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cb69e2d413
Switched HIP version check from driverVersion to runtimeVersion Fixed syntax check of HAS_VPERM macro in several kernel includes causing invalid error message for AMD GPUs on Windows Updated AMD driver requirements Updated docs/changes.txt with missing changes from previous commits Fixed invalid vector data type in Murmur Hash in -a 3 mode Fixed uninitialized variable warning in src/hashes.c Fixed broken support for --generate-rules-func-min
442 lines
29 KiB
C
442 lines
29 KiB
C
/**
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* Author......: See docs/credits.txt
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* License.....: MIT
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*/
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#ifndef _EXT_HIP_H
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#define _EXT_HIP_H
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// The general Idea with HIP is to use it for AMD GPU since we use CUDA for NV
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// Therefore, we need to take certain items, such as hipDeviceptr_t from driver specific paths like amd_driver_types.h
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// We just need to keep this in mind in case we need to update these constants from future SDK versions
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// start: amd_driver_types.h
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typedef void* hipDeviceptr_t;
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typedef enum hipFunction_attribute {
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HIP_FUNC_ATTRIBUTE_MAX_THREADS_PER_BLOCK,
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HIP_FUNC_ATTRIBUTE_SHARED_SIZE_BYTES,
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HIP_FUNC_ATTRIBUTE_CONST_SIZE_BYTES,
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HIP_FUNC_ATTRIBUTE_LOCAL_SIZE_BYTES,
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HIP_FUNC_ATTRIBUTE_NUM_REGS,
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HIP_FUNC_ATTRIBUTE_PTX_VERSION,
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HIP_FUNC_ATTRIBUTE_BINARY_VERSION,
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HIP_FUNC_ATTRIBUTE_CACHE_MODE_CA,
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HIP_FUNC_ATTRIBUTE_MAX_DYNAMIC_SHARED_SIZE_BYTES,
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HIP_FUNC_ATTRIBUTE_PREFERRED_SHARED_MEMORY_CARVEOUT,
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HIP_FUNC_ATTRIBUTE_MAX
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}hipFunction_attribute;
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// stop: amd_driver_types.h
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// start: hip_runtime_api.h
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typedef int hipDevice_t;
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typedef struct ihipCtx_t* hipCtx_t;
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typedef struct ihipEvent_t* hipEvent_t;
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typedef struct ihipStream_t* hipStream_t;
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typedef struct ihipModule_t* hipModule_t;
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typedef struct ihipModuleSymbol_t* hipFunction_t;
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// Ignoring error-code return values from hip APIs is discouraged. On C++17,
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// we can make that yield a warning
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#if __cplusplus >= 201703L
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#define __HIP_NODISCARD [[nodiscard]]
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#else
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#define __HIP_NODISCARD
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#endif
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typedef enum __HIP_NODISCARD hipError_t {
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hipSuccess = 0, ///< Successful completion.
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hipErrorInvalidValue = 1, ///< One or more of the parameters passed to the API call is NULL
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///< or not in an acceptable range.
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hipErrorOutOfMemory = 2,
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// Deprecated
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hipErrorMemoryAllocation = 2, ///< Memory allocation error.
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hipErrorNotInitialized = 3,
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// Deprecated
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hipErrorInitializationError = 3,
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hipErrorDeinitialized = 4,
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hipErrorProfilerDisabled = 5,
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hipErrorProfilerNotInitialized = 6,
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hipErrorProfilerAlreadyStarted = 7,
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hipErrorProfilerAlreadyStopped = 8,
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hipErrorInvalidConfiguration = 9,
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hipErrorInvalidPitchValue = 12,
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hipErrorInvalidSymbol = 13,
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hipErrorInvalidDevicePointer = 17, ///< Invalid Device Pointer
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hipErrorInvalidMemcpyDirection = 21, ///< Invalid memory copy direction
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hipErrorInsufficientDriver = 35,
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hipErrorMissingConfiguration = 52,
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hipErrorPriorLaunchFailure = 53,
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hipErrorInvalidDeviceFunction = 98,
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hipErrorNoDevice = 100, ///< Call to hipGetDeviceCount returned 0 devices
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hipErrorInvalidDevice = 101, ///< DeviceID must be in range 0...#compute-devices.
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hipErrorInvalidImage = 200,
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hipErrorInvalidContext = 201, ///< Produced when input context is invalid.
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hipErrorContextAlreadyCurrent = 202,
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hipErrorMapFailed = 205,
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// Deprecated
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hipErrorMapBufferObjectFailed = 205, ///< Produced when the IPC memory attach failed from ROCr.
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hipErrorUnmapFailed = 206,
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hipErrorArrayIsMapped = 207,
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hipErrorAlreadyMapped = 208,
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hipErrorNoBinaryForGpu = 209,
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hipErrorAlreadyAcquired = 210,
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hipErrorNotMapped = 211,
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hipErrorNotMappedAsArray = 212,
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hipErrorNotMappedAsPointer = 213,
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hipErrorECCNotCorrectable = 214,
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hipErrorUnsupportedLimit = 215,
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hipErrorContextAlreadyInUse = 216,
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hipErrorPeerAccessUnsupported = 217,
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hipErrorInvalidKernelFile = 218, ///< In CUDA DRV, it is CUDA_ERROR_INVALID_PTX
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hipErrorInvalidGraphicsContext = 219,
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hipErrorInvalidSource = 300,
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hipErrorFileNotFound = 301,
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hipErrorSharedObjectSymbolNotFound = 302,
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hipErrorSharedObjectInitFailed = 303,
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hipErrorOperatingSystem = 304,
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hipErrorInvalidHandle = 400,
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// Deprecated
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hipErrorInvalidResourceHandle = 400, ///< Resource handle (hipEvent_t or hipStream_t) invalid.
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hipErrorNotFound = 500,
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hipErrorNotReady = 600, ///< Indicates that asynchronous operations enqueued earlier are not
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///< ready. This is not actually an error, but is used to distinguish
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///< from hipSuccess (which indicates completion). APIs that return
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///< this error include hipEventQuery and hipStreamQuery.
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hipErrorIllegalAddress = 700,
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hipErrorLaunchOutOfResources = 701, ///< Out of resources error.
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hipErrorLaunchTimeOut = 702,
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hipErrorPeerAccessAlreadyEnabled =
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704, ///< Peer access was already enabled from the current device.
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hipErrorPeerAccessNotEnabled =
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705, ///< Peer access was never enabled from the current device.
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hipErrorSetOnActiveProcess = 708,
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hipErrorContextIsDestroyed = 709,
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hipErrorAssert = 710, ///< Produced when the kernel calls assert.
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hipErrorHostMemoryAlreadyRegistered =
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712, ///< Produced when trying to lock a page-locked memory.
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hipErrorHostMemoryNotRegistered =
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713, ///< Produced when trying to unlock a non-page-locked memory.
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hipErrorLaunchFailure =
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719, ///< An exception occurred on the device while executing a kernel.
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hipErrorCooperativeLaunchTooLarge =
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720, ///< This error indicates that the number of blocks launched per grid for a kernel
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///< that was launched via cooperative launch APIs exceeds the maximum number of
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///< allowed blocks for the current device
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hipErrorNotSupported = 801, ///< Produced when the hip API is not supported/implemented
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hipErrorStreamCaptureUnsupported = 900, ///< The operation is not permitted when the stream
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///< is capturing.
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hipErrorStreamCaptureInvalidated = 901, ///< The current capture sequence on the stream
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///< has been invalidated due to a previous error.
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hipErrorStreamCaptureMerge = 902, ///< The operation would have resulted in a merge of
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///< two independent capture sequences.
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hipErrorStreamCaptureUnmatched = 903, ///< The capture was not initiated in this stream.
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hipErrorStreamCaptureUnjoined = 904, ///< The capture sequence contains a fork that was not
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///< joined to the primary stream.
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hipErrorStreamCaptureIsolation = 905, ///< A dependency would have been created which crosses
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///< the capture sequence boundary. Only implicit
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///< in-stream ordering dependencies are allowed
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///< to cross the boundary
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hipErrorStreamCaptureImplicit = 906, ///< The operation would have resulted in a disallowed
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///< implicit dependency on a current capture sequence
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///< from hipStreamLegacy.
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hipErrorCapturedEvent = 907, ///< The operation is not permitted on an event which was last
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///< recorded in a capturing stream.
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hipErrorStreamCaptureWrongThread = 908, ///< A stream capture sequence not initiated with
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///< the hipStreamCaptureModeRelaxed argument to
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///< hipStreamBeginCapture was passed to
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///< hipStreamEndCapture in a different thread.
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hipErrorUnknown = 999, //< Unknown error.
