Files
rocm-systems/test/ReduceTests.cpp
T
Tim 9c0ef11ac7 Adding timeout functionality/EnvVar to TestBed (#1044)
* Adding timeout functionality/EnvVar to TestBed
* updating timeout unit to microseconds

Signed-off-by: Tim Hu <timhu102@amd.com>
2024-01-17 11:33:01 -05:00

124 righe
5.0 KiB
C++

/*************************************************************************
* Copyright (c) 2023 Advanced Micro Devices, Inc. All rights reserved.
*
* See LICENSE.txt for license information
************************************************************************/
#include "TestBed.hpp"
namespace RcclUnitTesting
{
TEST(Reduce, OutOfPlace)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclFloat32};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {393216, 384};
std::vector<bool> const inPlaceList = {false};
std::vector<bool> const managedMemList = {false};
std::vector<bool> const useHipGraphList = {false};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(Reduce, OutOfPlaceGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclFloat16, ncclFloat64};
std::vector<ncclRedOp_t> const redOps = {ncclMin};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {393216};
std::vector<bool> const inPlaceList = {false};
std::vector<bool> const managedMemList = {false};
std::vector<bool> const useHipGraphList = {true};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(Reduce, InPlace)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclInt32, ncclInt8};
std::vector<ncclRedOp_t> const redOps = {ncclProd};
std::vector<int> const roots = {1};
std::vector<int> const numElements = {384};
std::vector<bool> const inPlaceList = {true};
std::vector<bool> const managedMemList = {false};
std::vector<bool> const useHipGraphList = {false};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(Reduce, InPlaceGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclBfloat16};
std::vector<ncclRedOp_t> const redOps = {ncclMax};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {393216};
std::vector<bool> const inPlaceList = {true};
std::vector<bool> const managedMemList = {false};
std::vector<bool> const useHipGraphList = {true};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(Reduce, ManagedMem)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclUint64};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {3524082, 2500};
std::vector<bool> const inPlaceList = {false};
std::vector<bool> const managedMemList = {true};
std::vector<bool> const useHipGraphList = {false};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(Reduce, ManagedMemGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclFloat64, ncclBfloat16};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {4314};
std::vector<bool> const inPlaceList = {false};
std::vector<bool> const managedMemList = {true};
std::vector<bool> const useHipGraphList = {true};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements,
inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
}