1 files changed, 62 insertions, 58 deletions

diff --git a/src/core/NEON/kernels/arm_gemm/gemm_fp32.cpp b/src/core/NEON/kernels/arm_gemm/gemm_fp32.cpp
index ddb438f06c..e9e335f500 100644
--- a/src/core/NEON/kernels/arm_gemm/gemm_fp32.cpp
+++ b/src/core/NEON/kernels/arm_gemm/gemm_fp32.cpp
@@ -24,6 +24,7 @@
 #include "arm_gemm.hpp"
 #include "gemm_common.hpp"
 #include "gemm_hybrid.hpp"
+#include "gemm_hybrid_indirect.hpp"
 #include "gemm_implementation.hpp"
 #include "gemm_interleaved.hpp"
 #include "gemm_interleaved_pretransposed_2d.hpp"
@@ -31,127 +32,130 @@
 #include "gemv_pretransposed.hpp"
 
 #include "kernels/a32_sgemm_8x6.hpp"
-#include "kernels/a64_hybrid_fp32_mla_16x4.hpp"
-#include "kernels/a64_hybrid_fp32_mla_4x8.hpp"
-#include "kernels/a64_smallK_hybrid_fp32_mla_4x6.hpp"
-#include "kernels/a64_smallK_hybrid_fp32_mla_4x8.hpp"
-#include "kernels/a64_sgemm_12x8.hpp"
-#include "kernels/a64_sgemv_pretransposed.hpp"
+#include "kernels/a64_gemv_fp32_mla_32.hpp"
+#include "kernels/a64_hybrid_fp32_mla_6x16.hpp"
+#include "kernels/a64_hybrid_fp32_mla_8x4.hpp"
+#include "kernels/a64_sgemm_8x12.hpp"
+#include "kernels/a64_smallK_hybrid_fp32_mla_6x4.hpp"
+#include "kernels/a64_smallK_hybrid_fp32_mla_8x4.hpp"
 
-#include "kernels/sve_hybrid_fp32_mla_4VLx4.hpp"
-#include "kernels/sve_hybrid_fp32_mmla_4VLx4.hpp"
-#include "kernels/sve_interleaved_fp32_mla_3VLx8.hpp"
-#include "kernels/sve_interleaved_fp32_mmla_3VLx8.hpp"
-#include "kernels/sve_smallK_hybrid_fp32_mla_1VLx8.hpp"
+#include "kernels/sve_gemv_fp32_mla_8VL.hpp"
+#include "kernels/sve_hybrid_fp32_mla_6x4VL.hpp"
+#include "kernels/sve_hybrid_fp32_mla_8x1VL.hpp"
+#include "kernels/sve_interleaved_fp32_mla_8x3VL.hpp"
+#include "kernels/sve_interleaved_fp32_mmla_8x3VL.hpp"
+#include "kernels/sve_smallK_hybrid_fp32_mla_8x1VL.hpp"
 