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// HSA Runtime Error Codes start here.
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hipErrorRuntimeMemory = 1052, ///< HSA runtime memory call returned error. Typically not seen
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///< in production systems.
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hipErrorRuntimeOther = 1053, ///< HSA runtime call other than memory returned error. Typically
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///< not seen in production systems.
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hipErrorTbd ///< Marker that more error codes are needed.
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} hipError_t;
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#undef __HIP_NODISCARD
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typedef enum hipDeviceAttribute_t {
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hipDeviceAttributeCudaCompatibleBegin = 0,
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hipDeviceAttributeEccEnabled = hipDeviceAttributeCudaCompatibleBegin, ///< Whether ECC support is enabled.
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hipDeviceAttributeAccessPolicyMaxWindowSize, ///< Cuda only. The maximum size of the window policy in bytes.
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hipDeviceAttributeAsyncEngineCount, ///< Cuda only. Asynchronous engines number.
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hipDeviceAttributeCanMapHostMemory, ///< Whether host memory can be mapped into device address space
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hipDeviceAttributeCanUseHostPointerForRegisteredMem,///< Cuda only. Device can access host registered memory
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///< at the same virtual address as the CPU
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hipDeviceAttributeClockRate, ///< Peak clock frequency in kilohertz.
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hipDeviceAttributeComputeMode, ///< Compute mode that device is currently in.
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hipDeviceAttributeComputePreemptionSupported, ///< Cuda only. Device supports Compute Preemption.
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hipDeviceAttributeConcurrentKernels, ///< Device can possibly execute multiple kernels concurrently.
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hipDeviceAttributeConcurrentManagedAccess, ///< Device can coherently access managed memory concurrently with the CPU
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hipDeviceAttributeCooperativeLaunch, ///< Support cooperative launch
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hipDeviceAttributeCooperativeMultiDeviceLaunch, ///< Support cooperative launch on multiple devices
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hipDeviceAttributeDeviceOverlap, ///< Cuda only. Device can concurrently copy memory and execute a kernel.
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///< Deprecated. Use instead asyncEngineCount.
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hipDeviceAttributeDirectManagedMemAccessFromHost, ///< Host can directly access managed memory on
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///< the device without migration
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hipDeviceAttributeGlobalL1CacheSupported, ///< Cuda only. Device supports caching globals in L1
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hipDeviceAttributeHostNativeAtomicSupported, ///< Cuda only. Link between the device and the host supports native atomic operations
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hipDeviceAttributeIntegrated, ///< Device is integrated GPU
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hipDeviceAttributeIsMultiGpuBoard, ///< Multiple GPU devices.
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hipDeviceAttributeKernelExecTimeout, ///< Run time limit for kernels executed on the device
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hipDeviceAttributeL2CacheSize, ///< Size of L2 cache in bytes. 0 if the device doesn't have L2 cache.
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hipDeviceAttributeLocalL1CacheSupported, ///< caching locals in L1 is supported
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hipDeviceAttributeLuid, ///< Cuda only. 8-byte locally unique identifier in 8 bytes. Undefined on TCC and non-Windows platforms
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hipDeviceAttributeLuidDeviceNodeMask, ///< Cuda only. Luid device node mask. Undefined on TCC and non-Windows platforms
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hipDeviceAttributeComputeCapabilityMajor, ///< Major compute capability version number.
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hipDeviceAttributeManagedMemory, ///< Device supports allocating managed memory on this system
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hipDeviceAttributeMaxBlocksPerMultiProcessor, ///< Cuda only. Max block size per multiprocessor
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hipDeviceAttributeMaxBlockDimX, ///< Max block size in width.
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hipDeviceAttributeMaxBlockDimY, ///< Max block size in height.
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hipDeviceAttributeMaxBlockDimZ, ///< Max block size in depth.
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hipDeviceAttributeMaxGridDimX, ///< Max grid size in width.
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hipDeviceAttributeMaxGridDimY, ///< Max grid size in height.
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hipDeviceAttributeMaxGridDimZ, ///< Max grid size in depth.
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hipDeviceAttributeMaxSurface1D, ///< Maximum size of 1D surface.
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hipDeviceAttributeMaxSurface1DLayered, ///< Cuda only. Maximum dimensions of 1D layered surface.
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hipDeviceAttributeMaxSurface2D, ///< Maximum dimension (width, height) of 2D surface.
