arm_compute/core/NEON/kernels/NEWinogradLayerKernel.h - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2017-2018 ARM Limited.
  *
  * SPDX-License-Identifier: MIT
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to
  * deal in the Software without restriction, including without limitation the
  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  * sell copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in all
  * copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  * SOFTWARE.
  */
 #ifndef __ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__
 #define __ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__

 #include "arm_compute/core/NEON/INEKernel.h"
 #include "arm_compute/core/NEON/kernels/winograd/batched_blocked_gemm.hpp"
 #include "arm_compute/core/NEON/kernels/winograd/convolution.hpp"
 #include "arm_compute/core/NEON/kernels/winograd/tensor.hpp"
 #include "arm_compute/core/NEON/kernels/winograd/winograd_gemm.hpp"

 namespace arm_compute
 {
 class ITensor;

 template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
 class NEWinogradLayerTransformInputKernel : public INEKernel
 {
 public:
     /** Determine how much memory (in units of TIn) to allocate for the
      * transformed input.
      *
      * @param[in] n_batches    Number of batches in the input tensor.
      * @param[in] n_channels   Number of feature maps in the input tensor.
      * @param[in] n_rows       Number of rows in each feature map.
      * @param[in] n_cols       Number of columns in each feature map.
      * @param[in] same_padding Use "SAME" padding, otherwise use "VALID".
      */
     static unsigned int get_input_storage_size(
         int  n_batches,
         int  n_channels,
         int  n_rows,
         int  n_cols,
         bool same_padding);

     NEWinogradLayerTransformInputKernel();
     const char *name() const override
     {
         return "NEWinogradLayerTransformInputKernel";
     }

     /** Configure the output transform kernel.
      *
      * @param[in]  input         Input tensor data
      * @param[in]  n_batches     Number of batches in input tensor.
      * @param[in]  n_rows        Number of rows in input tensor.
      * @param[in]  n_cols        Number of columns in input tensor.
      * @param[in]  n_channels    Number of channels in input tensor.
      * @param[in]  padding       Padding type.
      * @param[out] output        Base of output matrices.
      * @param[in]  matrix_stride Stride between output matrices.
      */
     void configure(
         const float *const input,
         const int          n_batches,
         const int          n_rows,
         const int          n_cols,
         const int          n_channels,
         const PaddingType  padding,
         float *const       output,
         const int          matrix_stride);

     // Inherited methods overridden:
     void run(const Window &window, const ThreadInfo &info) override;
     bool is_parallelisable() const override;

 private:
     using WinogradBase   = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelCols, KernelCols>;
     using WinogradConv   = typename WinogradBase::template Convolution<float, float>;
     using InputTransform = typename WinogradBase::template InputTransform<float>;
     std::unique_ptr<InputTransform> _transform;
 };

 template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
 class NEWinogradLayerTransformOutputKernel : public INEKernel
 {
 public:
     /** Determine how much memory (in units of TOut) to allocate for the
      * (Winograd domain) output.
      *
      * @param[in] n_batches         Number of batches in the output tensor.
      * @param[in] n_rows            Number of rows in each feature map of the input tensor.
      * @param[in] n_cols            Number of columns in each feature map of the input tensor.
      * @param[in] n_output_channels Number of feature maps in the output tensor.
      * @param[in] same_padding      Use "SAME" padding, otherwise use "VALID".
      */
     static unsigned int get_output_storage_size(
         int  n_batches,
         int  n_rows,
         int  n_cols,
         int  n_output_channels,
         bool same_padding);

     const char *name() const override
     {
         return "NEWinogradLayerTransformOutputKernel";
     }
     /** Constructor */
     NEWinogradLayerTransformOutputKernel();

     /** Prevent instances of this class from being copied (As this class contains pointers) */
     NEWinogradLayerTransformOutputKernel(const NEWinogradLayerTransformOutputKernel &) = delete;
     /** Prevent instances of this class from being copied (As this class contains pointers) */
     NEWinogradLayerTransformOutputKernel &operator=(const NEWinogradLayerTransformOutputKernel &) = delete;
     /** Allow instances of this class to be moved */
     NEWinogradLayerTransformOutputKernel(NEWinogradLayerTransformOutputKernel &&) = default;
     /** Allow instances of this class to be moved */
     NEWinogradLayerTransformOutputKernel &operator=(NEWinogradLayerTransformOutputKernel &&) = default;

     ~NEWinogradLayerTransformOutputKernel() = default;

     /** Configure the output transform kernel.
      *
      * @param[in]  biases              Pointer to the biases tensor.
      * @param[in]  output_workingspace Pointer to working space for the output tensor in the Winograd domain.
      * @param[in]  matrix_stride       Output matrix stride, can be computed with winograd::WinogradGEMM<2, 2, 3, 3>::Convolution<float, float>::get_output_matrix_stride()
      * @param[out] output              Pointer to NHWC ordered output tensor, in the spatial domain.
      * @param[in]  n_batches           Number of batches in the input tensor.
      * @param[in]  n_rows              Number of rows in output tensor.
      * @param[in]  n_cols              Number of columns in output tensor.
      * @param[in]  n_channels          Number of feature maps in the output tensor.
      */
     void configure(
         const ITensor     *biases,
         const float *const output_workingspace,
         const int          matrix_stride,
         float *const       output,
         const int          n_batches,
         const int          n_rows,
         const int          n_cols,
         const int          n_channels);

     // Inherited methods overridden:
     void run(const Window &window, const ThreadInfo &info) override;
     bool is_parallelisable() const override;

 private:
     using WinogradBase    = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
     using WinogradConv    = typename WinogradBase::template Convolution<float, float>;
     using OutputTransform = typename WinogradBase::template OutputTransform<float>;

     const ITensor *_biases;
     const float   *_output_workspace;
     int            _matrix_stride;
     int            _matrix_row_stride;
     float         *_output;
     int            _n_batches;
     int            _n_rows;
     int            _n_cols;
     int            _n_channels;
 };

 template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
 class NEWinogradLayerTransformWeightsKernel final : public INEKernel
 {
 public:
     /** Determine how much memory (in units of TIn) to allocate for the
      * transformed weights.
      *
      * @param[in] n_output_channels Number of output feature maps.
      * @param[in] n_input_channels  Number of input feature maps.
      */
     static unsigned int get_weight_storage_size(int n_output_channels, int n_input_channels);

     NEWinogradLayerTransformWeightsKernel();
     const char *name() const override
     {
         return "NEWinogradLayerTransformWeightsKernel";
     }
     /** Configure the output transform kernel.
      *
      * @param[in] weights_hwio      Pointer to the weights tensor
      * @param[in] output            Pointer to working space for the output tensor in the Winograd domain.
      * @param[in] matrix_stride     Stride across matrices in the output workspace.
      * @param[in] n_output_channels Number of filters.
      * @param[in] n_input_channels  Number of channels in each filter.
      */
     void configure(
         const ITensor *weights_hwio,
         float *const   output,
         const int      matrix_stride,
         const int      n_output_channels,
         const int      n_input_channels);

     // Inherited methods overridden:

     void run(const Window &window, const ThreadInfo &info) override;
     bool is_parallelisable() const override;

 private:
     using WinogradBase     = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
     using WinogradConv     = typename WinogradBase::template Convolution<float, float>;
     using WeightsTransform = typename WinogradBase::template WeightsTransform<float>;
     std::unique_ptr<WeightsTransform> _transform;
 };

 template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
 class NEWinogradLayerKernel : public INEKernel
 {
 public:
     using WinogradBase = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
     using WinogradConv = typename WinogradBase::template Convolution<float, float>;
     using MultiGEMM    = winograd::BatchedBlockedGemm<WinogradConv::M_BLOCK, WinogradConv::N_BLOCK, float, float>;

     static const int _output_tile_rows = OutputTileRows;
     static const int _output_tile_cols = OutputTileCols;

     const char *name() const override
     {
         return "NEWinogradLayerKernel";
     }
     /** Constructor */
     NEWinogradLayerKernel();

