#ifndef __APPLE__ #ifndef __GPU_INFO_CUDART_H__ #define __GPU_INFO_CUDART_H__ #include "gpu_info.h" // Just enough typedef's to dlopen/dlsym for memory information typedef enum cudartReturn_enum { CUDART_SUCCESS = 0, CUDART_ERROR_INVALID_VALUE = 1, CUDART_ERROR_MEMORY_ALLOCATION = 2, CUDART_ERROR_INSUFFICIENT_DRIVER = 35, // Other values omitted for now... } cudartReturn_t; typedef enum cudartDeviceAttr_enum { cudartDevAttrComputeCapabilityMajor = 75, cudartDevAttrComputeCapabilityMinor = 76, // TODO - not yet wired up but may be useful for Jetson or other // integrated GPU scenarios with shared memory cudaDevAttrIntegrated = 18 } cudartDeviceAttr_t; typedef void *cudartDevice_t; // Opaque is sufficient typedef struct cudartMemory_st { size_t total; size_t free; size_t used; } cudartMemory_t; typedef struct cudartDriverVersion { int major; int minor; } cudartDriverVersion_t; typedef struct cudaUUID { unsigned char bytes[16]; } cudaUUID_t; typedef struct cudaDeviceProp { char name[256]; /**< ASCII string identifying device */ cudaUUID_t uuid; /**< 16-byte unique identifier */ char luid[8]; /**< 8-byte locally unique identifier. Value is undefined on TCC and non-Windows platforms */ unsigned int luidDeviceNodeMask; /**< LUID device node mask. Value is undefined on TCC and non-Windows platforms */ size_t totalGlobalMem; /**< Global memory available on device in bytes */ size_t sharedMemPerBlock; /**< Shared memory available per block in bytes */ int regsPerBlock; /**< 32-bit registers available per block */ int warpSize; /**< Warp size in threads */ size_t memPitch; /**< Maximum pitch in bytes allowed by memory copies */ int maxThreadsPerBlock; /**< Maximum number of threads per block */ int maxThreadsDim[3]; /**< Maximum size of each dimension of a block */ int maxGridSize[3]; /**< Maximum size of each dimension of a grid */ int clockRate; /**< Clock frequency in kilohertz */ size_t totalConstMem; /**< Constant memory available on device in bytes */ int major; /**< Major compute capability */ int minor; /**< Minor compute capability */ size_t textureAlignment; /**< Alignment requirement for textures */ size_t texturePitchAlignment; /**< Pitch alignment requirement for texture references bound to pitched memory */ int deviceOverlap; /**< Device can concurrently copy memory and execute a kernel. Deprecated. Use instead asyncEngineCount. */ int multiProcessorCount; /**< Number of multiprocessors on device */ int kernelExecTimeoutEnabled; /**< Specified whether there is a run time limit on kernels */ int integrated; /**< Device is integrated as opposed to discrete */ int canMapHostMemory; /**< Device can map host memory with cudaHostAlloc/cudaHostGetDevicePointer */ int computeMode; /**< Compute mode (See ::cudaComputeMode) */ int maxTexture1D; /**< Maximum 1D texture size */ int maxTexture1DMipmap; /**< Maximum 1D mipmapped texture size */ int maxTexture1DLinear; /**< Deprecated, do not use. Use cudaDeviceGetTexture1DLinearMaxWidth() or cuDeviceGetTexture1DLinearMaxWidth() instead. */ int maxTexture2D[2]; /**< Maximum 2D texture dimensions */ int maxTexture2DMipmap[2]; /**< Maximum 2D mipmapped texture dimensions */ int maxTexture2DLinear[3]; /**< Maximum dimensions (width, height, pitch) for 2D textures bound to pitched memory */ int maxTexture2DGather[2]; /**< Maximum 2D texture dimensions if texture gather operations have to be performed */ int maxTexture3D[3]; /**< Maximum 3D texture dimensions */ int maxTexture3DAlt[3]; /**< Maximum alternate 3D texture dimensions */ int maxTextureCubemap; /**< Maximum Cubemap texture dimensions */ int maxTexture1DLayered[2]; /**< Maximum 1D layered texture dimensions */ int maxTexture2DLayered[3]; /**< Maximum 2D layered texture dimensions */ int maxTextureCubemapLayered[2];/**< Maximum Cubemap layered texture dimensions */ int maxSurface1D; /**< Maximum 1D surface size */ int maxSurface2D[2]; /**< Maximum 2D surface dimensions */ int maxSurface3D[3]; /**< Maximum 3D surface dimensions */ int maxSurface1DLayered[2]; /**< Maximum 1D layered surface dimensions */ int maxSurface2DLayered[3]; /**< Maximum 2D layered surface dimensions */ int maxSurfaceCubemap; /**< Maximum Cubemap surface