diff --git a/tests/src/runtimeApi/memory/hipMallocManaged.cpp b/tests/src/runtimeApi/memory/hipMallocManaged.cpp index 8f30195948..f57bca9cda 100644 --- a/tests/src/runtimeApi/memory/hipMallocManaged.cpp +++ b/tests/src/runtimeApi/memory/hipMallocManaged.cpp @@ -3,7 +3,7 @@ #include "test_common.h" /* HIT_START - * BUILD: %t %s ../../test_common.cpp + * BUILD: %t %s ../../test_common.cpp CLANG_OPTIONS -g -O0 * TEST: %t -N 256M * HIT_END */ @@ -20,32 +20,66 @@ void add(int n, float *x, float *y) int main(int argc, char *argv[]) { HipTest::parseStandardArguments(argc, argv, true); - int numElements = N; + + printf("info: set device to %d\n", p_gpuDevice); + HIPCHECK(hipSetDevice(p_gpuDevice)); + + int numElements = (N < (64 * 1024 * 1024)) ? 64 * 1024 * 1024 : N; bool testResult = true; float *A, *B; - hipMallocManaged(&A, numElements*sizeof(float)); - hipMallocManaged(&B, numElements*sizeof(float)); + HIPCHECK(hipMallocManaged(&A, numElements*sizeof(float))); + HIPCHECK(hipMallocManaged(&B, numElements*sizeof(float))); for (int i = 0; i < numElements; i++) { A[i] = 1.0f; B[i] = 2.0f; } + hipDevice_t device = hipCpuDeviceId; + + HIPCHECK(hipMemAdvise(A, numElements*sizeof(float), hipMemAdviseSetReadMostly, device)); + HIPCHECK(hipMemPrefetchAsync(A, numElements*sizeof(float), 0)); + HIPCHECK(hipMemPrefetchAsync(B, numElements*sizeof(float), 0)); + HIPCHECK(hipDeviceSynchronize()); + HIPCHECK(hipMemRangeGetAttribute(&device, sizeof(device), hipMemRangeAttributeLastPrefetchLocation, A, numElements*sizeof(float))); + if (device != p_gpuDevice) { + printf("hipMemRangeGetAttribute error, device = %d!\n", device); + } + uint32_t read_only = 0xf; + HIPCHECK(hipMemRangeGetAttribute(&read_only, sizeof(read_only), hipMemRangeAttributeReadMostly, A, numElements*sizeof(float))); + if (read_only != 1) { + printf("hipMemRangeGetAttribute error, read_only = %d!\n", read_only); + } + int blockSize = 256; int numBlocks = (numElements + blockSize - 1) / blockSize; dim3 dimGrid(numBlocks, 1, 1); dim3 dimBlock(blockSize, 1, 1); + hipEvent_t event0, event1; + HIPCHECK(hipEventCreate(&event0)); + HIPCHECK(hipEventCreate(&event1)); + HIPCHECK(hipEventRecord(event0, 0)); hipLaunchKernelGGL(add, dimGrid, dimBlock, 0, 0, numElements, A, B); - - hipDeviceSynchronize(); + HIPCHECK(hipEventRecord(event1, 0)); + HIPCHECK(hipDeviceSynchronize()); + float time = 0.0f; + HIPCHECK(hipEventElapsedTime(&time, event0, event1)); + printf("Time %.3f ms\n", time); float maxError = 0.0f; + HIPCHECK(hipMemPrefetchAsync(B, numElements*sizeof(float), hipCpuDeviceId)); + HIPCHECK(hipDeviceSynchronize()); + device = p_gpuDevice; + HIPCHECK(hipMemRangeGetAttribute(&device, sizeof(device), hipMemRangeAttributeLastPrefetchLocation, A, numElements*sizeof(float))); + if (device != hipCpuDeviceId) { + printf("hipMemRangeGetAttribute error (CPU device is expected), device = %d!\n", device); + } for (int i = 0; i < numElements; i++) maxError = fmax(maxError, fabs(B[i]-3.0f)); - hipFree(A); - hipFree(B); + HIPCHECK(hipFree(A)); + HIPCHECK(hipFree(B)); if(maxError == 0.0f) passed(); failed("Output Mismatch\n");