     /** Prevent instances of this class from being copied (As this class contains pointers) */
     NEWinogradLayerKernel(const NEWinogradLayerKernel &) = delete;
     /** Prevent instances of this class from being copied (As this class contains pointers) */
     NEWinogradLayerKernel &operator=(const NEWinogradLayerKernel &) = delete;
     /** Allow instances of this class to be moved */
     NEWinogradLayerKernel(NEWinogradLayerKernel &&) = default;
     /** Allow instances of this class to be moved */
     NEWinogradLayerKernel &operator=(NEWinogradLayerKernel &&) = default;

     ~NEWinogradLayerKernel() = default;

     /** Initialise the kernel
      *
      * @param[in]  n_gemms         Number of GEMMs to compute.
      * @param[in]  M               in_shape.n_batches * tile_rows * tile_cols.
      * @param[in]  K               Number of channels in the input tensor.
      * @param[in]  N               Number of channels in the output tensor.
      * @param[in]  a_matrix_stride Stride between input matrices.
      * @param[in]  a_row_stride    Row stride inside input matrix.
      * @param[in]  b_matrix_stride Stride between weights matrices.
      * @param[in]  b_row_stride    Row stride inside the weights matrix.
      * @param[in]  c_matrix_stride Stride between output matrices.
      * @param[in]  c_row_stride    Row stride inside the output matrix.
      * @param[out] a_ptr           Input workspace.
      * @param[out] b_ptr           Kernel workspace.
      * @param[out] c_ptr           Output workspace.
      */
     void configure(
         const unsigned int n_gemms,
         const int M, const int K, const int N,
         const int          a_matrix_stride,
         const int          a_row_stride,
         const int          b_matrix_stride,
         const int          b_row_stride,
         const int          c_matrix_stride,
         const int          c_row_stride,
         const float *const a_ptr,
         const float *const b_ptr,
         float *const       c_ptr);

     // Inherited methods overridden:
     void run(const Window &window, const ThreadInfo &info) override;

 private:
     std::unique_ptr<MultiGEMM> _gemms;
 };

 } // namespace arm_compute
 #endif /*__ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__*/
	/*
	* Copyright (c) 2017-2018 ARM Limited.
	*
	* SPDX-License-Identifier: MIT
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to
	* deal in the Software without restriction, including without limitation the
	* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
	* sell copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in all
	* copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	* SOFTWARE.
	*/
	#ifndef __ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__
	#define __ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__

	#include "arm_compute/core/NEON/INEKernel.h"
	#include "arm_compute/core/NEON/kernels/winograd/batched_blocked_gemm.hpp"
	#include "arm_compute/core/NEON/kernels/winograd/convolution.hpp"
	#include "arm_compute/core/NEON/kernels/winograd/tensor.hpp"
	#include "arm_compute/core/NEON/kernels/winograd/winograd_gemm.hpp"

	namespace arm_compute
	{
	class ITensor;

	template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
	class NEWinogradLayerTransformInputKernel : public INEKernel
	{
	public:
	/** Determine how much memory (in units of TIn) to allocate for the
	* transformed input.
	*
	* @param[in] n_batches Number of batches in the input tensor.
	* @param[in] n_channels Number of feature maps in the input tensor.
	* @param[in] n_rows Number of rows in each feature map.
	* @param[in] n_cols Number of columns in each feature map.
	* @param[in] same_padding Use "SAME" padding, otherwise use "VALID".
	*/
	static unsigned int get_input_storage_size(
	int n_batches,
	int n_channels,
	int n_rows,
	int n_cols,
	bool same_padding);

	NEWinogradLayerTransformInputKernel();
	const char *name() const override
	{
	return "NEWinogradLayerTransformInputKernel";
	}

	/** Configure the output transform kernel.
	*
	* @param[in] input Input tensor data
	* @param[in] n_batches Number of batches in input tensor.
	* @param[in] n_rows Number of rows in input tensor.
	* @param[in] n_cols Number of columns in input tensor.
	* @param[in] n_channels Number of channels in input tensor.
	* @param[in] padding Padding type.
	* @param[out] output Base of output matrices.
	* @param[in] matrix_stride Stride between output matrices.
	*/
	void configure(
	const float *const input,
	const int n_batches,
	const int n_rows,
	const int n_cols,
	const int n_channels,
	const PaddingType padding,
	float *const output,
	const int matrix_stride);