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hipDeviceAttributeMaxSurface2DLayered, ///< Cuda only. Maximum dimensions of 2D layered surface.
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hipDeviceAttributeMaxSurface3D, ///< Maximum dimension (width, height, depth) of 3D surface.
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hipDeviceAttributeMaxSurfaceCubemap, ///< Cuda only. Maximum dimensions of Cubemap surface.
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hipDeviceAttributeMaxSurfaceCubemapLayered, ///< Cuda only. Maximum dimension of Cubemap layered surface.
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hipDeviceAttributeMaxTexture1DWidth, ///< Maximum size of 1D texture.
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hipDeviceAttributeMaxTexture1DLayered, ///< Cuda only. Maximum dimensions of 1D layered texture.
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hipDeviceAttributeMaxTexture1DLinear, ///< Maximum number of elements allocatable in a 1D linear texture.
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///< Use cudaDeviceGetTexture1DLinearMaxWidth() instead on Cuda.
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hipDeviceAttributeMaxTexture1DMipmap, ///< Cuda only. Maximum size of 1D mipmapped texture.
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hipDeviceAttributeMaxTexture2DWidth, ///< Maximum dimension width of 2D texture.
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hipDeviceAttributeMaxTexture2DHeight, ///< Maximum dimension hight of 2D texture.
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hipDeviceAttributeMaxTexture2DGather, ///< Cuda only. Maximum dimensions of 2D texture if gather operations performed.
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hipDeviceAttributeMaxTexture2DLayered, ///< Cuda only. Maximum dimensions of 2D layered texture.
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hipDeviceAttributeMaxTexture2DLinear, ///< Cuda only. Maximum dimensions (width, height, pitch) of 2D textures bound to pitched memory.
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hipDeviceAttributeMaxTexture2DMipmap, ///< Cuda only. Maximum dimensions of 2D mipmapped texture.
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hipDeviceAttributeMaxTexture3DWidth, ///< Maximum dimension width of 3D texture.
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hipDeviceAttributeMaxTexture3DHeight, ///< Maximum dimension height of 3D texture.
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hipDeviceAttributeMaxTexture3DDepth, ///< Maximum dimension depth of 3D texture.
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hipDeviceAttributeMaxTexture3DAlt, ///< Cuda only. Maximum dimensions of alternate 3D texture.
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hipDeviceAttributeMaxTextureCubemap, ///< Cuda only. Maximum dimensions of Cubemap texture
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hipDeviceAttributeMaxTextureCubemapLayered, ///< Cuda only. Maximum dimensions of Cubemap layered texture.
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hipDeviceAttributeMaxThreadsDim, ///< Maximum dimension of a block
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hipDeviceAttributeMaxThreadsPerBlock, ///< Maximum number of threads per block.
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hipDeviceAttributeMaxThreadsPerMultiProcessor, ///< Maximum resident threads per multiprocessor.
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hipDeviceAttributeMaxPitch, ///< Maximum pitch in bytes allowed by memory copies
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hipDeviceAttributeMemoryBusWidth, ///< Global memory bus width in bits.
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hipDeviceAttributeMemoryClockRate, ///< Peak memory clock frequency in kilohertz.
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hipDeviceAttributeComputeCapabilityMinor, ///< Minor compute capability version number.
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hipDeviceAttributeMultiGpuBoardGroupID, ///< Cuda only. Unique ID of device group on the same multi-GPU board
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hipDeviceAttributeMultiprocessorCount, ///< Number of multiprocessors on the device.
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hipDeviceAttributeName, ///< Device name.
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hipDeviceAttributePageableMemoryAccess, ///< Device supports coherently accessing pageable memory
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///< without calling hipHostRegister on it
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hipDeviceAttributePageableMemoryAccessUsesHostPageTables, ///< Device accesses pageable memory via the host's page tables
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hipDeviceAttributePciBusId, ///< PCI Bus ID.
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hipDeviceAttributePciDeviceId, ///< PCI Device ID.
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hipDeviceAttributePciDomainID, ///< PCI Domain ID.
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hipDeviceAttributePersistingL2CacheMaxSize, ///< Cuda11 only. Maximum l2 persisting lines capacity in bytes
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hipDeviceAttributeMaxRegistersPerBlock, ///< 32-bit registers available to a thread block. This number is shared
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///< by all thread blocks simultaneously resident on a multiprocessor.
