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rocm-systems/projects/rccl/test/AllGatherTests.cpp
T
BertanDogancay d045d0ca23 Merge remote-tracking branch 'nccl/master' into develop 
[ROCm/rccl commit: a6bf9bfc9e]
2025-04-23 20:47:43 -07:00

163 rindas
6.2 KiB
C++
Neapstrādāts Patstāvīgā saite Vainot Vēsture

/*************************************************************************
* Copyright (c) 2023 Advanced Micro Devices, Inc. All rights reserved.
*
* See LICENSE.txt for license information
************************************************************************/
#include "TestBed.hpp"
#include "CallCollectiveForked.hpp"
namespace RcclUnitTesting
{
TEST(AllGather, OutOfPlace)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclFloat16, ncclFloat32};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {1048576, 500};
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(AllGather, OutOfPlaceGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclBfloat16, ncclFloat64, ncclFloat8e4m3, ncclFloat8e5m2};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {586};
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(AllGather, InPlace)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclInt32};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {104857, 264};
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(AllGather, InPlaceGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclInt8, ncclInt64};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {958};
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(AllGather, ManagedMem)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclUint8};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {1039203, 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(AllGather, ManagedMemGraph)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllGather};
std::vector<ncclDataType_t> const dataTypes = {ncclUint32, ncclUint64};
std::vector<ncclRedOp_t> const redOps = {ncclSum};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {896};
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();
}
TEST(AllGather, UserBufferRegistration)
{
const int nranks = 8;
size_t count = 2048;
std::vector<int> sendBuff(count, 0);
std::vector<int> recvBuff(nranks*count, 0);
std::vector<int> expected(nranks*count, 0);
for (int i = 0; i < count; ++i){
sendBuff[i] = i;
}
for(int r = 0; r < nranks; ++r)
for (int i = 0; i < count; ++i)
expected[r*count + i] = sendBuff[i];
callCollectiveForked(nranks, ncclCollAllGather, sendBuff, recvBuff, expected);
}
TEST(AllGather, ManagedMemUserBufferRegistration)
{
const int nranks = 8;
size_t count = 2048;
std::vector<int> sendBuff(count, 0);
std::vector<int> recvBuff(nranks*count, 0);
std::vector<int> expected(nranks*count, 0);
const bool use_managed_mem = true;
for (int i = 0; i < count; ++i){
sendBuff[i] = i;
}
for(int r = 0; r < nranks; ++r)
for (int i = 0; i < count; ++i)
expected[r*count + i] = sendBuff[i];
callCollectiveForked(nranks, ncclCollAllGather, sendBuff, recvBuff, expected, use_managed_mem);
}
}
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