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933d556c84
| Author | SHA1 | Date | |
|---|---|---|---|
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933d556c84 | ||
| c7e3fa45bd | |||
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2b8b3bd421 | ||
| 122329eca7 | |||
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58c0bf078e | ||
| 3fe15e5e5c | |||
| 0d223e6ed9 | |||
| c8bdc4239f |
@ -38,6 +38,8 @@ namespace acc {
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__MAYBE_DEVICE__ __MAYBE_HOST__ __INLINE__
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__MAYBE_DEVICE__ __MAYBE_HOST__ __INLINE__
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F maybeConjugateScalar(const F &a) { return a; }
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F maybeConjugateScalar(const F &a) { return a; }
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// TODO: instantiate for std::complex<double>
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#if defined(HAVE_CUDA)
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#if defined(HAVE_CUDA)
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template <>
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template <>
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__MAYBE_DEVICE__ __MAYBE_HOST__ __INLINE__
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__MAYBE_DEVICE__ __MAYBE_HOST__ __INLINE__
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@ -200,7 +200,7 @@ template <typename F=double>
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: Slice<F>::Fetch
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: Slice<F>::Fetch
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;
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;
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if (blank.info.state == Slice<F>::SelfSufficient) {
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if (blank.info.state == Slice<F>::SelfSufficient) {
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#if defined(HAVE_CUDA)
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#if defined(HAVE_CUDA) && !defined(ATRIP_SOURCES_IN_GPU)
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const size_t _size = sizeof(F) * sliceSize;
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const size_t _size = sizeof(F) * sliceSize;
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// TODO: this is code duplication with downstairs
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// TODO: this is code duplication with downstairs
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if (freePointers.size() == 0) {
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if (freePointers.size() == 0) {
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@ -221,7 +221,6 @@ template <typename F=double>
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(void*)SOURCES_DATA(sources[from.source]),
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(void*)SOURCES_DATA(sources[from.source]),
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sizeof(F) * sliceSize));
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sizeof(F) * sliceSize));
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))
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))
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#else
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#else
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blank.data = SOURCES_DATA(sources[from.source]);
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blank.data = SOURCES_DATA(sources[from.source]);
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#endif
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#endif
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@ -465,30 +464,30 @@ template <typename F=double>
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#if defined(HAVE_CUDA)
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#if defined(HAVE_CUDA)
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LOG(1,"Atrip") << "warming communication up " << slices.size() << "\n";
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LOG(1,"Atrip") << "warming communication up " << slices.size() << "\n";
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 WITH_CHRONO("cuda:warmup",
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WITH_CHRONO("cuda:warmup",
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int nRanks=Atrip::np, requestCount=0;
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int nRanks=Atrip::np, requestCount=0;
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int nSends=sliceBuffers.size()*nRanks;
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int nSends=sliceBuffers.size()*nRanks;
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MPI_Request *requests = (MPI_Request*) malloc(nSends*2 * sizeof(MPI_Request));
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MPI_Request *requests = (MPI_Request*) malloc(nSends*2 * sizeof(MPI_Request));
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MPI_Status *statuses = (MPI_Status*) malloc(nSends*2 * sizeof(MPI_Status));
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MPI_Status *statuses = (MPI_Status*) malloc(nSends*2 * sizeof(MPI_Status));
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for (int sliceId=0; sliceId<sliceBuffers.size(); sliceId++){
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for (int sliceId=0; sliceId<sliceBuffers.size(); sliceId++){
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for (int rankId=0; rankId<nRanks; rankId++){
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for (int rankId=0; rankId<nRanks; rankId++){
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MPI_Isend((void*)SOURCES_DATA(sources[0]),
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MPI_Isend((void*)SOURCES_DATA(sources[0]),
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sliceSize,
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sliceSize,
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traits::mpi::datatypeOf<F>(),
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traits::mpi::datatypeOf<F>(),
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rankId,
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rankId,
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100,
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100,