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hipDeviceAttributeMaxRegistersPerMultiprocessor, ///< 32-bit registers available per block.
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hipDeviceAttributeReservedSharedMemPerBlock, ///< Cuda11 only. Shared memory reserved by CUDA driver per block.
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hipDeviceAttributeMaxSharedMemoryPerBlock, ///< Maximum shared memory available per block in bytes.
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hipDeviceAttributeSharedMemPerBlockOptin, ///< Cuda only. Maximum shared memory per block usable by special opt in.
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hipDeviceAttributeSharedMemPerMultiprocessor, ///< Cuda only. Shared memory available per multiprocessor.
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hipDeviceAttributeSingleToDoublePrecisionPerfRatio, ///< Cuda only. Performance ratio of single precision to double precision.
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hipDeviceAttributeStreamPrioritiesSupported, ///< Cuda only. Whether to support stream priorities.
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hipDeviceAttributeSurfaceAlignment, ///< Cuda only. Alignment requirement for surfaces
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hipDeviceAttributeTccDriver, ///< Cuda only. Whether device is a Tesla device using TCC driver
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hipDeviceAttributeTextureAlignment, ///< Alignment requirement for textures
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hipDeviceAttributeTexturePitchAlignment, ///< Pitch alignment requirement for 2D texture references bound to pitched memory;
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hipDeviceAttributeTotalConstantMemory, ///< Constant memory size in bytes.
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hipDeviceAttributeTotalGlobalMem, ///< Global memory available on devicice.
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hipDeviceAttributeUnifiedAddressing, ///< Cuda only. An unified address space shared with the host.
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hipDeviceAttributeUuid, ///< Cuda only. Unique ID in 16 byte.
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hipDeviceAttributeWarpSize, ///< Warp size in threads.
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hipDeviceAttributeCudaCompatibleEnd = 9999,
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hipDeviceAttributeAmdSpecificBegin = 10000,
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hipDeviceAttributeClockInstructionRate = hipDeviceAttributeAmdSpecificBegin, ///< Frequency in khz of the timer used by the device-side "clock*"
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hipDeviceAttributeArch, ///< Device architecture
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hipDeviceAttributeMaxSharedMemoryPerMultiprocessor, ///< Maximum Shared Memory PerMultiprocessor.
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hipDeviceAttributeGcnArch, ///< Device gcn architecture
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hipDeviceAttributeGcnArchName, ///< Device gcnArch name in 256 bytes
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hipDeviceAttributeHdpMemFlushCntl, ///< Address of the HDP_MEM_COHERENCY_FLUSH_CNTL register
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hipDeviceAttributeHdpRegFlushCntl, ///< Address of the HDP_REG_COHERENCY_FLUSH_CNTL register
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hipDeviceAttributeCooperativeMultiDeviceUnmatchedFunc, ///< Supports cooperative launch on multiple
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///< devices with unmatched functions
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hipDeviceAttributeCooperativeMultiDeviceUnmatchedGridDim, ///< Supports cooperative launch on multiple
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///< devices with unmatched grid dimensions
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hipDeviceAttributeCooperativeMultiDeviceUnmatchedBlockDim, ///< Supports cooperative launch on multiple
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///< devices with unmatched block dimensions
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hipDeviceAttributeCooperativeMultiDeviceUnmatchedSharedMem, ///< Supports cooperative launch on multiple
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///< devices with unmatched shared memories
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hipDeviceAttributeIsLargeBar, ///< Whether it is LargeBar
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hipDeviceAttributeAsicRevision, ///< Revision of the GPU in this device
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hipDeviceAttributeCanUseStreamWaitValue, ///< '1' if Device supports hipStreamWaitValue32() and
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///< hipStreamWaitValue64() , '0' otherwise.
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hipDeviceAttributeAmdSpecificEnd = 19999,
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hipDeviceAttributeVendorSpecificBegin = 20000,
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// Extended attributes for vendors
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} hipDeviceAttribute_t;
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//! Flags that can be used with hipStreamCreateWithFlags
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#define hipStreamDefault \
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0x00 ///< Default stream creation flags. These are used with hipStreamCreate().
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#define hipStreamNonBlocking 0x01 ///< Stream does not implicitly synchronize with null stream
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//! Flags that can be used with hipEventCreateWithFlags:
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#define hipEventDefault 0x0 ///< Default flags
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#define hipEventBlockingSync \
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0x1 ///< Waiting will yield CPU. Power-friendly and usage-friendly but may increase latency.
