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mlu_op.h
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mlu_op.h
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/*************************************************************************
* Copyright (C) [2022] by Cambricon, Inc.
*
* 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 MLUOP_H_
#define MLUOP_H_
/******************************************************************************
* MLU-OPS: Cambricon Open Source operator library for Network
******************************************************************************/
#define MLUOP_MAJOR 1
#define MLUOP_MINOR 4
#define MLUOP_PATCHLEVEL 2
/*********************************************************************************
* MLUOP_VERSION is deprecated and not recommended. To get the version of MLUOP, use
* MLUOP_MAJOR, MLUOP_MINOR and MLUOP_PATCHLEVEL.
********************************************************************************/
#define MLUOP_VERSION (MLUOP_MAJOR * 1000 + MLUOP_MINOR * 100 + MLUOP_PATCHLEVEL)
#define MLUOP_DIM_MAX 8
#include <stdint.h>
#include "cn_api.h"
#include "cnrt.h"
#ifndef MLUOP_WIN_API
#ifdef _WIN32
#define MLUOP_WIN_API __stdcall
#else
#define MLUOP_WIN_API
#endif
#endif
#if defined(__cplusplus)
extern "C" {
#endif
/******************************************************************************
* MLU-OPS Return Status
******************************************************************************/
/*! @brief Describes function return status.
*/
typedef enum {
MLUOP_STATUS_SUCCESS = 0, /*!< The operation is successfully completed. */
MLUOP_STATUS_NOT_INITIALIZED = 1,
/*!< MLU-OPS library is not initialized properly, which is usually caused by failing
to call ::mluOpCreate, ::mluOpCreateTensorDescriptor or ::mluOpSetTensorDescriptor.
Such error is usually due to incompatible MLU device or invalid driver environment.
Notice that ::mluOpCreate should be called prior to any other MLU-OPS function. */
MLUOP_STATUS_ALLOC_FAILED = 2,
/*!< This error occurs when the resource allocation fails, which is usually caused by
failing to call cnMallocHost due to exceeded memory usage. Make sure that
the memory allocated previously is deallocated as much as possible. */
MLUOP_STATUS_BAD_PARAM = 3,
/*!< Invalid value or parameters are passed to the function, including data type, layout,
dimensions, etc. */
MLUOP_STATUS_INTERNAL_ERROR = 4,
/*!< An error occurs inside of the function, which may indicate an internal error or bug in
the library. This error is usually caused by failing to call cnrtMemcpyAsync.
Check whether the memory passed to the function is deallocated before the completion
of the routine. */
MLUOP_STATUS_ARCH_MISMATCH = 5,
/*!< Invalid MLU device which is not supported by current function. */
MLUOP_STATUS_EXECUTION_FAILED = 6,
/*!< An error occurs when the function fails to be executed on MLU device due to multiple reasons.
You can check whether the hardware environment, driver version and other prerequisite
libraries are correctly installed. */
MLUOP_STATUS_NOT_SUPPORTED = 7,
/*!< An error occurs when the requested functionality is not supported in this version but would
be supported in the future. */
MLUOP_STATUS_NUMERICAL_OVERFLOW = 8,
/*!< A numerical overflow occurs when executing the function, which is usually due to large scale
or inappropriate range of value of input tensor. */
} mluOpStatus_t;
/******************************************************************************
* MLU-OPS Tensor Layout
******************************************************************************/
/*!
* @brief Describes the data layouts in MLU-OPS.
*
* The data can be defined in three, four, or five dimensions.
*
* Take images for example, the format of the data layout can be NCHW:
* - N: The number of images
* - C: The number of image channels
* - H: The height of images
* - W: The weight of images
*
* Take sequence for example, the format of the data layout can be TNC:
* - T: The timing steps of sequence
* - N: The batch size of sequence
* - C: The alphabet size of sequence
*/
typedef enum {
MLUOP_LAYOUT_NCHW = 0,
/*!< The data layout is in the following order: batch size, channel, height, and width. */
MLUOP_LAYOUT_NHWC = 1,
/*!< The data layout is in the following order: batch size, height, width, and channel. */
MLUOP_LAYOUT_HWCN = 2,
/*!< The data layout is in the following order: height, width, channel and batch size. */
MLUOP_LAYOUT_NDHWC = 3,
/*!< The data layout is in the following order: batch size, depth, height, width, and
* channel. */
MLUOP_LAYOUT_ARRAY = 4,
/*!< The data is multi-dimensional tensor. */
MLUOP_LAYOUT_NCDHW = 5,
/*!< The data layout is in the following order: batch size, channel, depth, height, and
* width. */
MLUOP_LAYOUT_TNC = 6,
/*!< The data layout is in the following order: timing steps, batch size, alphabet size. */
MLUOP_LAYOUT_NTC = 7,
/*!< The data layout is in the following order: batch size, timing steps, alphabet size. */
MLUOP_LAYOUT_NC = 8,
/*!< The data layout is in the following order: batch size, channel. */
MLUOP_LAYOUT_NLC = 9,
/*!< The data layout is in the following order: batch size, width, channel. */
MLUOP_LAYOUT_NCL = 10,
/*!< The data layout is in the following order: batch size, channel, length.*/
} mluOpTensorLayout_t;
/******************************************************************************
* Cambricon MLU-OPS sequence data Layout
******************************************************************************/
/*!
* @brief Enumeration variables describing the sequence data layouts.
* N represents batch, B represents beam, T represents sequence length,
* and C represents embedding size.
*/
typedef enum {
MLUOP_SEQDATA_TNC = 0, /*!< Sequence data layout order: TNC. */
MLUOP_SEQDATA_TNC_PACKED = 1, /*!< Sequence data layout order: TNC_PACKED. */
MLUOP_SEQDATA_NTC = 2, /*!< Sequence data layout order: NTC. */
MLUOP_SEQDATA_NC = 3, /*!< Sequence data layout order: NC. */
MLUOP_SEQDATA_TNBC = 4, /*!< Sequence data layout order: TNBC. */
MLUOP_SEQDATA_TBNC = 5, /*!< Sequence data layout order: TBNC. */
MLUOP_SEQDATA_NBTC = 6, /*!< Sequence data layout order: NBTC. */
MLUOP_SEQDATA_NTBC = 7, /*!< Sequence data layout order: NTBC. */
MLUOP_SEQDATA_BNTC = 8, /*!< Sequence data layout order: BNTC. */
MLUOP_SEQDATA_BTNC = 9, /*!< Sequence data layout order: BTNC. */
MLUOP_SEQDATA_TN = 10, /*!< Sequence data layout order: TN. */
MLUOP_SEQDATA_NT = 11, /*!< Sequence data layout order: NT. */
} mluOpSeqDataLayout_t;
/******************************************************************************
* MLU-OPS Data Type
******************************************************************************/
/*! @brief Describes the data types in MLU-OPS. */
typedef enum {
MLUOP_DTYPE_INVALID = 0, /*!< An invalid data type. */
MLUOP_DTYPE_HALF = 1, /*!< A 16-bit floating-point data type. */
MLUOP_DTYPE_FLOAT = 2, /*!< A 32-bit floating-point data type. */
MLUOP_DTYPE_DOUBLE = 14, /*!< A 64-bit floating-point data type. */
MLUOP_DTYPE_INT8 = 3, /*!< An 8-bit signed integer data type. */
MLUOP_DTYPE_INT16 = 4, /*!< A 16-bit signed integer data type. */
MLUOP_DTYPE_INT31 = 5, /*!< The data is a 31-bit signed integer data type. */
MLUOP_DTYPE_INT32 = 6, /*!< A 32-bit signed integer data type. */
MLUOP_DTYPE_INT64 = 9, /*!< A 64-bit signed integer data type. */
MLUOP_DTYPE_UINT8 = 7, /*!< An 8-bit unsigned integer data type. */
MLUOP_DTYPE_UINT16 = 13, /*!< A 16-bit unsigned integer data type. */
MLUOP_DTYPE_UINT32 = 11, /*!< A 32-bit unsigned integer data type. */
MLUOP_DTYPE_UINT64 = 12, /*!< A 64-bit unsigned integer data type. */
MLUOP_DTYPE_BOOL = 8, /*!< A boolean data type. */
MLUOP_DTYPE_COMPLEX_HALF = 15, /*!< A 32-bit complex number of two fp16. */
MLUOP_DTYPE_COMPLEX_FLOAT = 16, /*!< A 64-bit complex number of two fp32. */
MLUOP_DTYPE_BFLOAT16 = 17,
/*!< The data is a 16-bit floating-point data type with one bit for sign,
* 8 bits for exponent and 7 bits for fraction. */
} mluOpDataType_t;
/*!
* @brief Describes whether to propagate NaN numbers.
*/
typedef enum {
MLUOP_NOT_PROPAGATE_NAN = 0, /*!< The NaN numbers are not propagated . */
MLUOP_PROPAGATE_NAN = 1, /*!< The NaN numbers are propagated. */
} mluOpNanPropagation_t;
/*!
* @brief Describes the options that can help choose the best suited algorithm used for
* implementation of the activation and accumulation operations.
**/
typedef enum {
MLUOP_COMPUTATION_FAST = 0,
/*!< Implementation with the fastest algorithm and lower precision. */
MLUOP_COMPUTATION_HIGH_PRECISION = 1,
/*!< Implementation with the high-precision algorithm regardless of the performance. */
MLUOP_COMPUTATION_ULTRAHIGH_PRECISION = 2,
/*!< Implementation with the ultrahigh-precision algorithm regardless of the performance. */
} mluOpComputationPreference_t;
/*!
* @brief Describes the atomics modes in MLU-OPS.
*/
typedef enum {
MLUOP_ATOMICS_NOT_ALLOWED = 1,
/*!< The atomics is not allowed to cumulate results. */
MLUOP_ATOMICS_ALLOWED = 2,
/*!< The atomics is allowed to cumulate results. */
} mluOpAtomicsMode_t;
/*!
* @brief Describes the rounding modes of quantization conversion.
*/
typedef enum {
MLUOP_ROUND_HALF_TO_EVEN = 0,
/*!< The rounding mode to round towards the nearest even neighbor is used for
* quantization conversion. */
MLUOP_ROUND_HALF_UP = 1,
/*!< The rounding mode to round up towards the nearest neighbor is used for
* quantization conversion. */
MLUOP_ROUND_HALF_OFF_ZERO = 2,
/*!< The rounding mode to round half away from zero is used for quantization
* conversion. */
} mluOpQuantizeRoundMode_t;
/*!
* @brief Describes the modes of quantization method.
*/
typedef enum {
MLUOP_QUANTIZE_POSITION = 0,
/*!< Quantization method with position factor and without scale factor. */
MLUOP_QUANTIZE_POSITION_SCALE = 1,
/*!< Quantization method with position and scale factors. */
MLUOP_QUANTIZE_POSITION_SCALE_OFFSET = 2,
/*!< Asymmetric quantization method with position, scale, and offset factors. */
} mluOpQuantizeMode_t;
/*!
* @brief Describes the bases that are used in the implementation of the log function.
*/
typedef enum {
MLUOP_LOG_E = 0, /*!< The base e is used. */
MLUOP_LOG_2 = 1, /*!< The base 2 is used. */
MLUOP_LOG_10 = 2, /*!< The base 10 is used. */
} mluOpLogBase_t;
/*!
* @brief Describes the pointer modes that are used in the implementation of the fill function.
*/
typedef enum {
MLUOP_POINTER_MODE_HOST = 0,
/*!< A host pointer, which means that the values passed by reference are on the host. */
MLUOP_POINTER_MODE_DEVICE = 1,
/*!< A device pointer, which means that the values passed by reference are on the device. */
} mluOpPointerMode_t;
/*!
* @brief Describes the input box modes that can be used to implement the Nms operation.
*/
typedef enum {
MLUOP_NMS_BOX_DIAGONAL = 0, /*!< The box mode is [x1, y1, x2, y2]. */
MLUOP_NMS_BOX_CENTER = 1,
/*!< The box mode is [x_center, y_center, width, height] where width > 0 and * height > 0. */
} mluOpNmsBoxPointMode_t;
/*!
* @brief Describes the output modes that can be used to implement the Nms operation.
*/
typedef enum {
MLUOP_NMS_OUTPUT_TARGET_INDICES = 0,
/*!< Returns target indices, which are sorted in decreasing order of confidences. */
MLUOP_NMS_OUTPUT_TARGET_CONFIDENCE_AND_POS_1 = 1,
/*!< Returns target confidences and positions with the order of confidence_0, x_01, y_01, x_02, y_02,
* confidence_1, x_11, y_11, x_12, y_12, ... ,
* confidence_n, x_n1, y_n1, x_n2, and y_n2. The (x_01, y_01) and (x_02, y_02) represent the top left corner
* and bottom right corner coordinates of the first box, respectively.
*/
MLUOP_NMS_OUTPUT_TARGET_CONFIDENCE_AND_POS_2 = 2,
/*!< Returns target confidences and positions with the order of confidence_0,
* confidence_1, ... , confidence_n, x_01, x_11, ... , x_n1, y_01, y_11, ... , y_n1, x_02, x_12, ... , x_n2, y_02,
* y_12, ... , and y_n2. The (x_01, y_01) and (x_02, y_02) represent the top left corner and
* bottom right corner coordinates of the first box, respectively.
*/
MLUOP_NMS_OUTPUT_TARGET_BATCH_AND_CLASS = 3,
/*!< Returns batch indices, class indices, and positions with the order of batch_0, class_0, box_0,
* ... , batch_0, class_0, box_m, batch_0, class_1, box_0, ... , batch_0, class_1, box_m, ... , ... ,
* batch_s, class_n, and box_m.
*/
} mluOpNmsOutputMode_t;
/*!
* @brief Describes the algorithms that can be used to implement the Nms operation.
*/
typedef enum {
MLUOP_NMS_HARD_NMS = 0,
/*!< A type of algorithm which updates confidence using hard Nms, for example
*confidence = IOU < IOU_threshold ? confidence : 0.
*/
MLUOP_NMS_SOFT_NMS_LINEAR = 1,
/*!< A type of algorithm which updates confidence using linear method, for example
* confidence = IOU < IOU_threshold ? confidence : confidence * (1 - IOU).
*/
MLUOP_NMS_SOFT_NMS_GAUSSIAN = 2,
/*!< A type of algorithm which updates confidence using Gaussian method, for example
*confidence = confidence * exp{- \f$IOU^2\f$ / (2 * sigma)}.
*/
} mluOpNmsMethodMode_t;
/*!
* @brief Describes the algorithms that can be used to implement the Nms operation.
*/
typedef enum {
MLUOP_NMS_ALGO_EXCLUDE_BOUNDARY = 0,
/*!< Implements Nms with boundary excluded. In this mode,
* the height or width of boxes is ``(x2 - x1)``.
*/
MLUOP_NMS_ALGO_INCLUDE_BOUNDARY = 1,
/*!< Implements Nms with boundary included. In this mode,
* the height or width of boxes is ``(x2 - x1 + offset)``.
*/
} mluOpNmsAlgo_t;
/******************************************************************************
* MLU-OPS Data Structure: Customized Operation
******************************************************************************/
/*!
* @brief Describes the data type of indices used in the reduce function.
*/
typedef enum {
MLUOP_32BIT_INDICES = 0, /*!< The data type of indices is unsigned int. */
MLUOP_16BIT_INDICES = 1, /*!< The data type of indices is unsigned short. */
} mluOpIndicesType_t;
/*!
* @brief Describes the reduction applied to the output in the implementation of the loss function.
*/
typedef enum {
MLUOP_LOSS_REDUCTION_NONE = 0,
/*!< No reduction is applied in the operation.*/
MLUOP_LOSS_REDUCTION_SUM = 1,
/*!< The elements of output are summed in the operation.*/
MLUOP_LOSS_REDUCTION_MEAN = 2,
/*!< The weighted mean of the output is applied in the operation.*/
} mluOpLossReduction_t;
/*!
* @brief Describes the modes that are used in the Reduce function.
*/
typedef enum {
MLUOP_REDUCE_DSUM = 0, /*!< Computes the sum value. */
MLUOP_REDUCE_DMEAN = 1, /*!< Computes the mean value. */
MLUOP_REDUCE_DMAX = 2, /*!< Computes the maximum value. */
} mluOpReduceMode_t;
/*!
* @brief Enumeration variables describing the pooling modes that can be used to
* implement the pooling operation.
*/
typedef enum {
MLUOP_POOLING_MAX = 0, /*!< The max pooling mode is implemented.*/
MLUOP_POOLING_AVERAGE_COUNT_INCLUDE_PADDING = 1,
/*!< The average pooling with padding mode is implemented.*/
MLUOP_POOLING_AVERAGE_COUNT_EXCLUDE_PADDING = 2,
/*!< The average pooling without padding mode is implemented.*/
MLUOP_POOLING_FIXED = 3,
/*!< The fixed mode is implemented. This mode is used in the unpool operation.
* In this mode, each input pixel will be put to the center of the pooling kernel
* regardless of the index.*/
} mluOpPoolingMode_t;
/******************************************************************************
* MLU-OPS Runtime Management
******************************************************************************/
/*!
* @struct mluOpContext
* @brief Describes the Cambricon MLU-OPS context.
*/
struct mluOpContext;
/*!
* Pointer to ::mluOpContext struct that holds the Cambricon MLU-OPS context.
*
* MLU device resources cannot be accessed directly, so MLU-OPS uses
* handle to manage MLU-OPS context including MLU device information
* and queues.
*
* The MLU-OPS context is created with ::mluOpCreate and the returned
* handle should be passed to all the subsequent function calls.
* You need to destroy the MLU-OPS context at the end with ::mluOpDestroy.
*/
typedef struct mluOpContext *mluOpHandle_t;
/*!
* The descriptor of the collection of tensor which is used in the RNN operation, such as weight,
* bias.
* You need to call ::mluOpCreateTensorSetDescriptor to create a descriptor, and
* call ::mluOpInitTensorSetMemberDescriptor to set the information about each tensor in
* the tensor set. If the data type of the tensor in the tensor set is in fixed-point data type,
* call ::mluOpInitTensorSetMemberDescriptorPositionAndScale to set quantization
* parameters.
* At last, you need to destroy the descriptor at the end with
* ::mluOpDestroyTensorSetDescriptor.
*/
typedef struct mluOpTensorSetStruct *mluOpTensorSetDescriptor_t;
// Group: Runtime Management
/*!
* @brief Initializes the MLU-OPS library and creates a handle \b handle to a struct
* that holds the MLU-OPS library context. It allocates hardware resources on the host
* and device. You need to call this function before any other MLU-OPS function.
*
* You need to call ::mluOpDestroy to release the resources later.
*
* @param[out] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices and queues.
* For detailed information, see ::mluOpHandle_t.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpCreate(mluOpHandle_t *handle);
// Group: Runtime Management
/*!
