return access_type_t::RW; + case 2208: + return access_type_t::RW; + case 2212: + return access_type_t::RW; + case 2228: + return access_type_t::RW; + case 2236: + return access_type_t::RW; + case 2240: + return access_type_t::RW; + case 2244: + return access_type_t::RW; + case 2248: + return access_type_t::RW; + case 2252: + return access_type_t::RW; + case 2304: + return access_type_t::RW; + case 2308: + return access_type_t::RW; + case 2324: + return access_type_t::RW; + case 2340: + return access_type_t::RW; + case 2344: + return access_type_t::RW; + case 2348: + return access_type_t::RW; + case 2352: + return access_type_t::RW; + case 2356: + return access_type_t::RW; + case 2364: + return access_type_t::RW; + case 2560: + return access_type_t::RW; + case 2564: + return access_type_t::RW; + case 2568: + return access_type_t::RW; + case 2572: + return access_type_t::RW; + case 2576: + return access_type_t::RW; + case 2580: + return access_type_t::RW; + case 2584: + return access_type_t::RW; + case 2588: + return access_type_t::RW; + case 2592: + return access_type_t::RW; + case 2596: + return access_type_t::RW; + case 2600: + return access_type_t::RW; + case 2604: + return access_type_t::RW; + case 2608: + return access_type_t::RW; + case 2612: + return access_type_t::RW; + case 2624: + return access_type_t::RW; + case 2628: + return access_type_t::RW; + case 2632: + return access_type_t::RW; + case 2636: + return access_type_t::RW; + case 2640: + return access_type_t::RW; + case 2644: + return access_type_t::RW; + case 2648: + return access_type_t::RW; + case 2652: + return access_type_t::RW; + case 2656: + return access_type_t::RW; + case 2660: + return access_type_t::RW; + case 2664: + return access_type_t::RW; + case 2668: + return access_type_t::RW; + case 2672: + return access_type_t::RW; + case 2676: + return access_type_t::RW; + case 2688: + return access_type_t::RW; + case 2692: + return access_type_t::RW; + case 2696: + return access_type_t::RW; + case 2700: + return access_type_t::RW; + case 2704: + return access_type_t::RW; + case 2708: + return access_type_t::RW; + case 2712: + return access_type_t::RW; + case 2720: + return access_type_t::RW; + case 2724: + return access_type_t::RW; + case 2728: + return access_type_t::RW; + case 2732: + return access_type_t::RW; + case 2736: + return access_type_t::RW; + case 2752: + return access_type_t::RW; + case 2756: + return access_type_t::RW; + case 2760: + return access_type_t::RW; + case 2764: + return access_type_t::RW; + case 2768: + return access_type_t::RW; + case 2772: + return access_type_t::RW; + case 2776: + return access_type_t::RW; + case 2780: + return access_type_t::RW; + case 2784: + return access_type_t::RW; + case 2788: + return access_type_t::RW; + case 2816: + return access_type_t::RW; + case 2820: + return access_type_t::RW; + case 2824: + return access_type_t::RW; + case 2828: + return access_type_t::RW; + case 2832: + return access_type_t::RW; + case 2836: + return access_type_t::RW; + case 2840: + return access_type_t::RW; + case 2844: + return access_type_t::RW; + case 2848: + return access_type_t::RW; + case 2852: + return access_type_t::RW; + case 2856: + return access_type_t::RW; + case 2860: + return access_type_t::RW; + case 2864: + return access_type_t::RW; + case 2868: + return access_type_t::RW; + case 2880: + return access_type_t::RW; + case 2884: + return access_type_t::RW; + case 2888: + return access_type_t::RW; + case 2892: + return access_type_t::RW; + case 2896: + return access_type_t::RW; + case 2900: + return access_type_t::RW; + case 2904: + return access_type_t::RW; + case 384: + return access_type_t::RW; + case 388: + return access_type_t::RW; + case 392: + return access_type_t::RW; + case 396: + return access_type_t::RW; + case 400: + return access_type_t::RW; + case 404: + return access_type_t::RW; + case 408: + return access_type_t::RW; + case 416: + return access_type_t::RW; + case 420: + return access_type_t::RW; + case 424: + return access_type_t::RW; + case 428: + return access_type_t::RW; + case 768: + return access_type_t::RW; + case 772: + return access_type_t::RW; + case 776: + return access_type_t::RW; + case 780: + return access_type_t::RW; + case 896: + return access_type_t::RW; + case 900: + return access_type_t::RW; + case 904: + return access_type_t::RW; + case 908: + return access_type_t::RW; + case 1024: + return access_type_t::RW; + case 1028: + return access_type_t::RW; + case 1032: + return access_type_t::RW; + case 1036: + return access_type_t::RW; + case 1040: + return access_type_t::RW; + case 1044: + return access_type_t::RW; + case 1048: + return access_type_t::RW; + case 1052: + return access_type_t::RW; + case 1056: + return access_type_t::RW; + case 1060: + return access_type_t::RW; + case 1064: + return access_type_t::RW; + case 1068: + return access_type_t::RW; + case 1072: + return access_type_t::RW; + case 1076: + return access_type_t::RW; + case 1080: + return access_type_t::RW; + case 1084: + return access_type_t::RW; + case 1088: + return access_type_t::RW; + case 1092: + return access_type_t::RW; + case 1096: + return access_type_t::RW; + case 1100: + return access_type_t::RW; + case 1104: + return access_type_t::RW; + case 1108: + return access_type_t::RW; + case 1112: + return access_type_t::RW; + case 1116: + return access_type_t::RW; + case 1120: + return access_type_t::RW; + case 1124: + return access_type_t::RW; + case 1128: + return access_type_t::RW; + case 1132: + return access_type_t::RW; + case 1136: + return access_type_t::RW; + case 1140: + return access_type_t::RW; + case 1144: + return access_type_t::RW; + case 1148: + return access_type_t::RW; + case 1152: + return access_type_t::RW; + case 1156: + return access_type_t::RW; + case 1160: + return access_type_t::RW; + case 1164: + return access_type_t::RW; + case 1168: + return access_type_t::RW; + case 1172: + return access_type_t::RW; + case 1176: + return access_type_t::RW; + case 1180: + return access_type_t::RW; + case 1184: + return access_type_t::RW; + case 1188: + return access_type_t::RW; + case 1192: + return access_type_t::RW; + case 1196: + return access_type_t::RW; + case 1200: + return access_type_t::RW; + case 1204: + return access_type_t::RW; + case 1208: + return access_type_t::RW; + case 1212: + return access_type_t::RW; + case 1216: + return access_type_t::RW; + case 1220: + return access_type_t::RW; + case 1224: + return access_type_t::RW; + case 1228: + return access_type_t::RW; + case 1232: + return access_type_t::RW; + case 1236: + return access_type_t::RW; + case 1240: + return access_type_t::RW; + case 1244: + return access_type_t::RW; + case 1248: + return access_type_t::RW; + case 1252: + return access_type_t::RW; + case 1256: + return access_type_t::RW; + case 1260: + return access_type_t::RW; + case 1264: + return access_type_t::RW; + case 1268: + return access_type_t::RW; + case 1272: + return access_type_t::RW; + case 1276: + return access_type_t::RW; + case 1280: + return access_type_t::RW; + case 1284: + return access_type_t::RW; + case 1288: + return access_type_t::RW; + case 1292: + return access_type_t::RW; + case 1296: + return access_type_t::RW; + case 1300: + return access_type_t::RW; + case 1304: + return access_type_t::RW; + case 1308: + return access_type_t::RW; + case 1312: + return access_type_t::RW; + case 1316: + return access_type_t::RW; + case 1320: + return access_type_t::RW; + case 1324: + return access_type_t::RW; + case 1328: + return access_type_t::RW; + case 1332: + return access_type_t::RW; + case 1336: + return access_type_t::RW; + case 1340: + return access_type_t::RW; + case 1344: + return access_type_t::RW; + case 1348: + return access_type_t::RW; + case 1352: + return access_type_t::RW; + case 1356: + return access_type_t::RW; + case 1360: + return access_type_t::RW; + case 1364: + return access_type_t::RW; + case 1368: + return access_type_t::RW; + case 1372: + return access_type_t::RW; + case 1376: + return access_type_t::RW; + case 1380: + return access_type_t::RW; + case 1384: + return access_type_t::RW; + case 1388: + return access_type_t::RW; + case 1392: + return access_type_t::RW; + case 1396: + return access_type_t::RW; + case 1400: + return access_type_t::RW; + case 1404: + return access_type_t::RW; + case 1408: + return access_type_t::RW; + case 1412: + return access_type_t::RW; + case 1416: + return access_type_t::RW; + case 1420: + return access_type_t::RW; + case 1424: + return access_type_t::RW; + case 1428: + return access_type_t::RW; + case 1432: + return access_type_t::RW; + case 1436: + return access_type_t::RW; + case 1440: + return access_type_t::RW; + case 1444: + return access_type_t::RW; + case 1448: + return access_type_t::RW; + case 1452: + return access_type_t::RW; + case 1456: + return access_type_t::RW; + case 1460: + return access_type_t::RW; + case 1464: + return access_type_t::RW; + case 1468: + return access_type_t::RW; + case 1472: + return access_type_t::RW; + case 1476: + return access_type_t::RW; + case 1480: + return access_type_t::RW; + case 1484: + return access_type_t::RW; + case 1488: + return access_type_t::RW; + case 1492: + return access_type_t::RW; + case 1496: + return access_type_t::RW; + case 1500: + return access_type_t::RW; + case 1504: + return access_type_t::RW; + case 1508: + return access_type_t::RW; + case 1512: + return access_type_t::RW; + case 1516: + return access_type_t::RW; + case 1520: + return access_type_t::RW; + case 1524: + return access_type_t::RW; + case 1528: + return access_type_t::RW; + case 1532: + return access_type_t::RW; + case 1536: + return access_type_t::RW; + case 1540: + return access_type_t::RW; + case 1544: + return access_type_t::RW; + case 1548: + return access_type_t::RW; + case 1552: + return access_type_t::RW; + case 1556: + return access_type_t::RW; + case 1560: + return access_type_t::RW; + case 1564: + return access_type_t::RW; + case 1568: + return access_type_t::RW; + case 1572: + return access_type_t::RW; + case 1576: + return access_type_t::RW; + case 1580: + return access_type_t::RW; + case 1584: + return access_type_t::RW; + case 1588: + return access_type_t::RW; + case 1592: + return access_type_t::RW; + case 1596: + return access_type_t::RW; + case 1600: + return access_type_t::RW; + case 1604: + return access_type_t::RW; + case 1608: + return access_type_t::RW; + case 1612: + return access_type_t::RW; + case 1616: + return access_type_t::RW; + case 1620: + return access_type_t::RW; + case 1624: + return access_type_t::RW; + case 1628: + return access_type_t::RW; + case 1632: + return access_type_t::RW; + case 1636: + return access_type_t::RW; + case 1640: + return access_type_t::RW; + case 1644: + return access_type_t::RW; + case 1648: + return access_type_t::RW; + case 1652: + return access_type_t::RW; + case 1656: + return access_type_t::RW; + case 1660: + return access_type_t::RW; + case 1664: + return access_type_t::RW; + case 1668: + return access_type_t::RW; + case 1672: + return access_type_t::RW; + case 1676: + return access_type_t::RW; + case 1680: + return access_type_t::RW; + case 1684: + return access_type_t::RW; + case 1688: + return access_type_t::RW; + case 1692: + return access_type_t::RW; + case 1696: + return access_type_t::RW; + case 1700: + return access_type_t::RW; + case 1704: + return access_type_t::RW; + case 1708: + return access_type_t::RW; + case 1712: + return access_type_t::RW; + case 1716: + return access_type_t::RW; + case 1720: + return access_type_t::RW; + case 1724: + return access_type_t::RW; + case 1728: + return access_type_t::RW; + case 1732: + return access_type_t::RW; + case 1736: + return access_type_t::RW; + case 1740: + return access_type_t::RW; + case 1744: + return access_type_t::RW; + case 1748: + return access_type_t::RW; + case 1752: + return access_type_t::RW; + case 1756: + return access_type_t::RW; + case 1760: + return access_type_t::RW; + case 1764: + return access_type_t::RW; + case 1768: + return access_type_t::RW; + case 1772: + return access_type_t::RW; + case 1776: + return access_type_t::RW; + case 1780: + return access_type_t::RW; + case 1784: + return access_type_t::RW; + case 1788: + return access_type_t::RW; + case 1792: + return access_type_t::RW; + case 1796: + return access_type_t::RW; + case 1800: + return access_type_t::RW; + case 1804: + return access_type_t::RW; + case 1808: + return access_type_t::RW; + case 1812: + return access_type_t::RW; + case 1816: + return access_type_t::RW; + case 1820: + return access_type_t::RW; + case 1824: + return access_type_t::RW; + case 1828: + return access_type_t::RW; + case 1832: + return access_type_t::RW; + case 1836: + return access_type_t::RW; + case 1840: + return access_type_t::RW; + case 1844: + return access_type_t::RW; + case 1848: + return access_type_t::RW; + case 1852: + return access_type_t::RW; + case 1856: + return access_type_t::RW; + case 1860: + return access_type_t::RW; + case 1864: + return access_type_t::RW; + case 1868: + return access_type_t::RW; + case 1872: + return access_type_t::RW; + case 1876: + return access_type_t::RW; + case 1880: + return access_type_t::RW; + case 1884: + return access_type_t::RW; + case 1888: + return access_type_t::RW; + case 1892: + return access_type_t::RW; + case 1896: + return access_type_t::RW; + case 1900: + return access_type_t::RW; + case 1904: + return access_type_t::RW; + case 1908: + return access_type_t::RW; + case 1912: + return access_type_t::RW; + case 1916: + return access_type_t::RW; + case 1920: + return access_type_t::RW; + case 1924: + return access_type_t::RW; + case 1928: + return access_type_t::RW; + case 1932: + return access_type_t::RW; + case 1936: + return access_type_t::RW; + case 1940: + return access_type_t::RW; + case 1944: + return access_type_t::RW; + case 1948: + return access_type_t::RW; + case 1952: + return access_type_t::RW; + case 1956: + return access_type_t::RW; + case 1960: + return access_type_t::RW; + case 1964: + return access_type_t::RW; + case 1968: + return access_type_t::RW; + case 1972: + return access_type_t::RW; + case 1976: + return access_type_t::RW; + case 1980: + return access_type_t::RW; + case 1984: + return access_type_t::RW; + case 1988: + return access_type_t::RW; + case 1992: + return access_type_t::RW; + case 1996: + return access_type_t::RW; + case 2000: + return access_type_t::RW; + case 2004: + return access_type_t::RW; + case 2008: + return access_type_t::RW; + case 2012: + return access_type_t::RW; + case 2016: + return access_type_t::RW; + case 2020: + return access_type_t::RW; + case 2024: + return access_type_t::RW; + case 2028: + return access_type_t::RW; + case 2032: + return access_type_t::RW; + case 2036: + return access_type_t::RW; + case 2040: + return access_type_t::RW; + case 2044: + return access_type_t::RW; + default: + throw std::runtime_error("invalid register address"); + } + } +#endif //__cplusplus +}; + +// Data structure for commands without payload +struct command_no_payload_t +{ + uint32_t cmd_code : 10; + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return must_be_zero0 == 0; + } + CONSTEXPR void init() + { + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR command_no_payload_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR command_no_payload_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Data structure for commands with payload +struct command_with_payload_t +{ + uint32_t cmd_code : 10; + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t param : 16; + uint32_t data : 32; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return must_be_zero == 0 && payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR command_with_payload_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR command_with_payload_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR command_with_payload_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR command_with_payload_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Move to stopped state once all commands to this point are done. Raise IRQ to the host and logically OR the mask into +// the status register upper 16 bits (see the status register) +struct npu_op_stop_t +{ + uint32_t cmd_code : 10; // NPU_OP_STOP + uint32_t must_be_zero0 : 6; // 0 + uint32_t mask : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_STOP) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_STOP); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_stop_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_mask() const + { + return static_cast(mask); + } + CONSTEXPR npu_op_stop_t &set_mask(uint32_t value) + { + mask = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Raise IRQ to the host and logically OR the mask into the status register upper 16 bits (see the status register) +struct npu_op_irq_t +{ + uint32_t cmd_code : 10; // NPU_OP_IRQ + uint32_t must_be_zero0 : 6; // 0 + uint32_t mask : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_IRQ) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_IRQ); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_irq_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_mask() const + { + return static_cast(mask); + } + CONSTEXPR npu_op_irq_t &set_mask(uint32_t value) + { + mask = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start stripe with full convolution or deconvolution +struct npu_op_conv_t +{ + uint32_t cmd_code : 10; // NPU_OP_CONV + uint32_t must_be_zero0 : 6; // 0 + uint32_t reserved0 : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_CONV) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_CONV); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_conv_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start stripe width depth-wise convolution or deconvolution operation +struct npu_op_depthwise_t +{ + uint32_t cmd_code : 10; // NPU_OP_DEPTHWISE + uint32_t must_be_zero0 : 6; // 0 + uint32_t reserved0 : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_DEPTHWISE) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_DEPTHWISE); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_depthwise_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start stripe with pooling operation +struct npu_op_pool_t +{ + uint32_t cmd_code : 10; // NPU_OP_POOL + uint32_t must_be_zero0 : 6; // 0 + uint32_t mode : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_POOL) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_POOL); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_pool_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::pooling_mode get_mode() const + { + return static_cast<::pooling_mode>(mode); + } + CONSTEXPR npu_op_pool_t &set_mode(::pooling_mode value) + { + mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start stripe with pointwise operation +struct npu_op_elementwise_t +{ + uint32_t cmd_code : 10; // NPU_OP_ELEMENTWISE + uint32_t must_be_zero0 : 6; // 0 + uint32_t mode : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_ELEMENTWISE) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_ELEMENTWISE); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_elementwise_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::elementwise_mode get_mode() const + { + return static_cast<::elementwise_mode>(mode); + } + CONSTEXPR npu_op_elementwise_t &set_mode(::elementwise_mode value) + { + mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Queue new DMA for the given channel with the given mode. Mode bit 0 specifies the source address type 0=external, +// 1=internal Mode bit 1 specifies the destination address type 0=external, 1=internal In Ethos-U55 there is only one +// user channel so channel=0. If the channel is fully in use then the command blocks until a new DMA can start +struct npu_op_dma_start_t +{ + uint32_t cmd_code : 10; // NPU_OP_DMA_START + uint32_t must_be_zero0 : 6; // 0 + uint32_t channel_mode : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_DMA_START) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_DMA_START); + must_be_zero0 = 0; + } + CONSTEXPR uint32_t get_channel_mode() const + { + return static_cast(channel_mode); + } + CONSTEXPR npu_op_dma_start_t &set_channel_mode(uint32_t value) + { + channel_mode = static_cast(value); + return *this; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_dma_start_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Wait for the DMA channel to have k or fewer active descriptors outstanding. In Ethos-U55 there is only one user +// channel so channel=0. In Ethos-U55 there is only one descriptor per channel so k=0 and the command waits for the +// single DMA to be complete. +struct npu_op_dma_wait_t +{ + uint32_t cmd_code : 10; // NPU_OP_DMA_WAIT + uint32_t must_be_zero0 : 6; // 0 + uint32_t reserved0 : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_DMA_WAIT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_DMA_WAIT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_dma_wait_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Wait for n or fewer kernel operations to be remaining (not complete) before starting the next command. A kernel +// operation is Conv, Depthwise, Pool, VectorProd Elementwise. This command is typically placed before an +// NPU_OP_DMA_START command to prevent the DMA from starting until a previous kernel operation reading the memory has +// completed. +struct npu_op_kernel_wait_t +{ + uint32_t cmd_code : 10; // NPU_OP_KERNEL_WAIT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_KERNEL_WAIT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_KERNEL_WAIT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_kernel_wait_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_op_kernel_wait_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Enable or disable PMU counting (debug feature only). +struct npu_op_pmu_mask_t +{ + uint32_t cmd_code : 10; // NPU_OP_PMU_MASK + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_OP_PMU_MASK) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_OP_PMU_MASK); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_op_pmu_mask_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_op_pmu_mask_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM top pad +struct npu_set_ifm_pad_top_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_PAD_TOP + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_PAD_TOP) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_PAD_TOP); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_pad_top_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_pad_top_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM left pad +struct