dimensions */ int maxSurfaceCubemapLayered[2];/**< Maximum Cubemap layered surface dimensions */ size_t surfaceAlignment; /**< Alignment requirements for surfaces */ int concurrentKernels; /**< Device can possibly execute multiple kernels concurrently */ int ECCEnabled; /**< Device has ECC support enabled */ int pciBusID; /**< PCI bus ID of the device */ int pciDeviceID; /**< PCI device ID of the device */ int pciDomainID; /**< PCI domain ID of the device */ int tccDriver; /**< 1 if device is a Tesla device using TCC driver, 0 otherwise */ int asyncEngineCount; /**< Number of asynchronous engines */ int unifiedAddressing; /**< Device shares a unified address space with the host */ int memoryClockRate; /**< Peak memory clock frequency in kilohertz */ int memoryBusWidth; /**< Global memory bus width in bits */ int l2CacheSize; /**< Size of L2 cache in bytes */ int persistingL2CacheMaxSize; /**< Device's maximum l2 persisting lines capacity setting in bytes */ int maxThreadsPerMultiProcessor;/**< Maximum resident threads per multiprocessor */ int streamPrioritiesSupported; /**< Device supports stream priorities */ int globalL1CacheSupported; /**< Device supports caching globals in L1 */ int localL1CacheSupported; /**< Device supports caching locals in L1 */ size_t sharedMemPerMultiprocessor; /**< Shared memory available per multiprocessor in bytes */ int regsPerMultiprocessor; /**< 32-bit registers available per multiprocessor */ int managedMemory; /**< Device supports allocating managed memory on this system */ int isMultiGpuBoard; /**< Device is on a multi-GPU board */ int multiGpuBoardGroupID; /**< Unique identifier for a group of devices on the same multi-GPU board */ int hostNativeAtomicSupported; /**< Link between the device and the host supports native atomic operations */ int singleToDoublePrecisionPerfRatio; /**< Ratio of single precision performance (in floating-point operations per second) to double precision performance */ int pageableMemoryAccess; /**< Device supports coherently accessing pageable memory without calling cudaHostRegister on it */ int concurrentManagedAccess; /**< Device can coherently access managed memory concurrently with the CPU */ int computePreemptionSupported; /**< Device supports Compute Preemption */ int canUseHostPointerForRegisteredMem; /**< Device can access host registered memory at the same virtual address as the CPU */ int cooperativeLaunch; /**< Device supports launching cooperative kernels via ::cudaLaunchCooperativeKernel */ int cooperativeMultiDeviceLaunch; /**< Deprecated, cudaLaunchCooperativeKernelMultiDevice is deprecated. */ size_t sharedMemPerBlockOptin; /**< Per device maximum shared memory per block usable by special opt in */ int pageableMemoryAccessUsesHostPageTables; /**< Device accesses pageable memory via the host's page tables */ int directManagedMemAccessFromHost; /**< Host can directly access managed memory on the device without migration. */ int maxBlocksPerMultiProcessor; /**< Maximum number of resident blocks per multiprocessor */ int accessPolicyMaxWindowSize; /**< The maximum value of ::cudaAccessPolicyWindow::num_bytes. */ size_t reservedSharedMemPerBlock; /**< Shared memory reserved by CUDA driver per block in bytes */ } cudaDeviceProp_t; typedef struct cudart_handle { void *handle; uint16_t verbose; cudartReturn_t (*cudaSetDevice)(int device); cudartReturn_t (*cudaDeviceSynchronize)(void); cudartReturn_t (*cudaDeviceReset)(void); cudartReturn_t (*cudaMemGetInfo)(size_t *, size_t *); cudartReturn_t (*cudaGetDeviceCount)(int *); cudartReturn_t (*cudaDeviceGetAttribute)(int* value, cudartDeviceAttr_t attr, int device); cudartReturn_t (*cudaDriverGetVersion) (int *driverVersion); cudartReturn_t (*cudaGetDeviceProperties) (cudaDeviceProp_t* prop, int device); } cudart_handle_t; typedef struct cudart_init_resp { char *err; // If err is non-null handle is invalid cudart_handle_t ch; int num_devices; } cudart_init_resp_t; void cudart_init(char *cudart_lib_path, cudart_init_resp_t *resp); void cudart_check_vram(cudart_handle_t ch, int device_id, mem_info_t *resp); void cudart_release(cudart_handle_t ch); #endif // __GPU_INFO_CUDART_H__ #endif // __APPLE__