CHROMA
syssolver_linop_cg_timing.cc
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1 /*! \file
2  * \brief Solve a M*psi=chi linear system by CG2
3  */
4 
7 
9 
10 namespace Chroma
11 {
12 
13  //! CG1 system solver namespace
14  namespace LinOpSysSolverCGTimingEnv
15  {
16  //! Callback function
18  const std::string& path,
19  Handle< FermState< LatticeFermion, multi1d<LatticeColorMatrix>, multi1d<LatticeColorMatrix> > > state,
21  {
23  }
24 
25  //! Name to be used
26  const std::string name("CG_INVERTER_TIMINGS");
27 
28  //! Local registration flag
29  static bool registered = false;
30 
31  //! Register all the factories
32  bool registerAll()
33  {
34  bool success = true;
35  if (! registered)
36  {
38  registered = true;
39  }
40  return success;
41  }
42  }
43 }
Support class for fermion actions and linear operators.
Definition: state.h:94
Class for counted reference semantics.
Definition: handle.h:33
Solve a M*psi=chi linear system by CG2.
static T & Instance()
Definition: singleton.h:432
static bool registered
Local registration flag.
bool registerAll()
Register all the factories.
LinOpSystemSolver< LatticeFermion > * createFerm(XMLReader &xml_in, const std::string &path, Handle< FermState< LatticeFermion, multi1d< LatticeColorMatrix >, multi1d< LatticeColorMatrix > > > state, Handle< LinearOperator< LatticeFermion > > A)
Callback function.
const std::string name("CG_INVERTER_TIMINGS")
Name to be used.
Asqtad Staggered-Dirac operator.
Definition: klein_gord.cc:10
A(A, psi, r, Ncb, PLUS)
const WilsonTypeFermAct< multi1d< LatticeFermion > > Handle< const ConnectState > state
Definition: pbg5p_w.cc:28
::std::string string
Definition: gtest.h:1979
Params for CG inverter.
Register linop system solvers that solve M*psi=chi.
Solve a M*psi=chi linear system by CG2.
Factory for solving M*psi=chi where M is not hermitian or pos. def.