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#define hipEventDisableTiming \
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0x2 ///< Disable event's capability to record timing information. May improve performance.
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#define hipEventInterprocess 0x4 ///< Event can support IPC. @warning - not supported in HIP.
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#define hipEventReleaseToDevice \
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0x40000000 /// < Use a device-scope release when recording this event. This flag is useful to
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/// obtain more precise timings of commands between events. The flag is a no-op on
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/// CUDA platforms.
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#define hipEventReleaseToSystem \
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0x80000000 /// < Use a system-scope release when recording this event. This flag is
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/// useful to make non-coherent host memory visible to the host. The flag is a
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/// no-op on CUDA platforms.
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#define hipDeviceScheduleAuto 0x0 ///< Automatically select between Spin and Yield
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#define hipDeviceScheduleSpin \
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0x1 ///< Dedicate a CPU core to spin-wait. Provides lowest latency, but burns a CPU core and
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///< may consume more power.
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#define hipDeviceScheduleYield \
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0x2 ///< Yield the CPU to the operating system when waiting. May increase latency, but lowers
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///< power and is friendlier to other threads in the system.
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#define hipDeviceScheduleBlockingSync 0x4
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#define hipDeviceScheduleMask 0x7
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#define hipDeviceMapHost 0x8
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#define hipDeviceLmemResizeToMax 0x16
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typedef enum hipJitOption {
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hipJitOptionMaxRegisters = 0,
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hipJitOptionThreadsPerBlock,
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hipJitOptionWallTime,
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hipJitOptionInfoLogBuffer,
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hipJitOptionInfoLogBufferSizeBytes,
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hipJitOptionErrorLogBuffer,
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hipJitOptionErrorLogBufferSizeBytes,
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hipJitOptionOptimizationLevel,
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hipJitOptionTargetFromContext,
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hipJitOptionTarget,
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hipJitOptionFallbackStrategy,
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hipJitOptionGenerateDebugInfo,
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hipJitOptionLogVerbose,
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hipJitOptionGenerateLineInfo,
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hipJitOptionCacheMode,
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hipJitOptionSm3xOpt,
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hipJitOptionFastCompile,
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hipJitOptionNumOptions
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} hipJitOption;
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// stop: hip_runtime_api.h
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#ifdef _WIN32
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#define HIPAPI __stdcall
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#else
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#define HIPAPI
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#endif
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#define HIP_API_CALL HIPAPI
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXCREATE) (hipCtx_t *, unsigned int, hipDevice_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXDESTROY) (hipCtx_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXPOPCURRENT) (hipCtx_t *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXPUSHCURRENT) (hipCtx_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXSETCURRENT) (hipCtx_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPCTXSYNCHRONIZE) ();
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typedef hipError_t (HIP_API_CALL *HIP_HIPDEVICEGETATTRIBUTE) (int *, hipDeviceAttribute_t, hipDevice_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPDEVICEGETCOUNT) (int *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPDEVICEGET) (hipDevice_t *, int);
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typedef hipError_t (HIP_API_CALL *HIP_HIPDEVICEGETNAME) (char *, int, hipDevice_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPDEVICETOTALMEM) (size_t *, hipDevice_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPDRIVERGETVERSION) (int *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPEVENTCREATE) (hipEvent_t *, unsigned int);
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typedef hipError_t (HIP_API_CALL *HIP_HIPEVENTDESTROY) (hipEvent_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPEVENTELAPSEDTIME) (float *, hipEvent_t, hipEvent_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPEVENTRECORD) (hipEvent_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPEVENTSYNCHRONIZE) (hipEvent_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPFUNCGETATTRIBUTE) (int *, hipFunction_attribute, hipFunction_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPGETERRORNAME) (hipError_t, const char **);