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universe,
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universe,
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&requests[requestCount++]);
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&requests[requestCount++]);
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MPI_Irecv((void*)sliceBuffers[sliceId],
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MPI_Irecv((void*)sliceBuffers[sliceId],
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sliceSize,
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sliceSize,
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traits::mpi::datatypeOf<F>(),
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traits::mpi::datatypeOf<F>(),
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rankId,
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rankId,
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100,
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100,
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universe,
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universe,
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&requests[requestCount++]);
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&requests[requestCount++]);
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}
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}
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}
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}
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MPI_Waitall(nSends*2, requests, statuses);
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MPI_Waitall(nSends*2, requests, statuses);
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)
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)
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#endif
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#endif
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@ -578,8 +577,11 @@ template <typename F=double>
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# error "You need CUDA aware MPI to have slices on the GPU"
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# error "You need CUDA aware MPI to have slices on the GPU"
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# endif
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# endif
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MPI_Irecv((void*)slice.data,
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MPI_Irecv((void*)slice.data,
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#elif defined(HAVE_CUDA) && !defined(ATRIP_SOURCES_IN_GPU)
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slice.mpi_data = (F*)malloc(sizeof(F) * slice.size);
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MPI_Irecv(slice.mpi_data,
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#else
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#else
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MPI_Irecv(slice.data,
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MPI_Irecv((void*)slice.data,
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#endif
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#endif
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slice.size,
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slice.size,
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traits::mpi::datatypeOf<F>(),
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traits::mpi::datatypeOf<F>(),
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@ -202,7 +202,7 @@ Atrip::Output Atrip::run(Atrip::Input<F> const& in) {
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_CHECK_CUDA_SUCCESS("Zijk",
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_CHECK_CUDA_SUCCESS("Zijk",
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cuMemAlloc(&Zijk, sizeof(F) * No * No * No));
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cuMemAlloc(&Zijk, sizeof(F) * No * No * No));
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#else
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#else
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std::vector<F> &Tai = _Tai, &epsi = _epsi, &epsa = _epsa;
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DataPtr<F> Tai = _Tai.data(), epsi = _epsi.data(), epsa = _epsa.data();
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Zijk = (DataFieldType<F>*)malloc(No*No*No * sizeof(DataFieldType<F>));
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Zijk = (DataFieldType<F>*)malloc(No*No*No * sizeof(DataFieldType<F>));
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Tijk = (DataFieldType<F>*)malloc(No*No*No * sizeof(DataFieldType<F>));
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Tijk = (DataFieldType<F>*)malloc(No*No*No * sizeof(DataFieldType<F>));
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#endif
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#endif
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@ -693,7 +693,7 @@ Atrip::Output Atrip::run(Atrip::Input<F> const& in) {
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(DataFieldType<F>*)Tai,
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(DataFieldType<F>*)Tai,
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#else
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#else
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singlesContribution<F>(No, Nv, abc[0], abc[1], abc[2],
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singlesContribution<F>(No, Nv, abc[0], abc[1], abc[2],
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Tai.data(),
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Tai,
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#endif
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#endif
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(DataFieldType<F>*)abhh.unwrapSlice(Slice<F>::AB,
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(DataFieldType<F>*)abhh.unwrapSlice(Slice<F>::AB,
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abc),
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abc),
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@ -733,18 +733,30 @@ Atrip::Output Atrip::run(Atrip::Input<F> const& in) {
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1, 1, // for cuda
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1, 1, // for cuda
