void AllGather ( const DistMatrix<T, U, V >& A, DistMatrix<T,Collect<U>(),Collect<V>()>& B ) { EL_DEBUG_CSE AssertSameGrids( A, B ); const Int height = A.Height(); const Int width = A.Width(); B.SetGrid( A.Grid() ); B.Resize( height, width ); if( A.Participating() ) { if( A.DistSize() == 1 ) { Copy( A.LockedMatrix(), B.Matrix() ); } else { const Int colStride = A.ColStride(); const Int rowStride = A.RowStride(); const Int distStride = colStride*rowStride; const Int maxLocalHeight = MaxLength(height,colStride); const Int maxLocalWidth = MaxLength(width,rowStride); const Int portionSize = mpi::Pad( maxLocalHeight*maxLocalWidth ); vector<T> buf; FastResize( buf, (distStride+1)*portionSize ); T* sendBuf = &buf[0]; T* recvBuf = &buf[portionSize]; // Pack util::InterleaveMatrix ( A.LocalHeight(), A.LocalWidth(), A.LockedBuffer(), 1, A.LDim(), sendBuf, 1, A.LocalHeight() ); // Communicate mpi::AllGather ( sendBuf, portionSize, recvBuf, portionSize, A.DistComm() ); // Unpack util::StridedUnpack ( height, width, A.ColAlign(), colStride, A.RowAlign(), rowStride, recvBuf, portionSize, B.Buffer(), B.LDim() ); } } if( A.Grid().InGrid() && A.CrossComm() != mpi::COMM_SELF ) El::Broadcast( B, A.CrossComm(), A.Root() ); }
void TransposeDist( const DistMatrix<T,U,V>& A, DistMatrix<T,V,U>& B ) { DEBUG_ONLY(CSE cse("copy::TransposeDist")) AssertSameGrids( A, B ); const Grid& g = B.Grid(); B.Resize( A.Height(), A.Width() ); if( !B.Participating() ) return; const Int colStrideA = A.ColStride(); const Int rowStrideA = A.RowStride(); const Int distSize = A.DistSize(); if( A.DistSize() == 1 && B.DistSize() == 1 ) { Copy( A.LockedMatrix(), B.Matrix() ); } else if( A.Width() == 1 ) { const Int height = A.Height(); const Int maxLocalHeight = MaxLength(height,distSize); const Int portionSize = mpi::Pad( maxLocalHeight ); const Int colDiff = Shift(A.DistRank(),A.ColAlign(),distSize) - Shift(B.DistRank(),B.ColAlign(),distSize); const Int sendRankB = Mod( B.DistRank()+colDiff, distSize ); const Int recvRankA = Mod( A.DistRank()-colDiff, distSize ); const Int recvRankB = (recvRankA/colStrideA)+rowStrideA*(recvRankA%colStrideA); vector<T> buffer; FastResize( buffer, (colStrideA+rowStrideA)*portionSize ); T* sendBuf = &buffer[0]; T* recvBuf = &buffer[colStrideA*portionSize]; if( A.RowRank() == A.RowAlign() ) { // Pack // TODO: Use kernel from copy::util const Int AColShift = A.ColShift(); const T* ABuf = A.LockedBuffer(); EL_PARALLEL_FOR for( Int k=0; k<rowStrideA; ++k ) { T* data = &recvBuf[k*portionSize]; const Int shift = Shift_(A.ColRank()+colStrideA*k,A.ColAlign(),distSize); const Int offset = (shift-AColShift) / colStrideA; const Int thisLocalHeight = Length_(height,shift,distSize); for( Int iLoc=0; iLoc<thisLocalHeight; ++iLoc ) data[iLoc] = ABuf[offset+iLoc*rowStrideA]; } } // (e.g., A[VC,STAR] <- A[MC,MR]) mpi::Scatter ( recvBuf, portionSize, sendBuf, portionSize, A.RowAlign(), A.RowComm() ); // (e.g., A[VR,STAR] <- A[VC,STAR]) mpi::SendRecv ( sendBuf, portionSize, sendRankB, recvBuf, portionSize, recvRankB, B.DistComm() ); // (e.g., A[MR,MC] <- A[VR,STAR]) mpi::Gather ( recvBuf, portionSize, sendBuf, portionSize, B.RowAlign(), B.RowComm() ); if( B.RowRank() == B.RowAlign() ) { // Unpack // TODO: Use kernel from copy::util T* bufB = B.Buffer(); EL_PARALLEL_FOR for( Int k=0; k<colStrideA; ++k ) { const T* data = &sendBuf[k*portionSize]; const Int shift = Shift_(B.ColRank()+rowStrideA*k,B.ColAlign(),distSize); const Int offset = (shift-B.ColShift()) / rowStrideA; const Int thisLocalHeight = Length_(height,shift,distSize); for( Int iLoc=0; iLoc<thisLocalHeight; ++iLoc ) bufB[offset+iLoc*colStrideA] = data[iLoc]; } } }