arm_compute/AclTypes.h - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2021 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_ACL_TYPES_H_
 #define ARM_COMPUTE_ACL_TYPES_H_

 #include <stddef.h>
 #include <stdint.h>

 #ifdef __cplusplus
 extern "C"
 {
 #endif /* __cplusplus */

     /**< Opaque Context object */
     typedef struct AclContext_ *AclContext;
     /**< Opaque Queue object */
     typedef struct AclQueue_ *AclQueue;
     /**< Opaque Tensor object */
     typedef struct AclTensor_ *AclTensor;
     /**< Opaque Tensor pack object */
     typedef struct AclTensorPack_ *AclTensorPack;
     /**< Opaque Operator object */
     typedef struct AclOperator_ *AclOperator;

     // Capabilities bitfield (Note: if multiple are enabled ComputeLibrary will pick the best possible)
     typedef uint64_t AclTargetCapabilities;

     /**< Error codes returned by the public entry-points */
     typedef enum AclStatus : int32_t
     {
         AclSuccess            = 0, /**< Call succeeded, leading to valid state for all involved objects/data */
         AclRuntimeError       = 1, /**< Call failed during execution */
         AclOutOfMemory        = 2, /**< Call failed due to failure to allocate resources */
         AclUnimplemented      = 3, /**< Call failed as requested capability is not implemented */
         AclUnsupportedTarget  = 4, /**< Call failed as an invalid backend was requested */
         AclInvalidTarget      = 5, /**< Call failed as invalid argument was passed */
         AclInvalidArgument    = 6, /**< Call failed as invalid argument was passed */
         AclUnsupportedConfig  = 7, /**< Call failed as configuration is unsupported */
         AclInvalidObjectState = 8, /**< Call failed as an object has invalid state */
     } AclStatus;

     /**< Supported CPU targets */
     typedef enum AclTarget
     {
         AclCpu    = 0, /**< Cpu target that uses SIMD extensions */
         AclGpuOcl = 1, /**< OpenCL target for GPU */
     } AclTarget;

     /** Execution mode types */
     typedef enum AclExecutionMode
     {
         AclPreferFastRerun = 0, /**< Prioritize performance when multiple iterations are performed */
         AclPreferFastStart = 1, /**< Prioritize performance when a single iterations is expected to be performed */
     } AclExecutionMode;

     /** Available CPU capabilities */
     typedef enum AclCpuCapabilities
     {
         AclCpuCapabilitiesAuto = 0, /**< Automatic discovery of capabilities */

         AclCpuCapabilitiesNeon = (1 << 0), /**< Enable NEON optimized paths */
         AclCpuCapabilitiesSve  = (1 << 1), /**< Enable SVE optimized paths */
         AclCpuCapabilitiesSve2 = (1 << 2), /**< Enable SVE2 optimized paths */
         // Reserve 3, 4, 5, 6

         AclCpuCapabilitiesFp16 = (1 << 7), /**< Enable float16 data-type support */
         AclCpuCapabilitiesBf16 = (1 << 8), /**< Enable bfloat16 data-type support */
         // Reserve 9, 10, 11, 12

         AclCpuCapabilitiesDot      = (1 << 13), /**< Enable paths that use the udot/sdot instructions */
         AclCpuCapabilitiesMmlaInt8 = (1 << 14), /**< Enable paths that use the mmla integer instructions */
         AclCpuCapabilitiesMmlaFp   = (1 << 15), /**< Enable paths that use the mmla float instructions */

         AclCpuCapabilitiesAll = ~0 /**< Enable all paths */
     } AclCpuCapabilities;