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_epsabc,
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_epsabc,
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No,
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No,
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#if defined(HAVE_CUDA)
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(DataFieldType<F>*)epsi,
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(DataFieldType<F>*)epsi,
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(DataFieldType<F>*)Tijk,
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(DataFieldType<F>*)Tijk,
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(DataFieldType<F>*)Zijk,
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(DataFieldType<F>*)Zijk,
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#else
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epsi,
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Tijk,
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Zijk,
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#endif
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tupleEnergy);
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tupleEnergy);
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} else {
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} else {
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ACC_FUNCALL(getEnergySame<DataFieldType<F>>,
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ACC_FUNCALL(getEnergySame<DataFieldType<F>>,
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1, 1, // for cuda
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1, 1, // for cuda
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_epsabc,
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_epsabc,
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No,
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No,
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#if defined(HAVE_CUDA)
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(DataFieldType<F>*)epsi,
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(DataFieldType<F>*)epsi,
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(DataFieldType<F>*)Tijk,
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(DataFieldType<F>*)Tijk,
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(DataFieldType<F>*)Zijk,
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(DataFieldType<F>*)Zijk,
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#else
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epsi,
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Tijk,
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Zijk,
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#endif
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tupleEnergy);
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tupleEnergy);
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})
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})
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@ -891,5 +903,5 @@ Atrip::Output Atrip::run(Atrip::Input<F> const& in) {
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}
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}
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// instantiate
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// instantiate
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template Atrip::Output Atrip::run(Atrip::Input<double> const& in);
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template Atrip::Output Atrip::run(Atrip::Input<double> const& in);
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template Atrip::Output Atrip::run(Atrip::Input<Complex> const& in);
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// template Atrip::Output Atrip::run(Atrip::Input<Complex> const& in);
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// Main:1 ends here
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// Main:1 ends here
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@ -25,11 +25,8 @@ namespace atrip {
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#if defined(HAVE_CUDA)
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#if defined(HAVE_CUDA)
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#define FOR_K() \
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#define FOR_K() \
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for (size_t kmin = blockIdx.x * blockDim.x + threadIdx.x, \
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const size_t k = blockIdx.x * blockDim.x + threadIdx.x; \
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k = kmin, \
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size_t idx = 0;
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idx = kmin * size * size * size; \
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k < (kmin < size) ? kmin + 1 : size; \
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k++)
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#else
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#else
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#define FOR_K() for (size_t k=0, idx=0; k < size; k++)
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#define FOR_K() for (size_t k=0, idx=0; k < size; k++)
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#endif
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#endif
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@ -102,6 +99,7 @@ namespace atrip {
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# define MIN(a, b) std::min((a), (b))
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# define MIN(a, b) std::min((a), (b))
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#endif
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#endif
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#if defined(ATRIP_NEW_ENERGY)
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// [[file:~/cuda/atrip/atrip.org::*Energy][Energy:2]]
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// [[file:~/cuda/atrip/atrip.org::*Energy][Energy:2]]
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template <typename F>
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template <typename F>
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@ -250,6 +248,131 @@ void getEnergySame
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}