	// Inherited methods overridden:
	void run(const Window &window, const ThreadInfo &info) override;
	bool is_parallelisable() const override;

	private:
	using WinogradBase = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelCols, KernelCols>;
	using WinogradConv = typename WinogradBase::template Convolution<float, float>;
	using InputTransform = typename WinogradBase::template InputTransform<float>;
	std::unique_ptr<InputTransform> _transform;
	};

	template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
	class NEWinogradLayerTransformOutputKernel : public INEKernel
	{
	public:
	/** Determine how much memory (in units of TOut) to allocate for the
	* (Winograd domain) output.
	*
	* @param[in] n_batches Number of batches in the output tensor.
	* @param[in] n_rows Number of rows in each feature map of the input tensor.
	* @param[in] n_cols Number of columns in each feature map of the input tensor.
	* @param[in] n_output_channels Number of feature maps in the output tensor.
	* @param[in] same_padding Use "SAME" padding, otherwise use "VALID".
	*/
	static unsigned int get_output_storage_size(
	int n_batches,
	int n_rows,
	int n_cols,
	int n_output_channels,
	bool same_padding);

	const char *name() const override
	{
	return "NEWinogradLayerTransformOutputKernel";
	}
	/** Constructor */
	NEWinogradLayerTransformOutputKernel();

	/** Prevent instances of this class from being copied (As this class contains pointers) */
	NEWinogradLayerTransformOutputKernel(const NEWinogradLayerTransformOutputKernel &) = delete;
	/** Prevent instances of this class from being copied (As this class contains pointers) */
	NEWinogradLayerTransformOutputKernel &operator=(const NEWinogradLayerTransformOutputKernel &) = delete;
	/** Allow instances of this class to be moved */
	NEWinogradLayerTransformOutputKernel(NEWinogradLayerTransformOutputKernel &&) = default;
	/** Allow instances of this class to be moved */
	NEWinogradLayerTransformOutputKernel &operator=(NEWinogradLayerTransformOutputKernel &&) = default;

	~NEWinogradLayerTransformOutputKernel() = default;

	/** Configure the output transform kernel.
	*
	* @param[in] biases Pointer to the biases tensor.
	* @param[in] output_workingspace Pointer to working space for the output tensor in the Winograd domain.
	* @param[in] matrix_stride Output matrix stride, can be computed with winograd::WinogradGEMM<2, 2, 3, 3>::Convolution<float, float>::get_output_matrix_stride()
	* @param[out] output Pointer to NHWC ordered output tensor, in the spatial domain.
	* @param[in] n_batches Number of batches in the input tensor.
	* @param[in] n_rows Number of rows in output tensor.
	* @param[in] n_cols Number of columns in output tensor.
	* @param[in] n_channels Number of feature maps in the output tensor.
	*/
	void configure(
	const ITensor *biases,
	const float *const output_workingspace,
	const int matrix_stride,
	float *const output,
	const int n_batches,
	const int n_rows,
	const int n_cols,
	const int n_channels);

	// Inherited methods overridden:
	void run(const Window &window, const ThreadInfo &info) override;
	bool is_parallelisable() const override;

	private:
	using WinogradBase = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
	using WinogradConv = typename WinogradBase::template Convolution<float, float>;
	using OutputTransform = typename WinogradBase::template OutputTransform<float>;

	const ITensor *_biases;
	const float *_output_workspace;
	int _matrix_stride;
	int _matrix_row_stride;
	float *_output;
	int _n_batches;
	int _n_rows;
	int _n_cols;
	int _n_channels;
	};

	template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
	class NEWinogradLayerTransformWeightsKernel final : public INEKernel
	{
	public:
	/** Determine how much memory (in units of TIn) to allocate for the
	* transformed weights.
	*
	* @param[in] n_output_channels Number of output feature maps.
	* @param[in] n_input_channels Number of input feature maps.
	*/
	static unsigned int get_weight_storage_size(int n_output_channels, int n_input_channels);