npu_set_ifm_pad_left_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_PAD_LEFT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_PAD_LEFT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_PAD_LEFT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_pad_left_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_pad_left_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM right pad +struct npu_set_ifm_pad_right_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_PAD_RIGHT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_PAD_RIGHT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_PAD_RIGHT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_pad_right_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_pad_right_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM bottom pad +struct npu_set_ifm_pad_bottom_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_PAD_BOTTOM + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_PAD_BOTTOM) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_PAD_BOTTOM); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_pad_bottom_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_pad_bottom_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Number of input channels - 1 +struct npu_set_ifm_depth_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_DEPTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_DEPTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_DEPTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_depth_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_depth_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM precision +struct npu_set_ifm_precision_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_PRECISION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 4; + uint32_t reserved0 : 2; + uint32_t format : 2; + uint32_t scale_mode : 2; + uint32_t reserved1 : 4; + uint32_t round_mode : 2; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_PRECISION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_PRECISION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_precision_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::data_format get_format() const + { + return static_cast<::data_format>(format); + } + CONSTEXPR npu_set_ifm_precision_t &set_format(::data_format value) + { + format = static_cast(value); + return *this; + } + CONSTEXPR ::ifm_precision get_param() const + { + return static_cast<::ifm_precision>(param); + } + CONSTEXPR npu_set_ifm_precision_t &set_param(::ifm_precision value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR ::rounding get_round_mode() const + { + return static_cast<::rounding>(round_mode); + } + CONSTEXPR npu_set_ifm_precision_t &set_round_mode(::rounding value) + { + round_mode = static_cast(value); + return *this; + } + CONSTEXPR ::ifm_scale_mode get_scale_mode() const + { + return static_cast<::ifm_scale_mode>(scale_mode); + } + CONSTEXPR npu_set_ifm_precision_t &set_scale_mode(::ifm_scale_mode value) + { + scale_mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// b[1:0] = upscale mode (0=none, 1=2x2 nearest, 2=2x2 transpose) +struct npu_set_ifm_upscale_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_UPSCALE + uint32_t must_be_zero0 : 6; // 0 + uint32_t mode : 2; + uint32_t reserved0 : 14; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_UPSCALE) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_UPSCALE); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_upscale_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::resampling_mode get_mode() const + { + return static_cast<::resampling_mode>(mode); + } + CONSTEXPR npu_set_ifm_upscale_t &set_mode(::resampling_mode value) + { + mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Zero point offset (so value that 0 is encoded as) +struct npu_set_ifm_zero_point_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_ZERO_POINT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_ZERO_POINT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_ZERO_POINT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_zero_point_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_zero_point_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM Tile 0 and tile 2 (width-1) +struct npu_set_ifm_width0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_WIDTH0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_WIDTH0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_WIDTH0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_width0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_width0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM Tile 0 (height-1) +struct npu_set_ifm_height0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_HEIGHT0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_HEIGHT0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_HEIGHT0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_height0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_height0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM Tile 1 (height-1) +struct npu_set_ifm_height1_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_HEIGHT1_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_HEIGHT1_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_HEIGHT1_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_height1_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_height1_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// End of IB0,IB1 buffers in the SHRAM in KB units. Multiple of 2. +struct npu_set_ifm_ib_end_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_IB_END + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_IB_END) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_IB_END); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_ib_end_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_ib_end_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Index n for IFM access: BasePointer[n] is added to all IFM offsets +struct npu_set_ifm_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm_region_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Output feature map width -1 (for the stripe to process) +struct npu_set_ofm_width_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_WIDTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_WIDTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_WIDTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_width_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_width_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Output feature map height -1 (for the stripe to process) +struct npu_set_ofm_height_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_HEIGHT_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_HEIGHT_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_HEIGHT_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_height_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_height_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Output feature map depth -1 (for the stripe to process) +struct npu_set_ofm_depth_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_DEPTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_DEPTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_DEPTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_depth_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_depth_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM precision +struct npu_set_ofm_precision_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_PRECISION + uint32_t must_be_zero0 : 6; // 0 + uint32_t precision : 3; + uint32_t reserved0 : 3; + uint32_t format : 2; + uint32_t scaling : 1; // 0=Per channel scale/bias 1=Global scale (SET_OFM_SCALE), no bias + uint32_t reserved1 : 5; + uint32_t rounding : 2; // 0=TFL rounding 1=truncate towards zero 2=natural rounding +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_PRECISION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_PRECISION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_precision_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::data_format get_format() const + { + return static_cast<::data_format>(format); + } + CONSTEXPR npu_set_ofm_precision_t &set_format(::data_format value) + { + format = static_cast(value); + return *this; + } + CONSTEXPR ::ofm_precision get_precision() const + { + return static_cast<::ofm_precision>(precision); + } + CONSTEXPR npu_set_ofm_precision_t &set_precision(::ofm_precision value) + { + precision = static_cast(value); + return *this; + } + CONSTEXPR ::rounding get_rounding() const + { + return static_cast<::rounding>(rounding); + } + CONSTEXPR npu_set_ofm_precision_t &set_rounding(::rounding value) + { + rounding = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_scaling() const + { + return static_cast(scaling); + } + CONSTEXPR npu_set_ofm_precision_t &set_scaling(uint32_t value) + { + scaling = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// TSU block width - 1 (provided sufficient data remaining) +struct npu_set_ofm_blk_width_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BLK_WIDTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_BLK_WIDTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_BLK_WIDTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_blk_width_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_blk_width_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// TSU block height -1 (provided sufficient data remaining) +struct npu_set_ofm_blk_height_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BLK_HEIGHT_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_BLK_HEIGHT_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_BLK_HEIGHT_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_blk_height_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_blk_height_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// TSU block depth -1 (provided sufficient data remaining) +struct npu_set_ofm_blk_depth_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BLK_DEPTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_BLK_DEPTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_BLK_DEPTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_blk_depth_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_blk_depth_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Zero point offset (so value that 0 is encoded as) +struct npu_set_ofm_zero_point_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_ZERO_POINT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_ZERO_POINT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_ZERO_POINT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_zero_point_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_zero_point_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// OFM Tile 0 and tile 2 (width-1) +struct npu_set_ofm_width0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_WIDTH0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_WIDTH0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_WIDTH0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_width0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_width0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// OFM Tile 0 (height-1) +struct