cutlass/include/cutlass/workspace.h

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/*! \file
    \brief Utilities for initializing workspaces
*/

#pragma once

#if !defined(__CUDACC_RTC__)
#include "cuda.h"
#include "cuda_runtime.h"

#include "cutlass/trace.h"
#endif

#include "cutlass.h"
#include "cutlass/cuda_host_adapter.hpp"

namespace cutlass {

/////////////////////////////////////////////////////////////////////////////////////////////////

static constexpr int MinWorkspaceAlignment = 16;

#if !defined(__CUDACC_RTC__)
static Status
zero_workspace(void* workspace, size_t workspace_size, cudaStream_t stream = nullptr, CudaHostAdapter *cuda_adapter = nullptr) {
  if (workspace_size > 0) {
    if (workspace == nullptr) {
      CUTLASS_TRACE_HOST("  error: device workspace must not be null");
      return Status::kErrorWorkspaceNull;
    }

    CUTLASS_TRACE_HOST("  clearing workspace");

#if defined(CUTLASS_ENABLE_CUDA_HOST_ADAPTER) && CUTLASS_ENABLE_CUDA_HOST_ADAPTER
    //
    // Use the cuda host adapter
    //
    CUTLASS_ASSERT(cuda_adapter);
    if (cuda_adapter) {
      if (Status::kSuccess != cuda_adapter->memsetDevice(workspace, static_cast<uint8_t>(0), workspace_size, stream)) {
        return Status::kErrorInternal;
      }
    }
    else {
      return Status::kErrorInternal;
    }
#else
    cudaError_t result = cudaMemsetAsync(workspace, 0, workspace_size, stream);
    if (cudaSuccess != result) {
      result = cudaGetLastError(); // to clear the error bit
      CUTLASS_TRACE_HOST("  cudaMemsetAsync() returned error " << cudaGetErrorString(result));
      return Status::kErrorInternal;
    }
#endif
  }

  return Status::kSuccess;
}
#endif

#if !defined(__CUDACC_RTC__)
template <typename T>
Status
fill_workspace(void* workspace, T fill_value, size_t fill_count, cudaStream_t stream = nullptr, CudaHostAdapter *cuda_adapter = nullptr) {
  static_assert(sizeof(T) == 4 || sizeof(T) == 2 || sizeof(T) == 1, "Unsupported fill type");
  if (fill_count > 0) {
    if (workspace == nullptr) {
      CUTLASS_TRACE_HOST("  error: device workspace must not be null");
      return Status::kErrorWorkspaceNull;
    }

    CUTLASS_TRACE_HOST("  filling workspace");

#if defined(CUTLASS_ENABLE_CUDA_HOST_ADAPTER) && CUTLASS_ENABLE_CUDA_HOST_ADAPTER
    //
    // Use the cuda host adapter
    //
    CUTLASS_ASSERT(cuda_adapter);
    if (cuda_adapter) {
      if (Status::kSuccess != cuda_adapter->memsetDevice(workspace, fill_value, fill_count, stream)) {
        return Status::kErrorInternal;
      }
    }
    else {
      return Status::kErrorInternal;
    }
#else
    CUdeviceptr d_workspace = reinterpret_cast<CUdeviceptr>(workspace);
    CUresult result = CUDA_SUCCESS;
    if (sizeof(T) == 4) {
      result = cuMemsetD32Async(d_workspace, reinterpret_cast<uint32_t&>(fill_value), fill_count, stream);
    }
    else if (sizeof(T) == 2) {
      result = cuMemsetD16Async(d_workspace, reinterpret_cast<uint16_t&>(fill_value), fill_count, stream);
    }
    else if (sizeof(T) == 1) {
      result = cuMemsetD8Async(d_workspace, reinterpret_cast<uint8_t&>(fill_value), fill_count, stream);
    }

    if (CUDA_SUCCESS != result) {
      const char** error_string_ptr = nullptr;
      (void) cuGetErrorString(result, error_string_ptr);
      if (error_string_ptr != nullptr) {
        CUTLASS_TRACE_HOST("  cuMemsetD" << sizeof(T) * 8 << "Async() returned error " << *error_string_ptr);
      }
      else {
        CUTLASS_TRACE_HOST("  cuMemsetD" << sizeof(T) * 8 << "Async() returned unrecognized error");
      }
      return Status::kErrorInternal;
    }
#endif
  }

  return Status::kSuccess;
}
#endif

/////////////////////////////////////////////////////////////////////////////////////////////////

} // namespace cutlass