	NEWinogradLayerTransformWeightsKernel();
	const char *name() const override
	{
	return "NEWinogradLayerTransformWeightsKernel";
	}
	/** Configure the output transform kernel.
	*
	* @param[in] weights_hwio Pointer to the weights tensor
	* @param[in] output Pointer to working space for the output tensor in the Winograd domain.
	* @param[in] matrix_stride Stride across matrices in the output workspace.
	* @param[in] n_output_channels Number of filters.
	* @param[in] n_input_channels Number of channels in each filter.
	*/
	void configure(
	const ITensor *weights_hwio,
	float *const output,
	const int matrix_stride,
	const int n_output_channels,
	const int n_input_channels);

	// Inherited methods overridden:

	void run(const Window &window, const ThreadInfo &info) override;
	bool is_parallelisable() const override;

	private:
	using WinogradBase = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
	using WinogradConv = typename WinogradBase::template Convolution<float, float>;
	using WeightsTransform = typename WinogradBase::template WeightsTransform<float>;
	std::unique_ptr<WeightsTransform> _transform;
	};

	template <int OutputTileRows, int OutputTileCols, int KernelRows, int KernelCols>
	class NEWinogradLayerKernel : public INEKernel
	{
	public:
	using WinogradBase = winograd::WinogradGEMM<OutputTileRows, OutputTileCols, KernelRows, KernelCols>;
	using WinogradConv = typename WinogradBase::template Convolution<float, float>;
	using MultiGEMM = winograd::BatchedBlockedGemm<WinogradConv::M_BLOCK, WinogradConv::N_BLOCK, float, float>;

	static const int _output_tile_rows = OutputTileRows;
	static const int _output_tile_cols = OutputTileCols;

	const char *name() const override
	{
	return "NEWinogradLayerKernel";
	}
	/** Constructor */
	NEWinogradLayerKernel();

	/** Prevent instances of this class from being copied (As this class contains pointers) */
	NEWinogradLayerKernel(const NEWinogradLayerKernel &) = delete;
	/** Prevent instances of this class from being copied (As this class contains pointers) */
	NEWinogradLayerKernel &operator=(const NEWinogradLayerKernel &) = delete;
	/** Allow instances of this class to be moved */
	NEWinogradLayerKernel(NEWinogradLayerKernel &&) = default;
	/** Allow instances of this class to be moved */
	NEWinogradLayerKernel &operator=(NEWinogradLayerKernel &&) = default;

	~NEWinogradLayerKernel() = default;

	/** Initialise the kernel
	*
	* @param[in] n_gemms Number of GEMMs to compute.
	* @param[in] M in_shape.n_batches * tile_rows * tile_cols.
	* @param[in] K Number of channels in the input tensor.
	* @param[in] N Number of channels in the output tensor.
	* @param[in] a_matrix_stride Stride between input matrices.
	* @param[in] a_row_stride Row stride inside input matrix.
	* @param[in] b_matrix_stride Stride between weights matrices.
	* @param[in] b_row_stride Row stride inside the weights matrix.
	* @param[in] c_matrix_stride Stride between output matrices.
	* @param[in] c_row_stride Row stride inside the output matrix.
	* @param[out] a_ptr Input workspace.
	* @param[out] b_ptr Kernel workspace.
	* @param[out] c_ptr Output workspace.
	*/
	void configure(
	const unsigned int n_gemms,
	const int M, const int K, const int N,
	const int a_matrix_stride,
	const int a_row_stride,
	const int b_matrix_stride,
	const int b_row_stride,
	const int c_matrix_stride,
	const int c_row_stride,
	const float *const a_ptr,
	const float *const b_ptr,
	float *const c_ptr);

	// Inherited methods overridden:
	void run(const Window &window, const ThreadInfo &info) override;

	private:
	std::unique_ptr<MultiGEMM> _gemms;
	};

	} // namespace arm_compute
	#endif /__ARM_COMPUTE_NEGEMMWINOGRADLAYERKERNEL_H__/