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}
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// Energy:2 ends here
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// Energy:2 ends here
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#else
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// [[file:~/cuda/atrip/atrip.org::*Energy][Energy:2]]
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template <typename F>
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__MAYBE_GLOBAL__
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void getEnergyDistinct
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( F const epsabc
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, size_t const No
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, F* const epsi
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, F* const Tijk
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, F* const Zijk
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, double* _energy
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) {
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constexpr size_t blockSize=16;
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F energy(0.);
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for (size_t kk=0; kk<No; kk+=blockSize){
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const size_t kend( MIN(No, kk+blockSize) );
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for (size_t jj(kk); jj<No; jj+=blockSize){
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const size_t jend( MIN( No, jj+blockSize) );
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for (size_t ii(jj); ii<No; ii+=blockSize){
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const size_t iend( MIN( No, ii+blockSize) );
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for (size_t k(kk); k < kend; k++){
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const F ek(epsi[k]);
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const size_t jstart = jj > k ? jj : k;
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for (size_t j(jstart); j < jend; j++){
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F const ej(epsi[j]);
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F const facjk = j == k ? F(0.5) : F(1.0);
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size_t istart = ii > j ? ii : j;
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for (size_t i(istart); i < iend; i++){
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|
const F
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ei(epsi[i])
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, facij = i == j ? F(0.5) : F(1.0)
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, denominator(epsabc - ei - ej - ek)
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|
, U(Zijk[i + No*j + No*No*k])
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, V(Zijk[i + No*k + No*No*j])
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, W(Zijk[j + No*i + No*No*k])
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, X(Zijk[j + No*k + No*No*i])
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, Y(Zijk[k + No*i + No*No*j])
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|
, Z(Zijk[k + No*j + No*No*i])
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|
, A(acc::maybeConjugateScalar<F>(Tijk[i + No*j + No*No*k]))
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, B(acc::maybeConjugateScalar<F>(Tijk[i + No*k + No*No*j]))
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, C(acc::maybeConjugateScalar<F>(Tijk[j + No*i + No*No*k]))
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, D(acc::maybeConjugateScalar<F>(Tijk[j + No*k + No*No*i]))
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, E(acc::maybeConjugateScalar<F>(Tijk[k + No*i + No*No*j]))
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, _F(acc::maybeConjugateScalar<F>(Tijk[k + No*j + No*No*i]))
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|
, value
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|
= 3.0 * ( A * U
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|
+ B * V
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|
+ C * W
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|
+ D * X
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|
+ E * Y
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|
+ _F * Z )
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|
+ ( ( U + X + Y )
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|
- 2.0 * ( V + W + Z )
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|
) * ( A + D + E )
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|
+ ( ( V + W + Z )
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|
- 2.0 * ( U + X + Y )
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|
) * ( B + C + _F )
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|
;
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|
energy += 2.0 * value / denominator * facjk * facij;
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|
} // i
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|
} // j
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||||||
|
} // k
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|
} // ii
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|
} // jj
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|
} // kk
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|
*_energy = acc::real(energy);
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|
}
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|
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||||||
|
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||||||
|
template <typename F>
|
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|
__MAYBE_GLOBAL__
|
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|
void getEnergySame
|
||||||
|
( F const epsabc
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|
, size_t const No
|
||||||
|
, F* const epsi
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||||||
|
, F* const Tijk
|
||||||
|
, F* const Zijk
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||||||
|
, double* _energy
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|
) {
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|
constexpr size_t blockSize = 16;
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|
F energy = F(0.);
