// // This confidential and proprietary software may be used only as // authorised by a licensing agreement from ARM Limited // (C) COPYRIGHT 2020-2021 ARM Limited // ALL RIGHTS RESERVED // The entire notice above must be reproduced on all authorised // copies and copies may only be made to the extent permitted // by a licensing agreement from ARM Limited. === Reduction Operators ==== REDUCE_ALL Reduce a tensor along the given axis with a logical AND operation include::{generated}/operators/REDUCE_ALL.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); // Initialize output state to true for_each(index in shape) { tensor_write(output, shape, index, true); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = state && value; tensor_write(output, shape, out_index, state); } ---- ==== REDUCE_ANY Reduce a tensor along the given axis with a logical OR operation include::{generated}/operators/REDUCE_ANY.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); // Initialize output state to false for_each(index in shape) { tensor_write(output, shape, index, false); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = state || value; tensor_write(output, shape, out_index, state); } ---- ==== REDUCE_MAX Reduce a tensor along the given axis with a maximum operation include::{generated}/operators/REDUCE_MAX.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); for_each(index in shape) { tensor_write(output, shape, index, minimum); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = apply_max(state, value); tensor_write(output, shape, out_index, state); } ---- ==== REDUCE_MIN Reduce a tensor along the given axis with a minimum operation include::{generated}/operators/REDUCE_MIN.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); for_each(index in shape) { tensor_write(output, shape, index, maximum); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = apply_min(state, value); tensor_write(output, shape, out_index, state); } ---- ==== REDUCE_PRODUCT Reduce a tensor along the given axis by computing the product of the axis. include::{generated}/operators/REDUCE_PRODUCT.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); for_each(index in shape) { tensor_write(output, shape, index, 1.0); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = state * value; tensor_write(output, shape, out_index, state); } ---- ==== REDUCE_SUM Reduce a tensor along the given axis by computing the sum of the axis. include::{generated}/operators/REDUCE_SUM.adoc[] *Operation Function:* [source,c] ---- ERROR_IF(axis < 0 || axis >= rank(shape1)); ERROR_IF(shape[axis] != 1); for_each(index in shape) { tensor_write(output, shape, index, 0); } for_each(index in shape1) { out_index = index; out_index[axis] = 0; in_out_t value = tensor_read(input, shape1, index); in_out_t state = tensor_read(output, shape, out_index); state = apply_add(state, value); tensor_write(output, shape, out_index, state); } ----