     /**< Allocator interface that can be passed to a context */
     typedef struct AclAllocator
     {
         /** Allocate a block of size bytes of memory.
      *
      * @param[in] user_data User provided data that can be used by the allocator
      * @param[in] size      Size of the allocation
      *
      * @return A pointer to the allocated block if successfull else NULL
      */
         void *(*alloc)(void *user_data, size_t size);
         /** Release a block of size bytes of memory.
      *
      * @param[in] user_data User provided data that can be used by the allocator
      * @param[in] size      Size of the allocation
      */
         void (*free)(void *user_data, void *ptr);
         /** Allocate a block of size bytes of memory.
      *
      * @param[in] user_data User provided data that can be used by the allocator
      * @param[in] size      Size of the allocation
      *
      * @return A pointer to the allocated block if successfull else NULL
      */
         void *(*aligned_alloc)(void *user_data, size_t size, size_t alignment);
         /** Allocate a block of size bytes of memory.
      *
      * @param[in] user_data User provided data that can be used by the allocator
      * @param[in] size      Size of the allocation
      */
         void (*aligned_free)(void *user_data, void *ptr);

         /**< User provided information */
         void *user_data;
     } AclAllocator;

     /**< Context options */
     typedef struct AclContextOptions
     {
         AclExecutionMode      mode;               /**< Execution mode to use */
         AclTargetCapabilities capabilities;       /**< Target capabilities */
         bool                  enable_fast_math;   /**< Allow precision loss */
         const char           *kernel_config_file; /**< Kernel cofiguration file */
         int32_t       max_compute_units; /**< Max compute units that can be used by a queue created from the context.
                                                    If <=0 the system will use the hw concurency insted */
         AclAllocator *allocator;         /**< Allocator to be used by all the memory internally */
     } AclContextOptions;

     /**< Supported tuning modes */
     typedef enum
     {
         AclTuningModeNone = 0, /**< No tuning */
         AclRapid          = 1, /**< Fast tuning mode, testing a small portion of the tuning space */
         AclNormal         = 2, /**< Normal tuning mode, gives a good balance between tuning mode and performance */
         AclExhaustive     = 3, /**< Exhaustive tuning mode, increased tuning time but with best results */
     } AclTuningMode;

     /**< Queue options */
     typedef struct
     {
         AclTuningMode mode;          /**< Tuning mode */
         int32_t       compute_units; /**< Compute Units that the queue will deploy */
     } AclQueueOptions;

     /**< Supported data types */
     typedef enum AclDataType
     {
         AclDataTypeUnknown = 0, /**< Unknown data type */
         AclUInt8           = 1, /**< 8-bit unsigned integer */
         AclInt8            = 2, /**< 8-bit signed integer */
         AclUInt16          = 3, /**< 16-bit unsigned integer */
         AclInt16           = 4, /**< 16-bit signed integer */
         AclUint32          = 5, /**< 32-bit unsigned integer */
         AclInt32           = 6, /**< 32-bit signed integer */
         AclFloat16         = 7, /**< 16-bit floating point */
         AclBFloat16        = 8, /**< 16-bit brain floating point */
         AclFloat32         = 9, /**< 32-bit floating point */
     } AclDataType;

     /**< Supported data layouts for operations */
     typedef enum AclDataLayout
     {
         AclDataLayoutUnknown = 0, /**< Unknown data layout */
         AclNhwc              = 1, /**< Native, performant, Compute Library data layout */
         AclNchw              = 2, /**< Data layout where width is the fastest changing dimension */
     } AclDataLayout;

     /** Type of memory to be imported */
     typedef enum AclImportMemoryType
     {
         AclHostPtr = 0 /**< Host allocated memory */
     } AclImportMemoryType;

     /**< Tensor Descriptor */
     typedef struct AclTensorDescriptor
     {
         int32_t     ndims;     /**< Number or dimensions */
         int32_t    *shape;     /**< Tensor Shape */
         AclDataType data_type; /**< Tensor Data type */
         int64_t    *strides;   /**< Strides on each dimension. Linear memory is assumed if nullptr */
         int64_t     boffset;   /**< Offset in terms of bytes for the first element */
     } AclTensorDescriptor;

     /**< Slot type of a tensor */
     typedef enum
     {
         AclSlotUnknown = -1,
         AclSrc         = 0,
         AclSrc0        = 0,
         AclSrc1        = 1,
         AclDst         = 30,
         AclSrcVec      = 256,
     } AclTensorSlot;

