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AidanBeltonS d849b88aef SWDEV-558080 - Add recommended granularity (#1176)
* Add recommended granularity

* Improve granularity testing

* Update based on feedback
2025-11-26 16:10:58 +00:00

178 строки
6.3 KiB
C++

/*
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THE SOFTWARE.
*/
/**
* @addtogroup hipMemGetAllocationGranularity hipMemGetAllocationGranularity
* @{
* @ingroup VirtualMemoryManagementTest
* `hipError_t hipMemGetAllocationGranularity (size_t* granularity,
* const hipMemAllocationProp* prop,
* hipMemAllocationGranularity_flags option)` -
* Calculates either the minimal or recommended granularity.
*/
#include <hip_test_checkers.hh>
#include <hip_test_kernels.hh>
#include <hip_test_common.hh>
#include "hip_vmm_common.hh"
/**
local function to invoke hipMemGetAllocationGranularity.
*/
void getGranularity(size_t* granularity, hipMemAllocationGranularity_flags option, int device) {
hipMemAllocationProp prop{};
prop.type = hipMemAllocationTypePinned;
prop.location.type = hipMemLocationTypeDevice;
prop.location.id = device; // Current Devices
HIP_CHECK(hipMemGetAllocationGranularity(granularity, &prop, option));
}
/**
* Test Description
* ------------------------
* - Functional Test to get granularity size for
* hipMemAllocationGranularityMinimum option for all GPUs.
* ------------------------
* - unit/virtualMemoryManagement/hipMemGetAllocationGranularity.cc
* Test requirements
* ------------------------
* - HIP_VERSION >= 6.1
*/
TEST_CASE("Unit_hipMemGetAllocationGranularity_AllGPUs") {
HIP_CHECK(hipFree(0));
int numDevices = 0;
HIP_CHECK(hipGetDeviceCount(&numDevices));
for (int dev = 0; dev < numDevices; dev++) {
hipDevice_t device;
HIP_CHECK(hipDeviceGet(&device, dev));
checkVMMSupported(device);
size_t min_granularity = 0;
size_t recommended_granularity = 0;
getGranularity(&min_granularity, hipMemAllocationGranularityMinimum, dev);
REQUIRE(min_granularity >= 1024);
getGranularity(&recommended_granularity, hipMemAllocationGranularityRecommended, dev);
REQUIRE(recommended_granularity >= 1024);
// Check the recommended_granularity is greater than or equal to the minimum
REQUIRE(recommended_granularity >= min_granularity);
}
}
/**
* Test Description
* ------------------------
* - Negative Tests
* ------------------------
* - unit/virtualMemoryManagement/hipMemGetAllocationGranularity.cc
* Test requirements
* ------------------------
* - HIP_VERSION >= 6.1
*/
TEST_CASE("Unit_hipMemGetAllocationGranularity_NegativeTests") {
HIP_CHECK(hipFree(0));
size_t granularity = 0;
hipDevice_t device;
HIP_CHECK(hipDeviceGet(&device, 0));
checkVMMSupported(device);
hipMemAllocationProp prop{};
prop.type = hipMemAllocationTypePinned;
prop.location.type = hipMemLocationTypeDevice;
prop.location.id = 0; // Current Devices
SECTION("Granularity is nullptr") {
REQUIRE(hipErrorInvalidValue ==
hipMemGetAllocationGranularity(nullptr, &prop, hipMemAllocationGranularityMinimum));
}
SECTION("Prop is nullptr") {
REQUIRE(hipErrorInvalidValue == hipMemGetAllocationGranularity(
&granularity, nullptr, hipMemAllocationGranularityMinimum));
}
SECTION("flag is invalid") {
REQUIRE(hipErrorInvalidValue ==
hipMemGetAllocationGranularity(&granularity, &prop,
(hipMemAllocationGranularity_flags)0xff));
}
#if HT_AMD // succeeds on NVIDIA
SECTION("device id > highest device id") {
int numDevices = 0;
HIP_CHECK(hipGetDeviceCount(&numDevices));
prop.location.id = numDevices; // set to non existing device
REQUIRE(hipErrorInvalidValue == hipMemGetAllocationGranularity(
&granularity, &prop, hipMemAllocationGranularityMinimum));
}
SECTION("device id < lowest device id") {
prop.location.id = -1; // set to non existing device
REQUIRE(hipErrorInvalidValue == hipMemGetAllocationGranularity(
&granularity, &prop, hipMemAllocationGranularityMinimum));
}
SECTION("allocation type as invalid") {
prop.type = hipMemAllocationTypeInvalid;
REQUIRE(hipErrorInvalidValue == hipMemGetAllocationGranularity(
&granularity, &prop, hipMemAllocationGranularityMinimum));
}
SECTION("location type as invalid") {
prop.location.type = hipMemLocationTypeInvalid;
REQUIRE(hipErrorInvalidValue == hipMemGetAllocationGranularity(
&granularity, &prop, hipMemAllocationGranularityMinimum));
}
#endif
}
TEST_CASE("Unit_hipMemGetAllocationGranularity_Capture") {
CTX_CREATE();
size_t granularity = 0;
constexpr int kDeviceId = 0;
hipDevice_t device;
HIP_CHECK(hipDeviceGet(&device, kDeviceId));
hipMemAllocationProp allocation_prop{};
allocation_prop.type = hipMemAllocationTypePinned;
allocation_prop.location.type = hipMemLocationTypeDevice;
allocation_prop.location.id = device; // Current Device
hipStream_t stream = nullptr;
HIP_CHECK(hipStreamCreate(&stream));
GENERATE_CAPTURE();
BEGIN_CAPTURE(stream);
HIP_CHECK(hipMemGetAllocationGranularity(&granularity, &allocation_prop,
hipMemAllocationGranularityMinimum));
END_CAPTURE(stream);
HIP_CHECK(hipStreamDestroy(stream));
CTX_DESTROY();
}
/**
* End doxygen group VirtualMemoryManagementTest.
* @}
*/