 namespace arm_gemm {
 
 static const GemmImplementation<float, float> gemm_fp32_methods[] =
 {
+// GEMV cases - starting with 'gemv_batched' wrapper to turn batched GEMV into GEMM.
 {
     GemmMethod::GEMV_BATCHED,
     "gemv_batched",
-    [](const GemmArgs &args) { return (args._Msize==1) && (args._nbatches>1); },
+    [](const GemmArgs &args) { return args._Msize==1 && args._nbatches>1 && !args._indirect_input; },
     nullptr,
     [](const GemmArgs &args) { return new GemvBatched<float, float>(args); }
 },
 #ifdef __aarch64__
+#ifdef __ARM_FEATURE_SVE
 {
-    GemmMethod::GEMV_PRETRANSPOSED,
-    "sgemv_pretransposed",
-    [](const GemmArgs &args) { return (args._Msize==1 && args._nbatches==1); },
+    GemmMethod::GEMM_HYBRID,
+    "sve_gemv_fp32_mla_8VL",
+    [](const GemmArgs &args) { return args._Msize==1 && args._nbatches==1 && !args._indirect_input; },
     nullptr,
-    [](const GemmArgs &args) { return new GemvPretransposed<sgemv_pretransposed, float, float>(args); }
+    [](const GemmArgs &args) { return new GemvPretransposed<cls_sve_gemv_fp32_mla_8VL, float, float>(args); }
 },
-#if defined(__ARM_FEATURE_SVE) && defined(MMLA_FP32)
+#endif
 {
     GemmMethod::GEMM_HYBRID,
-    "hybrid_fp32_mmla_4VLx4",
-    [](const GemmArgs &args) { return (args._Ksize >= 4); },
-    [](const GemmArgs &args) { return ((args._Ksize <= 256) && (args._Nsize <= 256)) || ((args._nmulti > 1) && ((args._Msize / args._maxthreads) < 8)); },
-    [](const GemmArgs &args) { return new GemmHybrid<hybrid_fp32_mmla_4VLx4, float, float>(args); }
+    "a64_gemv_fp32_mla_32",
+    [](const GemmArgs &args) { return args._Msize==1 && args._nbatches==1 && !args._indirect_input; },
+    nullptr,
+    [](const GemmArgs &args) { return new GemvPretransposed<cls_a64_gemv_fp32_mla_32, float, float>(args); }
 },
+
+// MMLA next due to higher throughput (SVE only)
+#if defined(__ARM_FEATURE_SVE) && defined(MMLA_FP32)
 {
     GemmMethod::GEMM_INTERLEAVED,
-    "interleaved_fp32_mmla_3VLx8",
+    "sve_interleaved_fp32_mmla_8x3VL",
     [](const GemmArgs &args) { return (args._Ksize>4); },
     nullptr,
-    [](const GemmArgs &args) { return new GemmInterleaved<interleaved_fp32_mmla_3VLx8, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_fp32_mmla_8x3VL, float, float>(args); }
 },
 #endif // __ARM_FEATURE_SVE && MMLA_FP32
 
 #ifdef __ARM_FEATURE_SVE
-// SVE smallk /  hybrid methods
+// SVE smallk / hybrid methods
 {
     GemmMethod::GEMM_HYBRID,
-    "smallK_hybrid_fp32_mla_1VLx8",
-    [](const GemmArgs &args) { return (args._Ksize <= 24); },
+    "sve_smallK_hybrid_fp32_mla_8x1VL",
+    [](const GemmArgs &args) { return args._Ksize <= 24 && !args._indirect_input; },
     nullptr,
-    [](const GemmArgs &args) { return new GemmHybrid<smallK_hybrid_fp32_mla_1VLx8, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmHybrid<cls_sve_smallK_hybrid_fp32_mla_8x1VL, float, float>(args); }
 },
 {
     GemmMethod::GEMM_HYBRID,
-    "hybrid_fp32_mla_4VLx4",
-    [](const GemmArgs &args) { return (args._Ksize >= 4); },
+    "sve_hybrid_fp32_mla_8x1VL",
+    nullptr,
+    [](const GemmArgs &args) { return (args._Nsize < 12); },
+    [](const GemmArgs &args) { return new GemmHybridIndirect<cls_sve_hybrid_fp32_mla_8x1VL, float, float>(args); }
+},
+{
+    GemmMethod::GEMM_HYBRID,
+    "sve_hybrid_fp32_mla_6x4VL",
+    nullptr,
     [](const GemmArgs &args) { return ((args._Ksize <= 256) && (args._Nsize <= 256)) || ((args._nmulti > 1) && ((args._Msize / args._maxthreads) < 8)); },
-    [](const GemmArgs &args) { return new GemmHybrid<hybrid_fp32_mla_4VLx4, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmHybridIndirect<cls_sve_hybrid_fp32_mla_6x4VL, float, float>(args); }
 },
 #endif // __ARM_FEATURE_SVE
 
