Wraps a CUDA solver to work with CPU data.
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#include <SolverAdapter.hpp>
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using | XGPU = Opm::gpuistl::GpuVector<real_type> |
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template<class Comm > |
| SolverAdapter (Operator &op, Dune::ScalarProduct< X > &sp, std::shared_ptr< Dune::Preconditioner< X, X > > prec, scalar_real_type reduction, int maxit, int verbose, const Comm &comm) |
| constructor
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virtual void | apply (X &x, X &b, double reduction, Dune::InverseOperatorResult &res) override |
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virtual void | apply (X &x, X &b, Dune::InverseOperatorResult &res) override |
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static constexpr auto | block_size = domain_type::block_type::dimension |
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template<class Operator, template< class > class UnderlyingSolver, class X>
class Opm::gpuistl::SolverAdapter< Operator, UnderlyingSolver, X >
Wraps a CUDA solver to work with CPU data.
- Template Parameters
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Operator | the Dune::LinearOperator to use |
UnderlyingSolver | a Dune solver like class, eg Dune::BiCGSTABSolver |
X | the outer type to use (eg. Dune::BlockVector<Dune::FieldVector<...>>) |
◆ SolverAdapter()
template<class Operator , template< class > class UnderlyingSolver, class X >
template<class Comm >
Opm::gpuistl::SolverAdapter< Operator, UnderlyingSolver, X >::SolverAdapter |
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Operator & | op, |
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Dune::ScalarProduct< X > & | sp, |
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std::shared_ptr< Dune::Preconditioner< X, X > > | prec, |
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scalar_real_type | reduction, |
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int | maxit, |
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int | verbose, |
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const Comm & | comm ) |
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inline |
constructor
- Parameters
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op | the linear operator (assumed CPU, the output (matrix) of which will be converted to a GPU variant) |
sp | the scalar product (assumed CPU, this will be converted to a GPU variant) |
reduction | the reduction factor passed to the iterative solver |
maxit | maximum number of iterations for the linear solver |
verbose | verbosity level |
comm | the communication object. If this is Dune::Amg::SequentialInformation, we assume a serial setup |
- Todo
- Use a std::forward in this function
The documentation for this class was generated from the following file: