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common_gpu.cc
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common_gpu.cc
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#include "caffe2/core/common_gpu.h"
#include <atomic>
#include <cstdlib>
#include <iostream>
#include <sstream>
#include <c10/cuda/CUDAFunctions.h>
#include "caffe2/core/common.h"
#include "caffe2/core/init.h"
#include "caffe2/core/logging.h"
namespace caffe2 {
int NumCudaDevices() {
if (getenv("CAFFE2_DEBUG_CUDA_INIT_ORDER")) {
static bool first = true;
if (first) {
first = false;
std::cerr << "DEBUG: caffe2::NumCudaDevices() invoked for the first time"
<< std::endl;
}
}
// It logs warnings on first run
return c10::cuda::device_count();
}
namespace {
int gDefaultGPUID = 0;
} // namespace
void SetDefaultGPUID(const int deviceid) {
CAFFE_ENFORCE_LT(
deviceid,
NumCudaDevices(),
"The default gpu id should be smaller than the number of gpus "
"on this machine: ",
deviceid,
" vs ",
NumCudaDevices());
gDefaultGPUID = deviceid;
}
int GetDefaultGPUID() { return gDefaultGPUID; }
int CaffeCudaGetDevice() {
int gpu_id = 0;
CUDA_ENFORCE(cudaGetDevice(&gpu_id));
return gpu_id;
}
void CaffeCudaSetDevice(const int id) {
CUDA_ENFORCE(cudaSetDevice(id));
}
int GetGPUIDForPointer(const void* ptr) {
cudaPointerAttributes attr;
cudaError_t err = cudaPointerGetAttributes(&attr, ptr);
if (err == cudaErrorInvalidValue) {
// Occurs when the pointer is in the CPU address space that is
// unmanaged by CUDA; make sure the last error state is cleared,
// since it is persistent
err = cudaGetLastError();
CHECK(err == cudaErrorInvalidValue);
return -1;
}
// Otherwise, there must be no error
CUDA_ENFORCE(err);
if (attr.CAFFE2_CUDA_PTRATTR_MEMTYPE == cudaMemoryTypeHost) {
return -1;
}
return attr.device;
}
struct CudaDevicePropWrapper {
CudaDevicePropWrapper() : props(NumCudaDevices()) {
for (int i = 0; i < NumCudaDevices(); ++i) {
CUDA_ENFORCE(cudaGetDeviceProperties(&props[i], i));
}
}
vector<cudaDeviceProp> props;
};
const cudaDeviceProp& GetDeviceProperty(const int deviceid) {
// According to C++11 standard section 6.7, static local variable init is
// thread safe. See
// https://stackoverflow.com/questions/8102125/is-local-static-variable-initialization-thread-safe-in-c11
// for details.
static CudaDevicePropWrapper props;
CAFFE_ENFORCE_LT(
deviceid,
NumCudaDevices(),
"The gpu id should be smaller than the number of gpus ",
"on this machine: ",
deviceid,
" vs ",
NumCudaDevices());
return props.props[deviceid];
}
void DeviceQuery(const int device) {
const cudaDeviceProp& prop = GetDeviceProperty(device);
std::stringstream ss;
ss << std::endl;
ss << "Device id: " << device << std::endl;
ss << "Major revision number: " << prop.major << std::endl;
ss << "Minor revision number: " << prop.minor << std::endl;
ss << "Name: " << prop.name << std::endl;
ss << "Total global memory: " << prop.totalGlobalMem << std::endl;
ss << "Total shared memory per block: " << prop.sharedMemPerBlock
<< std::endl;
ss << "Total registers per block: " << prop.regsPerBlock << std::endl;
ss << "Warp size: " << prop.warpSize << std::endl;
#if !defined(USE_ROCM)
ss << "Maximum memory pitch: " << prop.memPitch << std::endl;
#endif
ss << "Maximum threads per block: " << prop.maxThreadsPerBlock
<< std::endl;
ss << "Maximum dimension of block: "
<< prop.maxThreadsDim[0] << ", " << prop.maxThreadsDim[1] << ", "
<< prop.maxThreadsDim[2] << std::endl;
ss << "Maximum dimension of grid: "
<< prop.maxGridSize[0] << ", " << prop.maxGridSize[1] << ", "
<< prop.maxGridSize[2] << std::endl;
ss << "Clock rate: " << prop.clockRate << std::endl;
ss << "Total constant memory: " << prop.totalConstMem << std::endl;
#if !defined(USE_ROCM)
ss << "Texture alignment: " << prop.textureAlignment << std::endl;
ss << "Concurrent copy and execution: "