 #ifdef __cplusplus
 }
 #endif /* __cplusplus */
 #endif /* ARM_COMPUTE_ACL_TYPES_H_ */
	/*
	* Copyright (c) 2021 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_ACL_TYPES_H_
	#define ARM_COMPUTE_ACL_TYPES_H_

	#include <stddef.h>
	#include <stdint.h>

	#ifdef __cplusplus
	extern "C"
	{
	#endif /* __cplusplus */

	/*< Opaque Context object /
	typedef struct AclContext_ *AclContext;
	/*< Opaque Queue object /
	typedef struct AclQueue_ *AclQueue;
	/*< Opaque Tensor object /
	typedef struct AclTensor_ *AclTensor;
	/*< Opaque Tensor pack object /
	typedef struct AclTensorPack_ *AclTensorPack;
	/*< Opaque Operator object /
	typedef struct AclOperator_ *AclOperator;

	// Capabilities bitfield (Note: if multiple are enabled ComputeLibrary will pick the best possible)
	typedef uint64_t AclTargetCapabilities;

	/*< Error codes returned by the public entry-points /
	typedef enum AclStatus : int32_t
	{
	AclSuccess = 0, /*< Call succeeded, leading to valid state for all involved objects/data /
	AclRuntimeError = 1, /*< Call failed during execution /
	AclOutOfMemory = 2, /*< Call failed due to failure to allocate resources /
	AclUnimplemented = 3, /*< Call failed as requested capability is not implemented /
	AclUnsupportedTarget = 4, /*< Call failed as an invalid backend was requested /
	AclInvalidTarget = 5, /*< Call failed as invalid argument was passed /
	AclInvalidArgument = 6, /*< Call failed as invalid argument was passed /
	AclUnsupportedConfig = 7, /*< Call failed as configuration is unsupported /
	AclInvalidObjectState = 8, /*< Call failed as an object has invalid state /
	} AclStatus;

	/*< Supported CPU targets /
	typedef enum AclTarget
	{
	AclCpu = 0, /*< Cpu target that uses SIMD extensions /
	AclGpuOcl = 1, /*< OpenCL target for GPU /
	} AclTarget;

	/** Execution mode types */
	typedef enum AclExecutionMode
	{
	AclPreferFastRerun = 0, /*< Prioritize performance when multiple iterations are performed /
	AclPreferFastStart = 1, /*< Prioritize performance when a single iterations is expected to be performed /
	} AclExecutionMode;

	/** Available CPU capabilities */
	typedef enum AclCpuCapabilities
	{
	AclCpuCapabilitiesAuto = 0, /*< Automatic discovery of capabilities /

	AclCpuCapabilitiesNeon = (1 << 0), /*< Enable NEON optimized paths /
	AclCpuCapabilitiesSve = (1 << 1), /*< Enable SVE optimized paths /
	AclCpuCapabilitiesSve2 = (1 << 2), /*< Enable SVE2 optimized paths /
	// Reserve 3, 4, 5, 6

	AclCpuCapabilitiesFp16 = (1 << 7), /*< Enable float16 data-type support /
	AclCpuCapabilitiesBf16 = (1 << 8), /*< Enable bfloat16 data-type support /
	// Reserve 9, 10, 11, 12

	AclCpuCapabilitiesDot = (1 << 13), /*< Enable paths that use the udot/sdot instructions /
	AclCpuCapabilitiesMmlaInt8 = (1 << 14), /*< Enable paths that use the mmla integer instructions /
	AclCpuCapabilitiesMmlaFp = (1 << 15), /*< Enable paths that use the mmla float instructions /

	AclCpuCapabilitiesAll = ~0 /*< Enable all paths /
	} AclCpuCapabilities;