npu_set_ofm_height0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_HEIGHT0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_HEIGHT0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_HEIGHT0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_height0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_height0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// OFM Tile 1 (height-1) +struct npu_set_ofm_height1_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_HEIGHT1_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_HEIGHT1_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_HEIGHT1_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_height1_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_height1_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Index n for OFM access: BasePointer[n] is added to all OFM offsets +struct npu_set_ofm_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_OFM_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_OFM_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ofm_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ofm_region_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set kernel width - 1 +struct npu_set_kernel_width_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_KERNEL_WIDTH_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_KERNEL_WIDTH_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_KERNEL_WIDTH_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_kernel_width_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_kernel_width_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set kernel height - 1 +struct npu_set_kernel_height_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_KERNEL_HEIGHT_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_KERNEL_HEIGHT_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_KERNEL_HEIGHT_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_kernel_height_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_kernel_height_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Kernel stride b0=X stride-1, b1=Y stride-1, b2=weight order (0=depth, 1=kernel) b3 = kernel_x_dilation - 1 (0=no x +// dilation, 1=x dilation of x2) b4 = kernel_y_dilation -1 (0=no y dilation, 1=y dilation of x2) b5 = kernel +// decomposition size (0 for kernel_split_size=8, 1 for kernel_split_size=4) +struct npu_set_kernel_stride_t +{ + uint32_t cmd_code : 10; // NPU_SET_KERNEL_STRIDE + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_KERNEL_STRIDE) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_KERNEL_STRIDE); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_kernel_stride_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_kernel_stride_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// 0=1-core, 1=2-core depth +struct npu_set_parallel_mode_t +{ + uint32_t cmd_code : 10; // NPU_SET_PARALLEL_MODE + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_PARALLEL_MODE) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_PARALLEL_MODE); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_parallel_mode_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_parallel_mode_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set accumulator format +struct npu_set_acc_format_t +{ + uint32_t cmd_code : 10; // NPU_SET_ACC_FORMAT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_ACC_FORMAT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_ACC_FORMAT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_acc_format_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::acc_format get_param() const + { + return static_cast<::acc_format>(param); + } + CONSTEXPR npu_set_acc_format_t &set_param(::acc_format value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set activation +struct npu_set_activation_t +{ + uint32_t cmd_code : 10; // NPU_SET_ACTIVATION + uint32_t must_be_zero0 : 6; // 0 + uint32_t type : 12; + uint32_t act_clip_range : 4; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_ACTIVATION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_ACTIVATION); + must_be_zero0 = 0; + } + CONSTEXPR ::clip_range get_act_clip_range() const + { + return static_cast<::clip_range>(act_clip_range); + } + CONSTEXPR npu_set_activation_t &set_act_clip_range(::clip_range value) + { + act_clip_range = static_cast(value); + return *this; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_activation_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::activation get_type() const + { + return static_cast<::activation>(type); + } + CONSTEXPR npu_set_activation_t &set_type(::activation value) + { + type = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Lower bound clip for OFM activations – range is the OFM type range +struct npu_set_activation_min_t +{ + uint32_t cmd_code : 10; // NPU_SET_ACTIVATION_MIN + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_ACTIVATION_MIN) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_ACTIVATION_MIN); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_activation_min_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_activation_min_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Upper bound clip for OFM activations – range is the OFM type range +struct npu_set_activation_max_t +{ + uint32_t cmd_code : 10; // NPU_SET_ACTIVATION_MAX + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_ACTIVATION_MAX) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_ACTIVATION_MAX); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_activation_max_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_activation_max_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Index n for weight access: BasePointer[n] is added to all Weight stream offsets +struct npu_set_weight_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_WEIGHT_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_WEIGHT_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_WEIGHT_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_weight_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_weight_region_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Index n for weight access: BasePointer[n] is added to all scale stream offsets +struct npu_set_scale_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_SCALE_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_SCALE_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_SCALE_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_scale_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_scale_region_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start of ACC0,ACC1 buffers in the SHRAM in KB units. Multiple of 4.) +struct npu_set_ab_start_t +{ + uint32_t cmd_code : 10; // NPU_SET_AB_START + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_AB_START) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_AB_START); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ab_start_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ab_start_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set block number of blocks dependency between kernel operations +struct npu_set_blockdep_t +{ + uint32_t cmd_code : 10; // NPU_SET_BLOCKDEP + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_BLOCKDEP) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_BLOCKDEP); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_blockdep_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_blockdep_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// DMA0 SRC region bitmap +struct npu_set_dma0_src_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SRC_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t region : 8; // If Bit[8]=0, Bit[7:0]=Region number in the range [0, 8) of SRC offset. If Bit[8]=1, + // Bit[7:0]=Core number (0 or 1) to read. + uint32_t internal : 1; // Must be 0 (external) + uint32_t stride_mode : 2; // stride mode 0/1/2=1D/2D/3D + uint32_t reserved0 : 5; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_DMA0_SRC_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_DMA0_SRC_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_dma0_src_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_internal() const + { + return static_cast(internal); + } + CONSTEXPR npu_set_dma0_src_region_t &set_internal(uint32_t value) + { + internal = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_region() const + { + return static_cast(region); + } + CONSTEXPR npu_set_dma0_src_region_t &set_region(uint32_t value) + { + region = static_cast(value); + return *this; + } + CONSTEXPR ::stride_mode get_stride_mode() const + { + return static_cast<::stride_mode>(stride_mode); + } + CONSTEXPR npu_set_dma0_src_region_t &set_stride_mode(::stride_mode value) + { + stride_mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// DMA0 DST region bitmap +struct npu_set_dma0_dst_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_DST_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t region : 8; // If Bit[8]=0, Bit[7:0]=Region number in the range [0, 8) of DST offset. If Bit[8]=1, + // Bit[7:0]=Core mask to write to (bit k set for core k=0,1). + uint32_t internal : 1; // Select external/internal=0/1 + uint32_t stride_mode : 2; // stride mode 0/1/2=1D/2D/3D + uint32_t reserved0 : 5; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_DMA0_DST_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_DMA0_DST_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_dma0_dst_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_internal() const + { + return static_cast(internal); + } + CONSTEXPR npu_set_dma0_dst_region_t &set_internal(uint32_t value) + { + internal = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_region() const + { + return static_cast(region); + } + CONSTEXPR npu_set_dma0_dst_region_t &set_region(uint32_t value) + { + region = static_cast(value); + return *this; + } + CONSTEXPR ::stride_mode get_stride_mode() const + { + return static_cast<::stride_mode>(stride_mode); + } + CONSTEXPR npu_set_dma0_dst_region_t &set_stride_mode(::stride_mode value) + { + stride_mode = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Inner size for 2D/3D mode. +struct npu_set_dma0_size0_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SIZE0 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_DMA0_SIZE0) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_DMA0_SIZE0); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_dma0_size0_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_dma0_size0_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Outer size for 3D mode. +struct npu_set_dma0_size1_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SIZE1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_DMA0_SIZE1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_DMA0_SIZE1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_dma0_size1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_dma0_size1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 Broadcast mode +struct npu_set_ifm2_broadcast_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_BROADCAST + uint32_t must_be_zero0 : 6; // 0 + uint32_t broadcast_height : 1; + uint32_t broadcast_width : 1; + uint32_t broadcast_depth : 1; + uint32_t reserved0 : 3; + uint32_t operand_order : 1; + uint32_t broadcast_scalar : 1; + uint32_t reserved1 : 8; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_BROADCAST) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_BROADCAST); + must_be_zero0 = 0; + } + CONSTEXPR uint32_t get_broadcast_depth() const + { + return static_cast(broadcast_depth); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_broadcast_depth(uint32_t value) + { + broadcast_depth = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_broadcast_height() const + { + return static_cast(broadcast_height); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_broadcast_height(uint32_t value) + { + broadcast_height = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_broadcast_scalar() const + { + return static_cast(broadcast_scalar); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_broadcast_scalar(uint32_t value) + { + broadcast_scalar = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_broadcast_width() const + { + return static_cast(broadcast_width); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_broadcast_width(uint32_t value) + { + broadcast_width = static_cast(value); + return *this; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_operand_order() const + { + return static_cast(operand_order); + } + CONSTEXPR npu_set_ifm2_broadcast_t &set_operand_order(uint32_t value) + { + operand_order = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM2 scalar value at range IFM_PRECISION +struct npu_set_ifm2_scalar_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_SCALAR + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_SCALAR) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_SCALAR); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_scalar_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_scalar_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set activation +struct npu_set_ifm2_precision_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_PRECISION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 4; + uint32_t reserved0 : 2; + uint32_t format : 2; + uint32_t reserved1 : 8; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_PRECISION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_PRECISION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_precision_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR ::data_format get_format() const + { + return static_cast<::data_format>(format); + } + CONSTEXPR npu_set_ifm2_precision_t &set_format(::data_format value) + { + format = static_cast(value); + return *this; + } + CONSTEXPR ::ifm_precision get_param() const + { + return static_cast<::ifm_precision>(param); + } + CONSTEXPR npu_set_ifm2_precision_t &set_param(::ifm_precision value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Zero point offset (so value that 0 is encoded as) at range IFM_PRECISION +struct npu_set_ifm2_zero_point_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_ZERO_POINT + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_ZERO_POINT) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_ZERO_POINT); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_zero_point_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_zero_point_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM2 Tile 0 and tile 2 (width-1) +struct npu_set_ifm2_width0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_WIDTH0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_WIDTH0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_WIDTH0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_width0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_width0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM2 Tile 0 (height-1) +struct npu_set_ifm2_height0_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_HEIGHT0_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_HEIGHT0_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_HEIGHT0_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_height0_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_height0_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// IFM2 Tile 1 (height-1) +struct npu_set_ifm2_height1_m1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_HEIGHT1_M1 + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_HEIGHT1_M1) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_HEIGHT1_M1); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_height1_m1_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_height1_m1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Start of IB0, IB1 buffers for IFM2 in SHRAM. In KB units, multiple of 2. +struct npu_set_ifm2_ib_start_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_IB_START + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_IB_START) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_IB_START); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_ib_start_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_ib_start_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Index n for IFM2 access: Region[n] is added to all IFM2 addresses +struct npu_set_ifm2_region_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_REGION + uint32_t must_be_zero0 : 6; // 0 + uint32_t param : 16; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd0::NPU_SET_IFM2_REGION) && must_be_zero0 == 0; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd0::NPU_SET_IFM2_REGION); + must_be_zero0 = 0; + } + CONSTEXPR ::cmd0 get_cmd_code() const + { + return static_cast<::cmd0>(cmd_code); + } + CONSTEXPR npu_set_ifm2_region_t &set_cmd_code(::cmd0 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_ifm2_region_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM base address (top left tile) +struct npu_set_ifm_base0_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_BASE0 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM base address (top left tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_BASE0) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_BASE0); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_base0_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_base0_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_base0_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM base address (top right tile) +struct npu_set_ifm_base1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_BASE1 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM base address (top right tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_BASE1) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_BASE1); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_base1_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_base1_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_base1_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM base address (bottom left tile) +struct npu_set_ifm_base2_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_BASE2 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM base address (bottom left tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_BASE2) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_BASE2); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_base2_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_base2_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_base2_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM base address (bottom right tile) +struct npu_set_ifm_base3_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_BASE3 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM base address (bottom right tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_BASE3) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_BASE3); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_base3_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_base3_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_base3_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM byte stride between horizontal values +struct npu_set_ifm_stride_x_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_STRIDE_X + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM byte stride between horizontal values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_STRIDE_X) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_STRIDE_X); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_stride_x_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_stride_x_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_stride_x_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM byte stride between vertical values +struct npu_set_ifm_stride_y_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_STRIDE_Y + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM byte stride between vertical values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_STRIDE_Y) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_STRIDE_Y); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_stride_y_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_stride_y_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_stride_y_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM byte stride between channel blocks (of 16 bytes each block) +struct npu_set_ifm_stride_c_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM_STRIDE_C + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM byte stride between channel blocks (of 16 bytes each block) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM_STRIDE_C) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM_STRIDE_C); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm_stride_c_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm_stride_c_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm_stride_c_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM base address (top left tile) +struct npu_set_ofm_base0_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BASE0 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM base address (top left tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_BASE0) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_BASE0); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_base0_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_base0_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_base0_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM base address (top right tile) +struct npu_set_ofm_base1_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BASE1 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM base address (top right tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_BASE1) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_BASE1); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_base1_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_base1_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_base1_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM base address (bottom left tile) +struct npu_set_ofm_base2_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BASE2 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM base address (bottom left tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_BASE2) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_BASE2); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_base2_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_base2_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_base2_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM base address (bottom right tile) +struct npu_set_ofm_base3_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_BASE3 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM base address (bottom right tile) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_BASE3) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_BASE3); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_base3_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_base3_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_base3_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM byte stride between horizontal values +struct npu_set_ofm_stride_x_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_STRIDE_X + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM byte stride between horizontal values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_STRIDE_X) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_STRIDE_X); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_stride_x_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_stride_x_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_stride_x_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM byte stride between vertical values +struct npu_set_ofm_stride_y_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_STRIDE_Y + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM byte stride between vertical values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_STRIDE_Y) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_STRIDE_Y); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_stride_y_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_stride_y_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_stride_y_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set OFM byte stride between channel blocks (of 16 bytes each block) +struct npu_set_ofm_stride_c_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_STRIDE_C + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // OFM byte stride between channel blocks (of 16 bytes each block) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_STRIDE_C) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_STRIDE_C); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_stride_c_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_stride_c_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_stride_c_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Weight stream input base address +struct npu_set_weight_base_t +{ + uint32_t cmd_code : 10; // NPU_SET_WEIGHT_BASE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Weight stream input base address +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_WEIGHT_BASE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_WEIGHT_BASE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_weight_base_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_weight_base_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_weight_base_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Weight stream length +struct npu_set_weight_length_t +{ + uint32_t cmd_code : 10; // NPU_SET_WEIGHT_LENGTH + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Weight stream length +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_WEIGHT_LENGTH) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_WEIGHT_LENGTH); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_weight_length_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_weight_length_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_weight_length_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Scale and bias stream input base address +struct npu_set_scale_base_t +{ + uint32_t cmd_code : 10; // NPU_SET_SCALE_BASE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Scale and bias stream input base address +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_SCALE_BASE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_SCALE_BASE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_scale_base_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_scale_base_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_scale_base_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Scale and bias stream input length +struct npu_set_scale_length_t +{ + uint32_t cmd_code : 10; // NPU_SET_SCALE_LENGTH + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Scale and bias stream input length +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_SCALE_LENGTH) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_SCALE_LENGTH); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_scale_length_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_scale_length_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_scale_length_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set scale (32-bit). Used by average pool with pad=0, elementwise MUL, ADD, SUB +struct npu_set_ofm_scale_t +{ + uint32_t cmd_code : 10; // NPU_SET_OFM_SCALE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t shift : 16; + uint32_t data : 32; // scale (32-bit). Used by average pool with pad=0, elementwise MUL, ADD, SUB +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OFM_SCALE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OFM_SCALE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ofm_scale_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ofm_scale_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ofm_scale_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_shift() const + { + return static_cast(shift); + } + CONSTEXPR npu_set_ofm_scale_t &set_shift(uint32_t value) + { + shift = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set scale (32-bit) used for elementwise ADD/SUB OPA prescale. If IFM scale mode is 0 then shift is ignored and scale +// is 16-bit. If IFM scale mode is 1 or 2 then shift is 6-bit and scale is 32-bit +struct npu_set_opa_scale_t +{ + uint32_t cmd_code : 10; // NPU_SET_OPA_SCALE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t shift : 16; + uint32_t + data : 32; // scale (32-bit) used for elementwise ADD/SUB OPA prescale. If IFM scale mode is 0 then shift is + // ignored and scale is 16-bit. If IFM scale mode is 1 or 2 then shift is 6-bit and scale is 32-bit +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OPA_SCALE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OPA_SCALE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_opa_scale_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_opa_scale_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_opa_scale_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_shift() const + { + return static_cast(shift); + } + CONSTEXPR npu_set_opa_scale_t &set_shift(uint32_t value) + { + shift = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set scale (16-bit) used for elementwise ADD/SUB OPB prescale. If IFM scale mode is 0 then scale is 16-bit. If IFM +// scale mode is 1 or 2 then this register is not used +struct npu_set_opb_scale_t +{ + uint32_t cmd_code : 10; // NPU_SET_OPB_SCALE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // scale (16-bit) used for elementwise ADD/SUB OPB prescale. If IFM scale mode is 0 then scale + // is 16-bit. If IFM scale mode is 1 or 2 then this register is not used +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_OPB_SCALE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_OPB_SCALE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_opb_scale_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_opb_scale_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_opb_scale_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set DMA source address +struct npu_set_dma0_src_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SRC + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_DMA0_SRC) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_DMA0_SRC); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_dma0_src_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_dma0_src_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_dma0_src_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set DMA destination address +struct npu_set_dma0_dst_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_DST + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_DMA0_DST) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_DMA0_DST); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_dma0_dst_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_dma0_dst_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_dma0_dst_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set DMA length +struct npu_set_dma0_len_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_LEN + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // DMA length +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_DMA0_LEN) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_DMA0_LEN); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_dma0_len_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_dma0_len_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_dma0_len_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Byte distance to skip after inner size (2D/3D mode) +struct npu_set_dma0_skip0_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SKIP0 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t param : 16; + uint32_t data : 32; // Byte distance to skip after inner size (2D/3D mode) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_DMA0_SKIP0) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_DMA0_SKIP0); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_dma0_skip0_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_dma0_skip0_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_dma0_skip0_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_dma0_skip0_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Byte distance to skip after outer size (3D mode) +struct npu_set_dma0_skip1_t +{ + uint32_t cmd_code : 10; // NPU_SET_DMA0_SKIP1 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t param : 16; + uint32_t data : 32; // Byte distance to skip after outer size (3D mode) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_DMA0_SKIP1) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_DMA0_SKIP1); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_dma0_skip1_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_dma0_skip1_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_dma0_skip1_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_dma0_skip1_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 tile0 offset (top left tile) from IFM_REGION start +struct npu_set_ifm2_base0_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_BASE0 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 tile0 offset (top left tile) from IFM_REGION start +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_BASE0) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_BASE0); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_base0_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_base0_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_base0_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 tile1 offset (top right tile) from IFM_REGION start +struct npu_set_ifm2_base1_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_BASE1 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 tile1 offset (top right tile) from IFM_REGION start +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_BASE1) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_BASE1); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_base1_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_base1_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_base1_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 tile2 offset (bottom left tile) from IFM_REGION start +struct npu_set_ifm2_base2_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_BASE2 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 tile2 offset (bottom left tile) from IFM_REGION start +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_BASE2) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_BASE2); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_base2_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_base2_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_base2_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 tile3 offset (bottom right tile) from IFM_REGION start +struct npu_set_ifm2_base3_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_BASE3 + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 tile3 offset (bottom right tile) from IFM_REGION start +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_BASE3) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_BASE3); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_base3_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_base3_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_base3_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 byte stride between horizontal values +struct npu_set_ifm2_stride_x_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_STRIDE_X + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 byte stride between horizontal values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_STRIDE_X) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_STRIDE_X); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_stride_x_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_stride_x_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_stride_x_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 byte stride between vertical values +struct npu_set_ifm2_stride_y_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_STRIDE_Y + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 byte stride between vertical values +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_STRIDE_Y) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_STRIDE_Y); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_stride_y_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_stride_y_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_stride_y_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set IFM2 byte stride between channel blocks (of 16 bytes each block) +struct npu_set_ifm2_stride_c_t +{ + uint32_t cmd_code : 10; // NPU_SET_IFM2_STRIDE_C + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // IFM2 byte stride between channel blocks (of 16 bytes each block) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_IFM2_STRIDE_C) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_IFM2_STRIDE_C); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_ifm2_stride_c_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_ifm2_stride_c_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_ifm2_stride_c_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Weight stream byte offset in WEIGHT_REGION +struct npu_set_weight1_base_t +{ + uint32_t cmd_code : 10; // NPU_SET_WEIGHT1_BASE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t param : 16; + uint32_t data : 32; // Weight stream byte offset in WEIGHT_REGION +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_WEIGHT1_BASE) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_WEIGHT1_BASE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_weight1_base_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_weight1_base_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_weight1_base_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_weight1_base_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Weight stream byte length (unsigned 32 bits) +struct npu_set_weight1_length_t +{ + uint32_t cmd_code : 10; // NPU_SET_WEIGHT1_LENGTH + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Weight stream byte length (unsigned 32 bits) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_WEIGHT1_LENGTH) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_WEIGHT1_LENGTH); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_weight1_length_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_weight1_length_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_weight1_length_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Scale and bias stream input byte offset from SCALE_REGION +struct npu_set_scale1_base_t +{ + uint32_t cmd_code : 10; // NPU_SET_SCALE1_BASE + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t param : 16; + uint32_t data : 32; // Scale and bias stream input byte offset from SCALE_REGION +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_SCALE1_BASE) && must_be_zero == 0 && payload_size >= 1 && + payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_SCALE1_BASE); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_scale1_base_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_scale1_base_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_param() const + { + return static_cast(param); + } + CONSTEXPR npu_set_scale1_base_t &set_param(uint32_t value) + { + param = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_scale1_base_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +// Set Scale and bias stream input byte length (unsigned 20 bits) +struct npu_set_scale1_length_t +{ + uint32_t cmd_code : 10; // NPU_SET_SCALE1_LENGTH + uint32_t must_be_zero : 4; // 0 + uint32_t payload_size : 2; // Min:1 Max:2 + uint32_t reserved0 : 16; + uint32_t data : 32; // Scale and bias stream input byte length (unsigned 20 bits) +#ifdef __cplusplus + CONSTEXPR bool valid() const + { + return cmd_code == static_cast(cmd1::NPU_SET_SCALE1_LENGTH) && must_be_zero == 0 && + payload_size >= 1 && payload_size <= 2; + } + CONSTEXPR void init() + { + cmd_code = static_cast(cmd1::NPU_SET_SCALE1_LENGTH); + must_be_zero = 0; + payload_size = 1; + } + CONSTEXPR ::cmd1 get_cmd_code() const + { + return static_cast<::cmd1>(cmd_code); + } + CONSTEXPR npu_set_scale1_length_t &set_cmd_code(::cmd1 value) + { + cmd_code = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_data() const + { + return static_cast(data); + } + CONSTEXPR npu_set_scale1_length_t &set_data(uint32_t value) + { + data = static_cast(value); + return *this; + } + CONSTEXPR uint32_t get_payload_size() const + { + return static_cast(payload_size); + } + CONSTEXPR npu_set_scale1_length_t &set_payload_size(uint32_t value) + { + payload_size = static_cast(value); + return *this; + } +#endif //__cplusplus +}; + +#define NPU_DATA_STRUCTS \ + NPU_STRUCT(command_no_payload) \ + NPU_STRUCT(command_with_payload) \ + NPU_STRUCT(npu_op_stop) \ + NPU_STRUCT(npu_op_irq) \ + NPU_STRUCT(npu_op_conv) \ + NPU_STRUCT(npu_op_depthwise) \ + NPU_STRUCT(npu_op_pool) \ + NPU_STRUCT(npu_op_elementwise) \ + NPU_STRUCT(npu_op_dma_start) \ + NPU_STRUCT(npu_op_dma_wait) \ + NPU_STRUCT(npu_op_kernel_wait) \ + NPU_STRUCT(npu_op_pmu_mask) \ + NPU_STRUCT(npu_set_ifm_pad_top) \ + NPU_STRUCT(npu_set_ifm_pad_left) \ + NPU_STRUCT(npu_set_ifm_pad_right) \ + NPU_STRUCT(npu_set_ifm_pad_bottom) \ + NPU_STRUCT(npu_set_ifm_depth_m1) \ + NPU_STRUCT(npu_set_ifm_precision) \ + NPU_STRUCT(npu_set_ifm_upscale) \ + NPU_STRUCT(npu_set_ifm_zero_point) \ + NPU_STRUCT(npu_set_ifm_width0_m1) \ + NPU_STRUCT(npu_set_ifm_height0_m1) \ + NPU_STRUCT(npu_set_ifm_height1_m1) \ + NPU_STRUCT(npu_set_ifm_ib_end) \ + NPU_STRUCT(npu_set_ifm_region) \ + NPU_STRUCT(npu_set_ofm_width_m1) \ + NPU_STRUCT(npu_set_ofm_height_m1) \ + NPU_STRUCT(npu_set_ofm_depth_m1) \ + NPU_STRUCT(npu_set_ofm_precision) \ + NPU_STRUCT(npu_set_ofm_blk_width_m1) \ + NPU_STRUCT(npu_set_ofm_blk_height_m1) \ + NPU_STRUCT(npu_set_ofm_blk_depth_m1) \ + NPU_STRUCT(npu_set_ofm_zero_point) \ + NPU_STRUCT(npu_set_ofm_width0_m1) \ + NPU_STRUCT(npu_set_ofm_height0_m1) \ + NPU_STRUCT(npu_set_ofm_height1_m1) \ + NPU_STRUCT(npu_set_ofm_region) \ + NPU_STRUCT(npu_set_kernel_width_m1) \ + NPU_STRUCT(npu_set_kernel_height_m1) \ + NPU_STRUCT(npu_set_kernel_stride) \ + NPU_STRUCT(npu_set_parallel_mode) \ + NPU_STRUCT(npu_set_acc_format) \ + NPU_STRUCT(npu_set_activation) \ + NPU_STRUCT(npu_set_activation_min) \ + NPU_STRUCT(npu_set_activation_max) \ + NPU_STRUCT(npu_set_weight_region) \ + NPU_STRUCT(npu_set_scale_region) \ + NPU_STRUCT(npu_set_ab_start) \ + NPU_STRUCT(npu_set_blockdep) \ + NPU_STRUCT(npu_set_dma0_src_region) \ + NPU_STRUCT(npu_set_dma0_dst_region) \ + NPU_STRUCT(npu_set_dma0_size0) \ + NPU_STRUCT(npu_set_dma0_size1) \ + NPU_STRUCT(npu_set_ifm2_broadcast) \ + NPU_STRUCT(npu_set_ifm2_scalar) \ + NPU_STRUCT(npu_set_ifm2_precision) \ + NPU_STRUCT(npu_set_ifm2_zero_point) \ + NPU_STRUCT(npu_set_ifm2_width0_m1) \ + NPU_STRUCT(npu_set_ifm2_height0_m1) \ + NPU_STRUCT(npu_set_ifm2_height1_m1) \ + NPU_STRUCT(npu_set_ifm2_ib_start) \ + NPU_STRUCT(npu_set_ifm2_region) \ + NPU_STRUCT(npu_set_ifm_base0) \ + NPU_STRUCT(npu_set_ifm_base1) \ + NPU_STRUCT(npu_set_ifm_base2) \ + NPU_STRUCT(npu_set_ifm_base3) \ + NPU_STRUCT(npu_set_ifm_stride_x) \ + NPU_STRUCT(npu_set_ifm_stride_y) \ + NPU_STRUCT(npu_set_ifm_stride_c) \ + NPU_STRUCT(npu_set_ofm_base0) \ + NPU_STRUCT(npu_set_ofm_base1) \ + NPU_STRUCT(npu_set_ofm_base2) \ + NPU_STRUCT(npu_set_ofm_base3) \ + NPU_STRUCT(npu_set_ofm_stride_x) \ + NPU_STRUCT(npu_set_ofm_stride_y) \ + NPU_STRUCT(npu_set_ofm_stride_c) \ + NPU_STRUCT(npu_set_weight_base) \ + NPU_STRUCT(npu_set_weight_length) \ + NPU_STRUCT(npu_set_scale_base) \ + NPU_STRUCT(npu_set_scale_length) \ + NPU_STRUCT(npu_set_ofm_scale) \ + NPU_STRUCT(npu_set_opa_scale) \ + NPU_STRUCT(npu_set_opb_scale) \ + NPU_STRUCT(npu_set_dma0_src) \ + NPU_STRUCT(npu_set_dma0_dst) \ + NPU_STRUCT(npu_set_dma0_len) \ + NPU_STRUCT(npu_set_dma0_skip0) \ + NPU_STRUCT(npu_set_dma0_skip1) \ + NPU_STRUCT(npu_set_ifm2_base0) \ + NPU_STRUCT(npu_set_ifm2_base1) \ + NPU_STRUCT(npu_set_ifm2_base2) \ + NPU_STRUCT(npu_set_ifm2_base3) \ + NPU_STRUCT(npu_set_ifm2_stride_x) \ + NPU_STRUCT(npu_set_ifm2_stride_y) \ + NPU_STRUCT(npu_set_ifm2_stride_c) \ + NPU_STRUCT(npu_set_weight1_base) \ + NPU_STRUCT(npu_set_weight1_length) \ + NPU_STRUCT(npu_set_scale1_base) \ + NPU_STRUCT(npu_set_scale1_length) +#define NPU_OP_STRUCTS \ + NPU_OP_(stop) \ + NPU_OP_(irq) \ + NPU_OP_(conv) \ + NPU_OP_(depthwise) \ + NPU_OP_(pool) \ + NPU_OP_(elementwise) \ + NPU_OP_(dma_start) \ + NPU_OP_(dma_wait) \ + NPU_OP_(kernel_wait) \ + NPU_OP_(pmu_mask) +#define NPU_SET_STRUCTS \ + NPU_SET_(ifm_pad_top) \ + NPU_SET_(ifm_pad_left) \ + NPU_SET_(ifm_pad_right) \ + NPU_SET_(ifm_pad_bottom) \ + NPU_SET_(ifm_depth_m1) \ + NPU_SET_(ifm_precision) \ + NPU_SET_(ifm_upscale) \ + NPU_SET_(ifm_zero_point) \ + NPU_SET_(ifm_width0_m1) \ + NPU_SET_(ifm_height0_m1) \ + NPU_SET_(ifm_height1_m1) \ + NPU_SET_(ifm_ib_end) \ + NPU_SET_(ifm_region) \ + NPU_SET_(ofm_width_m1) \ + NPU_SET_(ofm_height_m1) \ + NPU_SET_(ofm_depth_m1) \ + NPU_SET_(ofm_precision) \ + NPU_SET_(ofm_blk_width_m1) \ + NPU_SET_(ofm_blk_height_m1) \ + NPU_SET_(ofm_blk_depth_m1) \ + NPU_SET_(ofm_zero_point) \ + NPU_SET_(ofm_width0_m1) \ + NPU_SET_(ofm_height0_m1) \ + NPU_SET_(ofm_height1_m1) \ + NPU_SET_(ofm_region) \ + NPU_SET_(kernel_width_m1) \ + NPU_SET_(kernel_height_m1) \ + NPU_SET_(kernel_stride) \ + NPU_SET_(parallel_mode) \ + NPU_SET_(acc_format) \ + NPU_SET_(activation) \ + NPU_SET_(activation_min) \ + NPU_SET_(activation_max) \ + NPU_SET_(weight_region) \ + NPU_SET_(scale_region) \ + NPU_SET_(ab_start) \ + NPU_SET_(blockdep) \ + NPU_SET_(dma0_src_region) \ + NPU_SET_(dma0_dst_region) \ + NPU_SET_(dma0_size0) \ + NPU_SET_(dma0_size1) \ + NPU_SET_(ifm2_broadcast) \ + NPU_SET_(ifm2_scalar) \ + NPU_SET_(ifm2_precision) \ + NPU_SET_(ifm2_zero_point) \ + NPU_SET_(ifm2_width0_m1) \ + NPU_SET_(ifm2_height0_m1) \ + NPU_SET_(ifm2_height1_m1) \ + NPU_SET_(ifm2_ib_start) \ + NPU_SET_(ifm2_region) \ + NPU_SET_(ifm_base0) \ + NPU_SET_(ifm_base1) \ + NPU_SET_(ifm_base2) \ + NPU_SET_(ifm_base3) \ + NPU_SET_(ifm_stride_x) \ + NPU_SET_(ifm_stride_y) \ + NPU_SET_(ifm_stride_c) \ + NPU_SET_(ofm_base0) \ + NPU_SET_(ofm_base1) \ + NPU_SET_(ofm_base2) \ + NPU_SET_(ofm_base3) \ + NPU_SET_(ofm_stride_x) \ + NPU_SET_(ofm_stride_y) \ + NPU_SET_(ofm_stride_c) \ + NPU_SET_(weight_base) \ + NPU_SET_(weight_length) \ + NPU_SET_(scale_base) \ + NPU_SET_(scale_length) \ + NPU_SET_(ofm_scale) \ + NPU_SET_(opa_scale) \ + NPU_SET_(opb_scale) \ + NPU_SET_(dma0_src) \ + NPU_SET_(dma0_dst) \ + NPU_SET_(dma0_len) \ + NPU_SET_(dma0_skip0) \ + NPU_SET_(dma0_skip1) \ + NPU_SET_(ifm2_base0) \ + NPU_SET_(ifm2_base1) \ + NPU_SET_(ifm2_base2) \ + NPU_SET_(ifm2_base3) \ + NPU_SET_(ifm2_stride_x) \ + NPU_SET_(ifm2_stride_y) \ + NPU_SET_(ifm2_stride_c) \ + NPU_SET_(weight1_base) \ + NPU_SET_(weight1_length) \ + NPU_SET_(scale1_base) \ + NPU_SET_(scale1_length) +#define COMMAND_STRUCTS \ + COMMAND_(no_payload) \ + COMMAND_(with_payload) + +#define EXPAND_ACC_FORMAT(FUNC, SEP) \ + FUNC(acc_format, INT_32BIT) SEP FUNC(acc_format, INT_40BIT) SEP FUNC(acc_format, FP_S5_10) + +#define EXPAND_ACTIVATION(FUNC, SEP) \ + FUNC(activation, NONE) \ + SEP FUNC(activation, TANH) SEP FUNC(activation, SIGMOID) SEP FUNC(activation, LUT_START) \ + SEP FUNC(activation, LUT_END) + +#define EXPAND_CLIP_RANGE(FUNC, SEP) \ + FUNC(clip_range, OFM_PRECISION) \ + SEP FUNC(clip_range, FORCE_UINT8) SEP FUNC(clip_range, FORCE_INT8) SEP FUNC(clip_range, FORCE_INT16) + +#define EXPAND_CMD0(FUNC, SEP) \ + FUNC(cmd0, NPU_OP_STOP) \ + SEP FUNC(cmd0, NPU_OP_IRQ) SEP FUNC(cmd0, NPU_OP_CONV) SEP FUNC(cmd0, NPU_OP_DEPTHWISE) SEP FUNC( \ + cmd0, NPU_OP_POOL) SEP FUNC(cmd0, NPU_OP_ELEMENTWISE) SEP FUNC(cmd0, NPU_OP_DMA_START) \ + SEP FUNC(cmd0, NPU_OP_DMA_WAIT) SEP FUNC(cmd0, NPU_OP_KERNEL_WAIT) SEP FUNC(cmd0, NPU_OP_PMU_MASK) SEP FUNC( \ + cmd0, NPU_SET_IFM_PAD_TOP) SEP FUNC(cmd0, NPU_SET_IFM_PAD_LEFT) SEP FUNC(cmd0, NPU_SET_IFM_PAD_RIGHT) \ + SEP FUNC(cmd0, NPU_SET_IFM_PAD_BOTTOM) SEP FUNC(cmd0, NPU_SET_IFM_DEPTH_M1) SEP FUNC( \ + cmd0, NPU_SET_IFM_PRECISION) SEP FUNC(cmd0, NPU_SET_IFM_UPSCALE) \ + SEP FUNC(cmd0, NPU_SET_IFM_ZERO_POINT) SEP FUNC(cmd0, NPU_SET_IFM_WIDTH0_M1) SEP FUNC( \ + cmd0, NPU_SET_IFM_HEIGHT0_M1) SEP FUNC(cmd0, NPU_SET_IFM_HEIGHT1_M1) SEP FUNC(cmd0, \ + NPU_SET_IFM_IB_END) \ + SEP FUNC(cmd0, NPU_SET_IFM_REGION) SEP FUNC(cmd0, NPU_SET_OFM_WIDTH_M1) SEP FUNC( \ + cmd0, NPU_SET_OFM_HEIGHT_M1) SEP FUNC(cmd0, NPU_SET_OFM_DEPTH_M1) \ + SEP FUNC(cmd0, NPU_SET_OFM_PRECISION) SEP FUNC(cmd0, NPU_SET_OFM_BLK_WIDTH_M1) SEP FUNC( \ + cmd0, NPU_SET_OFM_BLK_HEIGHT_M1) SEP FUNC(cmd0, NPU_SET_OFM_BLK_DEPTH_M1) \ + SEP FUNC(cmd0, NPU_SET_OFM_ZERO_POINT) SEP FUNC(cmd0, NPU_SET_OFM_WIDTH0_M1) SEP FUNC( \ + cmd0, NPU_SET_OFM_HEIGHT0_M1) SEP FUNC(cmd0, NPU_SET_OFM_HEIGHT1_M1) \ + SEP FUNC(cmd0, NPU_SET_OFM_REGION) SEP FUNC(cmd0, NPU_SET_KERNEL_WIDTH_M1) SEP FUNC( \ + cmd0, NPU_SET_KERNEL_HEIGHT_M1) SEP FUNC(cmd0, NPU_SET_KERNEL_STRIDE) \ + SEP FUNC(cmd0, NPU_SET_PARALLEL_MODE) SEP FUNC(cmd0, NPU_SET_ACC_FORMAT) SEP FUNC( \ + cmd0, NPU_SET_ACTIVATION) SEP FUNC(cmd0, NPU_SET_ACTIVATION_MIN) \ + SEP FUNC(cmd0, NPU_SET_ACTIVATION_MAX) SEP FUNC(cmd0, NPU_SET_WEIGHT_REGION) \ + SEP FUNC(cmd0, NPU_SET_SCALE_REGION) SEP FUNC(cmd0, NPU_SET_AB_START) \ + SEP FUNC(cmd0, \ + NPU_SET_BLOCKDEP) SEP FUNC(cmd0, NPU_SET_DMA0_SRC_REGION) \ + SEP FUNC(cmd0, NPU_SET_DMA0_DST_REGION) SEP FUNC( \ + cmd0, NPU_SET_DMA0_SIZE0) SEP FUNC(cmd0, NPU_SET_DMA0_SIZE1) \ + SEP FUNC(cmd0, NPU_SET_IFM2_BROADCAST) \ + SEP FUNC(cmd0, NPU_SET_IFM2_SCALAR) \ + SEP FUNC(cmd0, NPU_SET_IFM2_PRECISION) SEP FUNC( \ + cmd0, NPU_SET_IFM2_ZERO_POINT) \ + SEP FUNC(cmd0, NPU_SET_IFM2_WIDTH0_M1) SEP FUNC( \ + cmd0, NPU_SET_IFM2_HEIGHT0_M1) \ + SEP FUNC(cmd0, NPU_SET_IFM2_HEIGHT1_M1) \ + SEP FUNC(cmd0, NPU_SET_IFM2_IB_START) \ + SEP FUNC(cmd0, NPU_SET_IFM2_REGION) + +#define EXPAND_CMD1(FUNC, SEP) \ + FUNC(cmd1, NPU_SET_IFM_BASE0) \ + SEP FUNC(cmd1, NPU_SET_IFM_BASE1) SEP FUNC(cmd1, NPU_SET_IFM_BASE2) SEP FUNC(cmd1, NPU_SET_IFM_BASE3) \ + SEP FUNC(cmd1, NPU_SET_IFM_STRIDE_X) SEP FUNC(cmd1, NPU_SET_IFM_STRIDE_Y) SEP FUNC(cmd1, NPU_SET_IFM_STRIDE_C) \ + SEP FUNC(cmd1, NPU_SET_OFM_BASE0) SEP FUNC(cmd1, NPU_SET_OFM_BASE1) SEP FUNC(cmd1, NPU_SET_OFM_BASE2) \ + SEP FUNC(cmd1, NPU_SET_OFM_BASE3) SEP FUNC(cmd1, NPU_SET_OFM_STRIDE_X) \ + SEP FUNC(cmd1, NPU_SET_OFM_STRIDE_Y) SEP FUNC(cmd1, NPU_SET_OFM_STRIDE_C) \ + SEP FUNC(cmd1, NPU_SET_WEIGHT_BASE) SEP FUNC(cmd1, NPU_SET_WEIGHT_LENGTH) \ + SEP FUNC(cmd1, NPU_SET_SCALE_BASE) SEP FUNC(cmd1, NPU_SET_SCALE_LENGTH) \ + SEP FUNC(cmd1, NPU_SET_OFM_SCALE) SEP FUNC(cmd1, NPU_SET_OPA_SCALE) \ + SEP FUNC(cmd1, NPU_SET_OPB_SCALE) SEP FUNC(cmd1, NPU_SET_DMA0_SRC) \ + SEP FUNC(cmd1, NPU_SET_DMA0_DST) SEP FUNC(cmd1, NPU_SET_DMA0_LEN) SEP FUNC( \ + cmd1, NPU_SET_DMA0_SKIP0) SEP FUNC(cmd1, NPU_SET_DMA0_SKIP1) \ + SEP FUNC(cmd1, NPU_SET_IFM2_BASE0) SEP FUNC(cmd1, NPU_SET_IFM2_BASE1) \ + SEP FUNC(cmd1, NPU_SET_IFM2_BASE2) SEP FUNC(cmd1, NPU_SET_IFM2_BASE3) \ + SEP FUNC(cmd1, NPU_SET_IFM2_STRIDE_X) \ + SEP FUNC(cmd1, NPU_SET_IFM2_STRIDE_Y) \ + SEP FUNC(cmd1, NPU_SET_IFM2_STRIDE_C) \ + SEP FUNC(cmd1, NPU_SET_WEIGHT1_BASE) \ + SEP FUNC(cmd1, NPU_SET_WEIGHT1_LENGTH) \ + SEP FUNC(cmd1, NPU_SET_SCALE1_BASE) \ + SEP FUNC(cmd1, NPU_SET_SCALE1_LENGTH) + +#define EXPAND_DATA_FORMAT(FUNC, SEP) FUNC(data_format, NHWC) SEP FUNC(data_format, NHCWB16) + +#define EXPAND_ELEMENTWISE_MODE(FUNC, SEP) \ + FUNC(elementwise_mode, MUL) \ + SEP FUNC(elementwise_mode, ADD) SEP FUNC(elementwise_mode, SUB) SEP FUNC(elementwise_mode, MIN) \ + SEP FUNC(elementwise_mode, MAX) SEP FUNC(elementwise_mode, LRELU) SEP FUNC(elementwise_mode, ABS) \ + SEP FUNC(elementwise_mode, CLZ) SEP FUNC(elementwise_mode, SHR) SEP FUNC(elementwise_mode, SHL) + +#define EXPAND_IFM_PRECISION(FUNC, SEP) \ + FUNC(ifm_precision, W8_U8) \ + SEP FUNC(ifm_precision, W8_S8) SEP FUNC(ifm_precision, W8_U16) SEP FUNC(ifm_precision, W8_S16) \ + SEP FUNC(ifm_precision, W8_S32) + +#define EXPAND_IFM_SCALE_MODE(FUNC, SEP) \ + FUNC(ifm_scale_mode, SCALE_16BIT) \ + SEP FUNC(ifm_scale_mode, SCALE_OPA_32BIT) SEP FUNC(ifm_scale_mode, SCALE_OPB_32BIT) + +#define EXPAND_MEMORY_TYPE(FUNC, SEP) \ + FUNC(memory_type, AXI0_OUTSTANDING_COUNTER0) \ + SEP FUNC(memory_type, AXI0_OUTSTANDING_COUNTER1) SEP FUNC(memory_type, AXI1_OUTSTANDING_COUNTER2) \ + SEP FUNC(memory_type, AXI1_OUTSTANDING_COUNTER3) + +#define EXPAND_OFM_PRECISION(FUNC, SEP) \ + FUNC(ofm_precision, U8) \ + SEP FUNC(ofm_precision, S8) SEP FUNC(ofm_precision, U16) SEP FUNC(ofm_precision, S16) SEP FUNC(ofm_precision, S32) + +#define EXPAND_PMU_EVENT_TYPE(FUNC, SEP) \ + FUNC(pmu_event_type, CYCLE) \ + SEP FUNC(pmu_event_type, NPU_IDLE) SEP FUNC(pmu_event_type, MAC_ACTIVE) SEP FUNC( \ + pmu_event_type, MAC_ACTIVE_8BIT) SEP FUNC(pmu_event_type, MAC_ACTIVE_16BIT) SEP FUNC(pmu_event_type, \ + MAC_DPU_ACTIVE) \ + SEP FUNC(pmu_event_type, MAC_STALLED_BY_WD_ACC) SEP FUNC(pmu_event_type, MAC_STALLED_BY_WD) SEP FUNC( \ + pmu_event_type, MAC_STALLED_BY_ACC) SEP FUNC(pmu_event_type, MAC_STALLED_BY_IB) SEP FUNC(pmu_event_type, \ + AO_ACTIVE) \ + SEP FUNC(pmu_event_type, AO_ACTIVE_8BIT) SEP FUNC(pmu_event_type, AO_ACTIVE_16BIT) SEP FUNC( \ + pmu_event_type, AO_STALLED_BY_OFMP_OB) SEP FUNC(pmu_event_type, AO_STALLED_BY_OFMP) \ + SEP FUNC(pmu_event_type, AO_STALLED_BY_OB) SEP FUNC(pmu_event_type, AO_STALLED_BY_ACC_IB) SEP FUNC( \ + pmu_event_type, AO_STALLED_BY_ACC) SEP FUNC(pmu_event_type, AO_STALLED_BY_IB) \ + SEP FUNC(pmu_event_type, WD_ACTIVE) SEP FUNC(pmu_event_type, WD_STALLED) SEP FUNC( \ + pmu_event_type, WD_STALLED_BY_WS) SEP FUNC(pmu_event_type, WD_STALLED_BY_WD_BUF) \ + SEP FUNC(pmu_event_type, WD_PARSE_ACTIVE) SEP FUNC(pmu_event_type, WD_PARSE_STALLED) SEP FUNC( \ + pmu_event_type, WD_PARSE_STALLED_IN) SEP FUNC(pmu_event_type, WD_PARSE_STALLED_OUT) \ + SEP FUNC(pmu_event_type, AXI0_RD_TRANS_ACCEPTED) SEP FUNC( \ + pmu_event_type, AXI0_RD_TRANS_COMPLETED) SEP FUNC(pmu_event_type, \ + AXI0_RD_DATA_BEAT_RECEIVED) \ + SEP FUNC(pmu_event_type, AXI0_RD_TRAN_REQ_STALLED) SEP FUNC( \ + pmu_event_type, \ + AXI0_WR_TRANS_ACCEPTED) SEP FUNC(pmu_event_type, AXI0_WR_TRANS_COMPLETED_M) \ + SEP FUNC( \ + pmu_event_type, \ + AXI0_WR_TRANS_COMPLETED_S) SEP FUNC(pmu_event_type, AXI0_WR_DATA_BEAT_WRITTEN) \ + SEP FUNC(pmu_event_type, AXI0_WR_TRAN_REQ_STALLED) SEP FUNC( \ + pmu_event_type, \ + AXI0_WR_DATA_BEAT_STALLED) SEP FUNC(pmu_event_type, AXI0_ENABLED_CYCLES) \ + SEP FUNC(pmu_event_type, AXI0_RD_STALL_LIMIT) SEP FUNC( \ + pmu_event_type, \ + AXI0_WR_STALL_LIMIT) SEP FUNC(pmu_event_type, AXI1_RD_TRANS_ACCEPTED) \ + SEP FUNC(pmu_event_type, AXI1_RD_TRANS_COMPLETED) \ + SEP FUNC(pmu_event_type, AXI1_RD_DATA_BEAT_RECEIVED) SEP FUNC( \ + pmu_event_type, \ + AXI1_RD_TRAN_REQ_STALLED) SEP FUNC(pmu_event_type, \ + AXI1_WR_TRANS_ACCEPTED) \ + SEP FUNC(pmu_event_type, AXI1_WR_TRANS_COMPLETED_M) SEP FUNC( \ + pmu_event_type, \ + AXI1_WR_TRANS_COMPLETED_S) SEP \ + FUNC(pmu_event_type, AXI1_WR_DATA_BEAT_WRITTEN) SEP FUNC( \ + pmu_event_type, \ + AXI1_WR_TRAN_REQ_STALLED) SEP \ + FUNC(pmu_event_type, AXI1_WR_DATA_BEAT_STALLED) SEP FUNC( \ + pmu_event_type, \ + AXI1_ENABLED_CYCLES) SEP \ + FUNC(pmu_event_type, AXI1_RD_STALL_LIMIT) SEP FUNC( \ + pmu_event_type, \ + AXI1_WR_STALL_LIMIT) SEP FUNC(pmu_event_type, \ + AXI_LATENCY_ANY) \ + SEP FUNC(pmu_event_type, AXI_LATENCY_32) \ + SEP FUNC(pmu_event_type, AXI_LATENCY_64) \ + SEP FUNC(pmu_event_type, \ + AXI_LATENCY_128) \ + SEP FUNC(pmu_event_type, \ + AXI_LATENCY_256) \ + SEP FUNC(pmu_event_type, \ + AXI_LATENCY_512) \ + SEP FUNC(pmu_event_type, \ + AXI_LATENCY_1024) + +#define EXPAND_POOLING_MODE(FUNC, SEP) \ + FUNC(pooling_mode, MAX) SEP FUNC(pooling_mode, AVERAGE) SEP FUNC(pooling_mode, REDUCE_SUM) + +#define EXPAND_PRIVILEGE_LEVEL(FUNC, SEP) FUNC(privilege_level, USER) SEP FUNC(privilege_level, PRIVILEGED) + +#define EXPAND_PRODUCT(FUNC, SEP) FUNC(product, ETHOS_U55) + +#define EXPAND_RESAMPLING_MODE(FUNC, SEP) \ + FUNC(resampling_mode, NONE) SEP FUNC(resampling_mode, NEAREST) SEP FUNC(resampling_mode, TRANSPOSE) + +#define EXPAND_ROUNDING(FUNC, SEP) FUNC(rounding, TFL) SEP FUNC(rounding, TRUNCATE) SEP FUNC(rounding, NATURAL) + +#define EXPAND_SECURITY_LEVEL(FUNC, SEP) FUNC(security_level, SECURE) SEP FUNC(security_level, NON_SECURE) + +#define EXPAND_STATE(FUNC, SEP) FUNC(state, STOPPED) SEP FUNC(state, RUNNING) + +#define EXPAND_STRIDE_MODE(FUNC, SEP) \ + FUNC(stride_mode, STRIDE_MODE_1D) SEP FUNC(stride_mode, STRIDE_MODE_2D) SEP FUNC(stride_mode, STRIDE_MODE_3D) -- cgit v1.2.1