<< (prop.deviceOverlap ? "Yes" : "No") << std::endl;
#endif
ss << "Number of multiprocessors: " << prop.multiProcessorCount
<< std::endl;
#if !defined(USE_ROCM)
ss << "Kernel execution timeout: "
<< (prop.kernelExecTimeoutEnabled ? "Yes" : "No") << std::endl;
#endif
LOG(INFO) << ss.str();
return;
}
bool GetCudaPeerAccessPattern(vector<vector<bool> >* pattern) {
int gpu_count;
if (cudaGetDeviceCount(&gpu_count) != cudaSuccess) return false;
pattern->clear();
pattern->resize(gpu_count, vector<bool>(gpu_count, false));
for (int i = 0; i < gpu_count; ++i) {
for (int j = 0; j < gpu_count; ++j) {
int can_access = true;
if (i != j) {
if (cudaDeviceCanAccessPeer(&can_access, i, j)
!= cudaSuccess) {
return false;
}
}
(*pattern)[i][j] = static_cast<bool>(can_access);
}
}
return true;
}
bool TensorCoreAvailable() {
int device = CaffeCudaGetDevice();
auto& prop = GetDeviceProperty(device);
return prop.major >= 7;
}
const char* cublasGetErrorString(cublasStatus_t error) {
switch (error) {
case CUBLAS_STATUS_SUCCESS:
return "CUBLAS_STATUS_SUCCESS";
case CUBLAS_STATUS_NOT_INITIALIZED:
return "CUBLAS_STATUS_NOT_INITIALIZED";
case CUBLAS_STATUS_ALLOC_FAILED:
return "CUBLAS_STATUS_ALLOC_FAILED";
case CUBLAS_STATUS_INVALID_VALUE:
return "CUBLAS_STATUS_INVALID_VALUE";
case CUBLAS_STATUS_ARCH_MISMATCH:
return "CUBLAS_STATUS_ARCH_MISMATCH";
case CUBLAS_STATUS_INTERNAL_ERROR:
return "CUBLAS_STATUS_INTERNAL_ERROR";
#if !defined(USE_ROCM)
case CUBLAS_STATUS_MAPPING_ERROR:
return "CUBLAS_STATUS_MAPPING_ERROR";
case CUBLAS_STATUS_EXECUTION_FAILED:
return "CUBLAS_STATUS_EXECUTION_FAILED";
case CUBLAS_STATUS_NOT_SUPPORTED:
return "CUBLAS_STATUS_NOT_SUPPORTED";
case CUBLAS_STATUS_LICENSE_ERROR:
return "CUBLAS_STATUS_LICENSE_ERROR";
#else
case rocblas_status_invalid_size:
return "rocblas_status_invalid_size";
case rocblas_status_perf_degraded:
return "rocblas_status_perf_degraded";
case rocblas_status_size_query_mismatch:
return "rocblas_status_size_query_mismatch";
case rocblas_status_size_increased:
return "rocblas_status_size_increased";
case rocblas_status_size_unchanged:
return "rocblas_status_size_unchanged";
default:
return "unrecognized_rocblas_error";
#endif
}
// To suppress compiler warning.
return "Unrecognized cublas error string";
}
const char* curandGetErrorString(curandStatus_t error) {
switch (error) {
case CURAND_STATUS_SUCCESS:
return "CURAND_STATUS_SUCCESS";
case CURAND_STATUS_VERSION_MISMATCH:
return "CURAND_STATUS_VERSION_MISMATCH";
case CURAND_STATUS_NOT_INITIALIZED:
return "CURAND_STATUS_NOT_INITIALIZED";
case CURAND_STATUS_ALLOCATION_FAILED:
return "CURAND_STATUS_ALLOCATION_FAILED";
case CURAND_STATUS_TYPE_ERROR:
return "CURAND_STATUS_TYPE_ERROR";
case CURAND_STATUS_OUT_OF_RANGE:
return "CURAND_STATUS_OUT_OF_RANGE";
case CURAND_STATUS_LENGTH_NOT_MULTIPLE:
return "CURAND_STATUS_LENGTH_NOT_MULTIPLE";
case CURAND_STATUS_DOUBLE_PRECISION_REQUIRED:
return "CURAND_STATUS_DOUBLE_PRECISION_REQUIRED";
case CURAND_STATUS_LAUNCH_FAILURE:
return "CURAND_STATUS_LAUNCH_FAILURE";
case CURAND_STATUS_PREEXISTING_FAILURE:
return "CURAND_STATUS_PREEXISTING_FAILURE";
case CURAND_STATUS_INITIALIZATION_FAILED:
return "CURAND_STATUS_INITIALIZATION_FAILED";
case CURAND_STATUS_ARCH_MISMATCH:
return "CURAND_STATUS_ARCH_MISMATCH";
case CURAND_STATUS_INTERNAL_ERROR:
return "CURAND_STATUS_INTERNAL_ERROR";
#if defined(USE_ROCM)
case HIPRAND_STATUS_NOT_IMPLEMENTED:
return "HIPRAND_STATUS_NOT_IMPLEMENTED";
#endif
}
// To suppress compiler warning.
return "Unrecognized curand error string";
}
// Turn on the flag g_caffe2_has_cuda_linked to true for HasCudaRuntime()
// function.
namespace {
class CudaRuntimeFlagFlipper {
public:
CudaRuntimeFlagFlipper() {
internal::SetCudaRuntimeFlag();
}
};
static CudaRuntimeFlagFlipper g_flipper;
} // namespace
} // namespace caffe2