* @brief Updates the MLU-OPS context information that is held by \b handle. This function
* should be called if you call CNDrv API cnSetCtxConfigParam to set the context information.
* The related context information will be synchronized to MLU-OPS with this function. For
* detailed information, see "Cambricon CNDrv Developer Guide".
*
* @param[in] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices. For detailed information,
* see ::mluOpHandle_t.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpUpdateContextInformation(mluOpHandle_t handle);
// Group: Runtime Management
/*!
* @brief Releases the resources of the specified MLU-OPS handle \b handle that was
* created by ::mluOpCreate. It is usually the last call to destroy
* the handle to the MLU-OPS handle.
*
* @param[in] handle
* Pointer to the MLU devices that holds information to be destroyed.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpDestroy(mluOpHandle_t handle);
// Group: Runtime Management
/*!
* @brief Sets the runtime queue \b queue in the handle \b handle. The queue is used to
* launch kernels or to synchronize to this queue.
*
* Before setting a queue \b queue, you need to call ::mluOpCreate to initialize
* MLU-OPS library, and call cnrtCreateQueue to create a queue \b queue.
*
* @param[in] handle
* Handle to a Cambricon MLU-OPS context that is used to manage MLU devices and
* queues. For detailed information, see ::mluOpHandle_t.
* @param[in] queue
* The runtime queue to be set to the MLU-OPS handle.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpSetQueue(mluOpHandle_t handle, cnrtQueue_t queue);
// Group: Runtime Management
/*!
* @brief Retrieves the queue \b queue that was previously set to the handle \b handle.
*
* @param[in] handle
* Handle to a Cambricon MLU-OPS context that is used to manage MLU devices and queues. For
* detailed information, see ::mluOpHandle_t.
* @param[out] queue
* Pointer to the queue that was previously set to the specified handle.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpGetQueue(mluOpHandle_t handle, cnrtQueue_t *queue);
// Group: Runtime Management
/*!
* @brief Converts the MLU-OPS enumerated status code to ASCIIZ static string and returns
* a pointer to the MLU memory that holds information about ASCIIZ static string with
* the status name. For example, when the input argument is ::MLUOP_STATUS_SUCCESS, the
* returned string is ::MLUOP_STATUS_SUCCESS. When an invalid status value is passed to
* the function, the returned string is ::MLUOP_STATUS_BAD_PARAM.
*
* @param[in] status
* The MLU-OPS enumerated status code.
*
* @par return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
const char *
mluOpGetErrorString(mluOpStatus_t status);
// Group: Tensor
/*!
* @brief Gets the size of a data type in ::mluOpDataType_t.
*
* @param[in] data_type
* For detailed information, see ::mluOpDataType_t.
* @param[out] size
* Host pointer to the size of the data type.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpGetSizeOfDataType(mluOpDataType_t data_type, size_t *size);
// Group: Version Management
/*!
* @brief Retrieves the version of MLU-OPS library. The version of MLU-OPS
* is composed of \b major, \b minor, and \b patch. For instance, major = 1,
* minor = 2, patch = 3, the version of MLU-OPS library is 1.2.3.
*
* @param[in] major
* Pointer to scale factor that gets the major version of MLU-OPS library.
* @param[in] minor
* Pointer to scale factor that gets the minor version of MLU-OPS library.
* @param[in] patch
* Pointer to scale factor that gets the patch version of MLU-OPS library.
*
* @par return
* - None.
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
void
mluOpGetLibVersion(int *major, int *minor, int *patch);
// Group: QuantizeRoundMode
/*!
* @brief Updates the specific rounding mode of MLU-OPS context information that is held by the \b
* handle. This function should be called if you want to change the MLU-OPS rounding mode that
* is used to cumulate the results. For detailed information, see "Cambricon CNDrv Developer
* Guide".
*
* @param[in] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices and queues. For detailed
* information, see ::mluOpHandle_t.