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|
for (size_t kk=0; kk<No; kk+=blockSize){
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|
const size_t kend( MIN( kk+blockSize, No) );
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|
for (size_t jj(kk); jj<No; jj+=blockSize){
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|
const size_t jend( MIN( jj+blockSize, No) );
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||||||
|
for (size_t ii(jj); ii<No; ii+=blockSize){
|
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|
const size_t iend( MIN( ii+blockSize, No) );
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|
for (size_t k(kk); k < kend; k++){
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|
const F ek(epsi[k]);
|
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|
const size_t jstart = jj > k ? jj : k;
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||||||
|
for(size_t j(jstart); j < jend; j++){
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|
const F facjk( j == k ? F(0.5) : F(1.0));
|
||||||
|
const F ej(epsi[j]);
|
||||||
|
const size_t istart = ii > j ? ii : j;
|
||||||
|
for(size_t i(istart); i < iend; i++){
|
||||||
|
const F
|
||||||
|
ei(epsi[i])
|
||||||
|
, facij ( i==j ? F(0.5) : F(1.0))
|
||||||
|
, denominator(epsabc - ei - ej - ek)
|
||||||
|
, U(Zijk[i + No*j + No*No*k])
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||||||
|
, V(Zijk[j + No*k + No*No*i])
|
||||||
|
, W(Zijk[k + No*i + No*No*j])
|
||||||
|
, A(acc::maybeConjugateScalar<F>(Tijk[i + No*j + No*No*k]))
|
||||||
|
, B(acc::maybeConjugateScalar<F>(Tijk[j + No*k + No*No*i]))
|
||||||
|
, C(acc::maybeConjugateScalar<F>(Tijk[k + No*i + No*No*j]))
|
||||||
|
, value
|
||||||
|
= F(3.0) * ( A * U
|
||||||
|
+ B * V
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||||||
|
+ C * W
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||||||
|
)
|
||||||
|
- ( A + B + C ) * ( U + V + W )
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||||||
|
;
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||||||
|
energy += F(2.0) * value / denominator * facjk * facij;
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||||||
|
} // i
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||||||
|
} // j
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||||||
|
} // k
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||||||
|
} // ii
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||||||
|
} // jj
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||||||
|
} // kk
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||||||
|
*_energy = acc::real(energy);
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||||||
|
}
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||||||
|
// Energy:2 ends here
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||||||
|
#endif /* defined(ATRIP_NEW_ENERGY) */
|
||||||
|
|
||||||
// [[file:~/cuda/atrip/atrip.org::*Energy][Energy:3]]
|
// [[file:~/cuda/atrip/atrip.org::*Energy][Energy:3]]
|
||||||
// instantiate double
|
// instantiate double
|
||||||
template
|
template
|
||||||
@ -274,6 +397,8 @@ void getEnergySame
|
|||||||
, DataFieldType<double>* energy
|
, DataFieldType<double>* energy
|
||||||
);
|
);
|
||||||
|
|
||||||
|
// TODO: put this back in
|
||||||
|
#if defined(ATRIP_WITH_COMPLEX)
|
||||||
// instantiate Complex
|
// instantiate Complex
|
||||||
template
|
template
|
||||||
__MAYBE_GLOBAL__
|
__MAYBE_GLOBAL__
|
||||||
@ -297,6 +422,7 @@ void getEnergySame
|
|||||||
, DataFieldType<double>* energy
|
, DataFieldType<double>* energy
|
||||||
);
|
);
|
||||||
// Energy:3 ends here
|
// Energy:3 ends here
|
||||||
|
#endif
|
||||||
|
|
||||||
// [[file:~/cuda/atrip/atrip.org::*Singles%20contribution][Singles contribution:2]]
|
// [[file:~/cuda/atrip/atrip.org::*Singles%20contribution][Singles contribution:2]]
|
||||||
template <typename F> __MAYBE_GLOBAL__
|
template <typename F> __MAYBE_GLOBAL__
|
||||||
@ -416,7 +542,7 @@ void getEnergySame
|
|||||||
#if defined(ATRIP_USE_DGEMM)
|
#if defined(ATRIP_USE_DGEMM)
|
||||||
#if defined(HAVE_CUDA)
|
#if defined(HAVE_CUDA)
|
||||||
#define REORDER(__II, __JJ, __KK) \
|
#define REORDER(__II, __JJ, __KK) \
|
||||||
reorder<<<bs, ths>>>(reorder_proxy< \
|
reorder<<<1, No>>>(reorder_proxy< \
|
||||||
DataFieldType<F>, \
|
DataFieldType<F>, \
|
||||||
__II ## __JJ ## __KK \
|
__II ## __JJ ## __KK \
|
||||||
>{}, \
|
>{}, \
|
||||||
@ -533,11 +659,15 @@ void getEnergySame
|
|||||||
// cuMemAlloc((CUdeviceptr*)&_vhhh,
|
// cuMemAlloc((CUdeviceptr*)&_vhhh,
|
||||||
// NoNoNo * sizeof(DataFieldType<F>)));
|
// NoNoNo * sizeof(DataFieldType<F>)));
|
||||||
// )
|
// )
|
||||||
// const size_t
|
#if !defined(ATRIP_ONLY_DGEMM)
|
||||||
// bs = Atrip::kernelDimensions.ooo.blocks,
|
// we still have to zero this
|
||||||
// ths = Atrip::kernelDimensions.ooo.threads;
|
const size_t
|
||||||
//cuda::zeroing<<<bs, ths>>>((DataFieldType<F>*)_t_buffer, NoNoNo);
|
bs = Atrip::kernelDimensions.ooo.blocks,
|
||||||
//cuda::zeroing<<<bs, ths>>>((DataFieldType<F>*)_vhhh, NoNoNo);
|
ths = Atrip::kernelDimensions.ooo.threads;
|
||||||
|
acc::zeroing<<<bs, ths>>>((DataFieldType<F>*)_t_buffer, NoNoNo);
|
||||||
|
acc::zeroing<<<bs, ths>>>((DataFieldType<F>*)_vhhh, NoNoNo);
|
||||||
|
#endif
|
||||||
|
|
||||||
#else
|
#else
|
||||||
DataFieldType<F>* _t_buffer = (DataFieldType<F>*)malloc(NoNoNo * sizeof(F));
|
DataFieldType<F>* _t_buffer = (DataFieldType<F>*)malloc(NoNoNo * sizeof(F));
|
||||||
DataFieldType<F>* _vhhh = (DataFieldType<F>*)malloc(NoNoNo * sizeof(F));
|
DataFieldType<F>* _vhhh = (DataFieldType<F>*)malloc(NoNoNo * sizeof(F));
|
||||||
@ -554,12 +684,14 @@ void getEnergySame
|
|||||||
acc::zeroing<<<bs, ths>>>((DataFieldType<F>*)Tijk,
|
acc::zeroing<<<bs, ths>>>((DataFieldType<F>*)Tijk,
|
||||||
NoNoNo);
|
NoNoNo);
|
||||||
)
|
)
|
||||||
#else
|
#endif
|
||||||
|
|
||||||
|
#if !defined(HAVE_CUDA)
|
||||||
WITH_CHRONO("double:reorder",
|
WITH_CHRONO("double:reorder",
|
||||||
for (size_t k = 0; k < NoNoNo; k++) {
|
for (size_t k = 0; k < NoNoNo; k++) {
|
||||||
Tijk[k] = DataFieldType<F>{0.0};
|
Tijk[k] = DataFieldType<F>{0.0};
|
||||||
})
|
})
|
||||||
#endif /* defined(HAVE_CUDA) && !defined(ATRIP_ONLY_DGEMM) */
|
#endif /* !defined(HAVE_CUDA) */
|
||||||
|
|
||||||
|
|
||||||
#if defined(ATRIP_ONLY_DGEMM)
|
#if defined(ATRIP_ONLY_DGEMM)
|
||||||
|
|||||||
Loading…
Reference in New Issue
Block a user