/************************************************************************************* Grid physics library, www.github.com/paboyle/Grid Source file: ./lib/algorithms/iterative/SchurRedBlack.h Copyright (C) 2015 Author: Peter Boyle This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. See the full license in the file "LICENSE" in the top level distribution directory *************************************************************************************/ /* END LEGAL */ #ifndef GRID_SCHUR_RED_BLACK_H #define GRID_SCHUR_RED_BLACK_H /* * Red black Schur decomposition * * M = (Mee Meo) = (1 0 ) (Mee 0 ) (1 Mee^{-1} Meo) * (Moe Moo) (Moe Mee^-1 1 ) (0 Moo-Moe Mee^-1 Meo) (0 1 ) * = L D U * * L^-1 = (1 0 ) * (-MoeMee^{-1} 1 ) * L^{dag} = ( 1 Mee^{-dag} Moe^{dag} ) * ( 0 1 ) * L^{-d} = ( 1 -Mee^{-dag} Moe^{dag} ) * ( 0 1 ) * * U^-1 = (1 -Mee^{-1} Meo) * (0 1 ) * U^{dag} = ( 1 0) * (Meo^dag Mee^{-dag} 1) * U^{-dag} = ( 1 0) * (-Meo^dag Mee^{-dag} 1) *********************** * M psi = eta *********************** *Odd * i) (D_oo)^{\dag} D_oo psi_o = (D_oo)^dag L^{-1} eta_o * eta_o' = (D_oo)^dag (eta_o - Moe Mee^{-1} eta_e) *Even * ii) Mee psi_e + Meo psi_o = src_e * * => sol_e = M_ee^-1 * ( src_e - Meo sol_o )... * */ namespace Grid { /////////////////////////////////////////////////////////////////////////////////////////////////////// // Take a matrix and form a Red Black solver calling a Herm solver // Use of RB info prevents making SchurRedBlackSolve conform to standard interface /////////////////////////////////////////////////////////////////////////////////////////////////////// template class SchurRedBlackDiagMooeeSolve { private: OperatorFunction & _HermitianRBSolver; int CBfactorise; public: ///////////////////////////////////////////////////// // Wrap the usual normal equations Schur trick ///////////////////////////////////////////////////// SchurRedBlackDiagMooeeSolve(OperatorFunction &HermitianRBSolver) : _HermitianRBSolver(HermitianRBSolver) { CBfactorise=0; }; template void operator() (Matrix & _Matrix,const Field &in, Field &out){ // FIXME CGdiagonalMee not implemented virtual function // FIXME use CBfactorise to control schur decomp GridBase *grid = _Matrix.RedBlackGrid(); GridBase *fgrid= _Matrix.Grid(); SchurDiagMooeeOperator _HermOpEO(_Matrix); Field src_e(grid); Field src_o(grid); Field sol_e(grid); Field sol_o(grid); Field tmp(grid); Field Mtmp(grid); Field resid(fgrid); pickCheckerboard(Even,src_e,in); pickCheckerboard(Odd ,src_o,in); pickCheckerboard(Even,sol_e,out); pickCheckerboard(Odd ,sol_o,out); ///////////////////////////////////////////////////// // src_o = Mdag * (source_o - Moe MeeInv source_e) ///////////////////////////////////////////////////// _Matrix.MooeeInv(src_e,tmp); assert( tmp.checkerboard ==Even); _Matrix.Meooe (tmp,Mtmp); assert( Mtmp.checkerboard ==Odd); tmp=src_o-Mtmp; assert( tmp.checkerboard ==Odd); // get the right MpcDag _HermOpEO.MpcDag(tmp,src_o); assert(src_o.checkerboard ==Odd); ////////////////////////////////////////////////////////////// // Call the red-black solver ////////////////////////////////////////////////////////////// std::cout< class SchurRedBlackDiagTwoSolve { private: OperatorFunction & _HermitianRBSolver; int CBfactorise; public: ///////////////////////////////////////////////////// // Wrap the usual normal equations Schur trick ///////////////////////////////////////////////////// SchurRedBlackDiagTwoSolve(OperatorFunction &HermitianRBSolver) : _HermitianRBSolver(HermitianRBSolver) { CBfactorise=0; }; template void operator() (Matrix & _Matrix,const Field &in, Field &out){ // FIXME CGdiagonalMee not implemented virtual function // FIXME use CBfactorise to control schur decomp GridBase *grid = _Matrix.RedBlackGrid(); GridBase *fgrid= _Matrix.Grid(); SchurDiagTwoOperator _HermOpEO(_Matrix); Field src_e(grid); Field src_o(grid); Field sol_e(grid); Field sol_o(grid); Field tmp(grid); Field Mtmp(grid); Field resid(fgrid); pickCheckerboard(Even,src_e,in); pickCheckerboard(Odd ,src_o,in); pickCheckerboard(Even,sol_e,out); pickCheckerboard(Odd ,sol_o,out); ///////////////////////////////////////////////////// // src_o = Mdag * (source_o - Moe MeeInv source_e) ///////////////////////////////////////////////////// _Matrix.MooeeInv(src_e,tmp); assert( tmp.checkerboard ==Even); _Matrix.Meooe (tmp,Mtmp); assert( Mtmp.checkerboard ==Odd); tmp=src_o-Mtmp; assert( tmp.checkerboard ==Odd); // get the right MpcDag _HermOpEO.MpcDag(tmp,src_o); assert(src_o.checkerboard ==Odd); ////////////////////////////////////////////////////////////// // Call the red-black solver ////////////////////////////////////////////////////////////// std::cout<