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typedef hipError_t (HIP_API_CALL *HIP_HIPGETERRORSTRING) (hipError_t, const char **);
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typedef hipError_t (HIP_API_CALL *HIP_HIPINIT) (unsigned int);
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typedef hipError_t (HIP_API_CALL *HIP_HIPLAUNCHKERNEL) (hipFunction_t, unsigned int, unsigned int, unsigned int, unsigned int, unsigned int, unsigned int, unsigned int, hipStream_t, void **, void **);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMALLOC) (hipDeviceptr_t *, size_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMFREE) (hipDeviceptr_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMGETINFO) (size_t *, size_t *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMCPYDTODASYNC) (hipDeviceptr_t, hipDeviceptr_t, size_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMCPYDTOHASYNC) (void *, hipDeviceptr_t, size_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMCPYHTODASYNC) (hipDeviceptr_t, const void *, size_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMSETD32ASYNC) (hipDeviceptr_t, unsigned int, size_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMEMSETD8ASYNC) (hipDeviceptr_t, unsigned char, size_t, hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMODULEGETFUNCTION) (hipFunction_t *, hipModule_t, const char *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMODULEGETGLOBAL) (hipDeviceptr_t *, size_t *, hipModule_t, const char *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMODULELOADDATAEX) (hipModule_t *, const void *, unsigned int, hipJitOption *, void **);
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typedef hipError_t (HIP_API_CALL *HIP_HIPMODULEUNLOAD) (hipModule_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPRUNTIMEGETVERSION) (int *);
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typedef hipError_t (HIP_API_CALL *HIP_HIPSTREAMCREATE) (hipStream_t *, unsigned int);
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typedef hipError_t (HIP_API_CALL *HIP_HIPSTREAMDESTROY) (hipStream_t);
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typedef hipError_t (HIP_API_CALL *HIP_HIPSTREAMSYNCHRONIZE) (hipStream_t);
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typedef struct hc_hip_lib
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{
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hc_dynlib_t lib;
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HIP_HIPCTXCREATE hipCtxCreate;
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HIP_HIPCTXDESTROY hipCtxDestroy;
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HIP_HIPCTXPOPCURRENT hipCtxPopCurrent;
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HIP_HIPCTXPUSHCURRENT hipCtxPushCurrent;
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HIP_HIPCTXSETCURRENT hipCtxSetCurrent;
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HIP_HIPCTXSYNCHRONIZE hipCtxSynchronize;
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HIP_HIPDEVICEGETATTRIBUTE hipDeviceGetAttribute;
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HIP_HIPDEVICEGETCOUNT hipDeviceGetCount;
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HIP_HIPDEVICEGET hipDeviceGet;
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HIP_HIPDEVICEGETNAME hipDeviceGetName;
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HIP_HIPDEVICETOTALMEM hipDeviceTotalMem;
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HIP_HIPDRIVERGETVERSION hipDriverGetVersion;
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HIP_HIPEVENTCREATE hipEventCreate;
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HIP_HIPEVENTDESTROY hipEventDestroy;
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HIP_HIPEVENTELAPSEDTIME hipEventElapsedTime;
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HIP_HIPEVENTRECORD hipEventRecord;
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HIP_HIPEVENTSYNCHRONIZE hipEventSynchronize;
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HIP_HIPFUNCGETATTRIBUTE hipFuncGetAttribute;
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HIP_HIPGETERRORNAME hipGetErrorName;
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HIP_HIPGETERRORSTRING hipGetErrorString;
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HIP_HIPINIT hipInit;
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HIP_HIPLAUNCHKERNEL hipLaunchKernel;
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HIP_HIPMEMALLOC hipMemAlloc;
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HIP_HIPMEMFREE hipMemFree;
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HIP_HIPMEMGETINFO hipMemGetInfo;
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HIP_HIPMEMCPYDTODASYNC hipMemcpyDtoDAsync;
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HIP_HIPMEMCPYDTOHASYNC hipMemcpyDtoHAsync;
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HIP_HIPMEMCPYHTODASYNC hipMemcpyHtoDAsync;
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HIP_HIPMEMSETD32ASYNC hipMemsetD32Async;
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HIP_HIPMEMSETD8ASYNC hipMemsetD8Async;
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HIP_HIPMODULEGETFUNCTION hipModuleGetFunction;
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HIP_HIPMODULEGETGLOBAL hipModuleGetGlobal;
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HIP_HIPMODULELOADDATAEX hipModuleLoadDataEx;
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HIP_HIPMODULEUNLOAD hipModuleUnload;
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HIP_HIPRUNTIMEGETVERSION hipRuntimeGetVersion;
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HIP_HIPSTREAMCREATE hipStreamCreate;
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HIP_HIPSTREAMDESTROY hipStreamDestroy;
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HIP_HIPSTREAMSYNCHRONIZE hipStreamSynchronize;
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} hc_hip_lib_t;
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typedef hc_hip_lib_t HIP_PTR;
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#endif // _EXT_HIP_H
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