	/*< Allocator interface that can be passed to a context /
	typedef struct AclAllocator
	{
	/** Allocate a block of size bytes of memory.
	*
	* @param[in] user_data User provided data that can be used by the allocator
	* @param[in] size Size of the allocation
	*
	* @return A pointer to the allocated block if successfull else NULL
	*/
	void (alloc)(void *user_data, size_t size);
	/** Release a block of size bytes of memory.
	*
	* @param[in] user_data User provided data that can be used by the allocator
	* @param[in] size Size of the allocation
	*/
	void (free)(void user_data, void *ptr);
	/** Allocate a block of size bytes of memory.
	*
	* @param[in] user_data User provided data that can be used by the allocator
	* @param[in] size Size of the allocation
	*
	* @return A pointer to the allocated block if successfull else NULL
	*/
	void (aligned_alloc)(void *user_data, size_t size, size_t alignment);
	/** Allocate a block of size bytes of memory.
	*
	* @param[in] user_data User provided data that can be used by the allocator
	* @param[in] size Size of the allocation
	*/
	void (aligned_free)(void user_data, void *ptr);

	/*< User provided information /
	void *user_data;
	} AclAllocator;

	/*< Context options /
	typedef struct AclContextOptions
	{
	AclExecutionMode mode; /*< Execution mode to use /
	AclTargetCapabilities capabilities; /*< Target capabilities /
	bool enable_fast_math; /*< Allow precision loss /
	const char kernel_config_file; /< Kernel cofiguration file /
	int32_t max_compute_units; /**< Max compute units that can be used by a queue created from the context.
	If <=0 the system will use the hw concurency insted */
	AclAllocator allocator; /< Allocator to be used by all the memory internally /
	} AclContextOptions;

	/*< Supported tuning modes /
	typedef enum
	{
	AclTuningModeNone = 0, /*< No tuning /
	AclRapid = 1, /*< Fast tuning mode, testing a small portion of the tuning space /
	AclNormal = 2, /*< Normal tuning mode, gives a good balance between tuning mode and performance /
	AclExhaustive = 3, /*< Exhaustive tuning mode, increased tuning time but with best results /
	} AclTuningMode;

	/*< Queue options /
	typedef struct
	{
	AclTuningMode mode; /*< Tuning mode /
	int32_t compute_units; /*< Compute Units that the queue will deploy /
	} AclQueueOptions;

	/*< Supported data types /
	typedef enum AclDataType
	{
	AclDataTypeUnknown = 0, /*< Unknown data type /
	AclUInt8 = 1, /*< 8-bit unsigned integer /
	AclInt8 = 2, /*< 8-bit signed integer /
	AclUInt16 = 3, /*< 16-bit unsigned integer /
	AclInt16 = 4, /*< 16-bit signed integer /
	AclUint32 = 5, /*< 32-bit unsigned integer /
	AclInt32 = 6, /*< 32-bit signed integer /
	AclFloat16 = 7, /*< 16-bit floating point /
	AclBFloat16 = 8, /*< 16-bit brain floating point /
	AclFloat32 = 9, /*< 32-bit floating point /
	} AclDataType;

	/*< Supported data layouts for operations /
	typedef enum AclDataLayout
	{
	AclDataLayoutUnknown = 0, /*< Unknown data layout /
	AclNhwc = 1, /*< Native, performant, Compute Library data layout /
	AclNchw = 2, /*< Data layout where width is the fastest changing dimension /
	} AclDataLayout;

	/** Type of memory to be imported */
	typedef enum AclImportMemoryType
	{
	AclHostPtr = 0 /*< Host allocated memory /
	} AclImportMemoryType;

	/*< Tensor Descriptor /
	typedef struct AclTensorDescriptor
	{
	int32_t ndims; /*< Number or dimensions /
	int32_t shape; /< Tensor Shape /
	AclDataType data_type; /*< Tensor Data type /
	int64_t strides; /< Strides on each dimension. Linear memory is assumed if nullptr /
	int64_t boffset; /*< Offset in terms of bytes for the first element /
	} AclTensorDescriptor;

	/*< Slot type of a tensor /
	typedef enum
	{
	AclSlotUnknown = -1,
	AclSrc = 0,
	AclSrc0 = 0,
	AclSrc1 = 1,
	AclDst = 30,
	AclSrcVec = 256,
	} AclTensorSlot;

	#ifdef __cplusplus
	}
	#endif /* __cplusplus */
	#endif /* ARM_COMPUTE_ACL_TYPES_H_ */