* @param[in] round_mode
* The rounding mode of quantization conversion to be set to the MLU-OPS handle.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpSetQuantizeRoundMode(mluOpHandle_t handle, mluOpQuantizeRoundMode_t round_mode);
// Group: QuantizeRoundMode
/*!
* @brief Retrieves the rounding mode of a specific MLU-OPS context.
*
* @param[in] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices and queues. For detailed
* information, see ::mluOpHandle_t.
* @param[out] round_mode
* The rounding mode of quantization conversion that was previously set to the specified handle.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - The rounding mode of initialized ::mluOpHandle_t is MLUOP_ROUND_TO_EVEN.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpGetQuantizeRoundMode(mluOpHandle_t handle, mluOpQuantizeRoundMode_t *round_mode);
// Group: Runtime Management
/*!
* @brief Updates the specific atomics mode of MLU-OPS context information that is held by the
* \b handle. This function should be called if you want to change the atomics mode that is
* used to cumulate the results. For detailed information, see "Cambricon CNDrv Developer Guide".
*
* @param[in] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices and queues. For detailed
* information, see ::mluOpHandle_t.
* @param[in] atomics_mode
* The atomics mode.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpSetAtomicsMode(mluOpHandle_t handle, mluOpAtomicsMode_t atomics_mode);
// Group: Runtime Management
/*!
* @brief Retrieves the atomics mode of a specific MLU-OPS context.
*
* @param[in] handle
* Pointer to a Cambricon MLU-OPS context that is used to manage MLU devices and queues. For
* detailed information, see ::mluOpHandle_t.
* @param[out] atomics_mode
* The atomics mode.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par Data Type
* - None.
*
* @par Data Layout
* - None.
*
* @par Scale Limitation
* - None.
*
* @par API Dependency
* - None.
*
* @par Note
* - The default atomics mode of default initialized ::mluOpHandle_t is ::MLUOP_ATOMICS_NOT_ALLOWED.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpGetAtomicsMode(mluOpHandle_t handle, mluOpAtomicsMode_t *atomics_mode);
/******************************************************************************
* MLU-OPS Data Structure: Descriptor
* The struct represent node, weight and the AI network layer
******************************************************************************/
/*!
* The descriptor of a tensor that holds the information including tensor
* layout, data type, the number of dimensions, shape and strides.
*
* You need to call ::mluOpCreateTensorDescriptor to create a descriptor,
* and call ::mluOpSetTensorDescriptor or ::mluOpSetTensorDescriptorEx
* to set the tensor information to the descriptor. Also, you need to destroy
* the MLU-OPS context at the end with ::mluOpDestroyTensorDescriptor.
*/
typedef struct mluOpTensorStruct *mluOpTensorDescriptor_t;
/*! The descriptor of Sequence Data that holds the dimensions,
* layout, data type, sequence length, padding fill, position, and scale.
* The total size of the tensor descriptor supports up to 2 Giga elements.
* Call ::mluOpCreateSeqDataDescriptor to create a descriptor, and
* call ::mluOpSetSeqDataDescriptor_v2 to set the sequence data information to the descriptor.
* If the sequence data is in fixed-point data type, call ::mluOpSetSeqDataDescriptorPositionAndScale
* to set the position and scale of the sequence data.
* To destroy the descriptor, call ::mluOpDestroySeqDataDescriptor.
*/
typedef struct mluOpSeqDataStruct *mluOpSeqDataDescriptor_t;
// Group: SeqData
/*!
* @brief Creates a sequence data instance \p seq_data_desc that holds the dimensions, data type,
* sequence lengths, padding fill and layout of sequence data on the host memory.
*
* Use ::mluOpSetSeqDataDescriptor_v2 to configure the descriptor and ::mluOpDestroySeqDataDescriptor
* function to destroy the sequence data descriptor.
*
* @param[out] seq_data_desc
* Pointer to the host memory that holds information about
* the struct of the sequence data descriptor.
