CHROMA
invdd_deflated.h
Go to the documentation of this file.
1 // -*- C++ -*-
2 /*! \file
3  * Domain-Decomposed Deflated inverter
4  */
5 
6 #ifndef __invdd_deflated__
7 #define __invdd_deflated__
8 
9 #include "linearop.h"
10 #include "syssolver.h"
11 
12 namespace Chroma {
13 
14 
15  namespace InvDDDeflatedEnv {
16 
17 SystemSolverResults_t
18 dd_def_inv(const LinearOperator<T>& A,
19  const T& chi,
20  T& psi,
21  const Real& RsdCG,
22  int MaxCG, int MinCG=0);
23 
24 } // end namespace Chroma
25 
26 #endif
linearop.h
Linear Operators.
Chroma
Asqtad Staggered-Dirac operator.
Definition: klein_gord.cc:10
Chroma::RsdCG
const WilsonTypeFermAct< multi1d< LatticeFermion > > Handle< const ConnectState > const multi1d< Real > enum InvType invType const multi1d< Real > & RsdCG
Definition: pbg5p_w.cc:30
Chroma::MaxCG
const WilsonTypeFermAct< multi1d< LatticeFermion > > Handle< const ConnectState > const multi1d< Real > enum InvType invType const multi1d< Real > int MaxCG
Definition: pbg5p_w.cc:32
Chroma::chi
multi1d< LatticeFermion > chi(Ncb)
Chroma::psi
LatticeFermion psi
Definition: mespbg5p_w.cc:35
Chroma::A
A(A, psi, r, Ncb, PLUS)
syssolver.h
Linear system solvers.
T
LatticeFermion T
Definition: t_clover.cc:11
Generated by doxygen 1.9.1