 // NEON hybrid methods
 {
     GemmMethod::GEMM_HYBRID,
-    "smallK_hybrid_fp32_mla_4x8",
-    [](const GemmArgs &args) { return (args._Ksize <= 8) && (args._Nsize % 4)==0; },
+    "a64_smallK_hybrid_fp32_mla_8x4",
+    [](const GemmArgs &args) { return args._Ksize <= 8 && (args._Nsize % 4)==0 && !args._indirect_input; },
     nullptr,
-    [](const GemmArgs &args) { return new GemmHybrid<smallK_hybrid_fp32_mla_4x8, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_fp32_mla_8x4, float, float>(args); }
 },
 {
     GemmMethod::GEMM_HYBRID,
-    "smallK_hybrid_fp32_mla_4x6",
-    [](const GemmArgs &args) { return (args._Ksize > 8) && (args._Ksize <= 16) && (args._Nsize % 4)==0; },
+    "a64_smallK_hybrid_fp32_mla_6x4",
+    [](const GemmArgs &args) { return (args._Ksize > 8 && args._Ksize <= 16) && (args._Nsize % 4)==0 && !args._indirect_input; },
     nullptr,
-    [](const GemmArgs &args) { return new GemmHybrid<smallK_hybrid_fp32_mla_4x6, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_fp32_mla_6x4, float, float>(args); }
 },
 {
     GemmMethod::GEMM_HYBRID,
-    "hybrid_fp32_mla_4x8_normal",
-    [](const GemmArgs &args) { return (args._Ksize >= 4); },
+    "a64_hybrid_fp32_mla_8x4",
+    nullptr,
     [](const GemmArgs &args) { return (args._Nsize < 12); },
-    [](const GemmArgs &args) { return new GemmHybrid<hybrid_fp32_mla_4x8, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmHybridIndirect<cls_a64_hybrid_fp32_mla_8x4, float, float>(args); }
 },
 GemmImplementation<float, float>::with_estimate(
     GemmMethod::GEMM_HYBRID,
-    "hybrid_fp32_mla_16x4",
-    [](const GemmArgs &args) { return (args._Ksize >= 4); },
-    [](const GemmArgs &args) { return GemmHybrid<hybrid_fp32_mla_16x4, float, float>::estimate_cycles(args, hybrid_fp32_mla_16x4::get_performance_parameters(args._ci)); },
-    [](const GemmArgs &args) { return new GemmHybrid<hybrid_fp32_mla_16x4, float, float>(args); }
+    "a64_hybrid_fp32_mla_6x16",
+    nullptr,
+    [](const GemmArgs &args) { return GemmHybridIndirect<cls_a64_hybrid_fp32_mla_6x16, float, float>::estimate_cycles(args, cls_a64_hybrid_fp32_mla_6x16::get_performance_parameters(args._ci)); },
+    [](const GemmArgs &args) { return new GemmHybridIndirect<cls_a64_hybrid_fp32_mla_6x16, float, float>(args); }
 ),
-
 #ifdef __ARM_FEATURE_SVE
 {
     GemmMethod::GEMM_INTERLEAVED,
-    "interleaved_fp32_mla_3VLx8",
+    "sve_interleaved_fp32_mla_8x3VL",
     [](const GemmArgs &args) { return (args._Ksize>4); },
     nullptr,
-    [](const GemmArgs &args) { return new GemmInterleaved<interleaved_fp32_mla_3VLx8, float, float>(args); }
+    [](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_fp32_mla_8x3VL, float, float>(args); }
 },
 #endif // __ARM_FEATURE_SVE
-// Pretranposed, 2D split
-GemmImplementation<float, float>::with_estimate(
-    GemmMethod::GEMM_INTERLEAVED_2D,
-    "sgemm_12x8_2d",
-    nullptr,
-    [](const GemmArgs &args) { return GemmInterleavedPretransposed2d<sgemm_12x8, float, float>::estimate_cycles(args, sgemm_12x8::get_performance_parameters(args._ci)); },
-    [](const GemmArgs &args) { return new GemmInterleavedPretransposed2d<sgemm_12x8, float, float>(args); }
-),
-// 1D split (with pretransposed or not)
 GemmImplementation<float, float>::with_estimate(
     GemmMethod::GEMM_INTERLEAVED,
-    "sgemm_12x8_1d",
+    "a64_sgemm_8x12",
     nullptr,
-    [](const GemmArgs &args) { return GemmInterleaved<sgemm_12x8, float, float>::estimate_cycles(args, sgemm_12x8::get_performance_parameters(args._ci)); },
-    [](const GemmArgs &args) { return new GemmInterleaved<sgemm_12x8, float, float>(args); }
+    [](const GemmArgs &args) { return GemmInterleaved<cls_a64_sgemm_8x12, float, float>::estimate_cycles(args, cls_a64_sgemm_8x12::get_performance_parameters(args._ci)); },
+    [](const GemmArgs &args) { return new GemmInterleaved<cls_a64_sgemm_8x12, float, float>(args); }
 ),
 #endif // __aarch64__