*
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @note
* - None.
*
* @par Requirements
* - None.
*
* @par Example
* - None.
*
* @par Reference
* - None.
*/
mluOpStatus_t MLUOP_WIN_API
mluOpCreateSeqDataDescriptor(mluOpSeqDataDescriptor_t *seq_data_desc);
// Group: SeqData
/*!
* @brief Sets the sequence data descriptor \p seq_data_desc that holds the dimensions,
* data type, sequence lengths, padding fill and layout of the sequence data.
*
* The number of dimensions in the \p dimSize[] is defined by \p dimNb. For example,
* if the layout of the sequence data is set to ::MLUOP_SEQDATA_NC, the \p dimNb is 2,
* with \p dimSize={batch, embedding}.
*
* The ::mluOpSeqDataDescriptor_t container is a collection of fixed-length sequential
* vectors, similar to the words constructing sentences. The T dimension described in the
* ::mluOpSeqDataLayout_t is the time dimension. Different sequences are bundled together to a
* batch. The beam dimension described in the ::mluOpSeqDataLayout_t is
* different candidates presenting a similar meaning in a typical translation task. The original
* sentence can be translated to several versions before picking the optimal one, and the number
* of candidates is beam.
*
* Note that different sentences have different sequence lengths, even inside a beam.
* \p seqLengthArray is to record the real sequence lengths before padding to the maximum sequence
* length. The value of \p seqLengthArray should follow a batch-beam order, in despite of
* sequence data layout. Take a sequence of batch=3, beam=2 for example, the \p seqLengthArray
* should be as follows:
@verbatim
{batch_idx = 0, beam_idx = 0}
{batch_idx = 0, beam_idx = 1}
{batch_idx = 1, beam_idx = 0}
{batch_idx = 1, beam_idx = 1}
{batch_idx = 2, beam_idx = 0}
{batch_idx = 2, beam_idx = 1}
@endverbatim
* If the real sequence lengths are not requested, pass NULL to \p seqLengthArray in this function.
*
* The \p seqLengthArraySize should be batch * beam, which is 6 in the example above.
*
* The \p PaddingFill describes whether the sequence data needs to be padded using a
* specified value. In the multi-head attention operation, the padding part should be zero before
* entering the attention part to ensure the result validity. If the sequence data is padding
* zero in advance, pass NULL to \p PaddingFill in this function. Otherwise, pass a pointer to padding
* value (e.g. float a = 0, &a) to \p PaddingFill to indicate this function that extra padding are
* needed.
*
* @param[in,out] seq_data_desc
* Input/output. The descriptor of the sequence data. For detailed information,
* see ::mluOpSeqDataDescriptor_t.
* @param[in] layout
* The layout of the sequence data. See ::mluOpSeqDataLayout_t for the description of the
* enumeration type.
* @param[in] dtype
* The data type of the sequence data. See ::mluOpDataType_t for the description of the
* enumeration type.
* @param[in] dimNb
* The number of dimensions of the sequence data.
* @param[in] dimSize
* An array that contains the size of the sequence data for each dimension.
* @param[in] seqLengthArraySize
* Number of elements in sequence length array, \p seqLengthArray[]. It should be
* batch * beam. The batch and beam are described in the ::mluOpSeqDataLayout_t.
* @param[in] seqLengthArray
* An integer array recording the length of all sequences. Note that the array should be
* set in the batch-beam order, in despite of sequence data layout. Set this parameter to NULL
* when sequence length array is not requested.
* @param[in] paddingFill
* A host pointer to the data type \p dtype to fill up the padding vectors within
* the valid length of each sequence. Use NULL when extra padding is not requested.
* @par Return
* - ::MLUOP_STATUS_SUCCESS, ::MLUOP_STATUS_BAD_PARAM
*
* @par API Dependency
* - Before calling this function, ::mluOpCreateSeqDataDescriptor should be called.