/usr/include/trilinos/TbbTsqr_ExplicitQTask.hpp is in libtrilinos-tpetra-dev 12.10.1-3.
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// Kokkos: Node API and Parallel Node Kernels
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#ifndef __TSQR_TBB_ExplicitQTask_hpp
#define __TSQR_TBB_ExplicitQTask_hpp
#include <tbb/task.h>
#include <TbbTsqr_Partitioner.hpp>
#include <Tsqr_SequentialTsqr.hpp>
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
namespace TSQR {
namespace TBB {
/// \class ExplicitQTask
/// \brief TBB task for recursive TSQR "compute explicit Q" phase.
///
template< class LocalOrdinal, class Scalar >
class ExplicitQTask : public tbb::task {
public:
typedef MatView<LocalOrdinal, Scalar> mat_view_type;
typedef ConstMatView<LocalOrdinal, Scalar> const_mat_view_type;
private:
typedef std::pair<mat_view_type, mat_view_type> split_t;
typedef std::pair<const_mat_view_type, const_mat_view_type> const_split_t;
public:
/// \brief Constructor.
///
ExplicitQTask (const size_t P_first__,
const size_t P_last__,
mat_view_type Q_out,
const SequentialTsqr<LocalOrdinal, Scalar>& seq,
const bool contiguous_cache_blocks) :
P_first_ (P_first__), P_last_ (P_last__), Q_out_ (Q_out),
seq_ (seq), contiguous_cache_blocks_ (contiguous_cache_blocks)
{}
tbb::task* execute ()
{
if (P_first_ > P_last_ || Q_out_.empty ()) {
return NULL;
}
else if (P_first_ == P_last_) {
execute_base_case ();
return NULL;
}
else {
// Recurse on two intervals: [P_first, P_mid] and [P_mid+1, P_last]
const size_t P_mid = (P_first_ + P_last_) / 2;
split_t Q_split =
partitioner_.split (Q_out_, P_first_, P_mid, P_last_,
contiguous_cache_blocks_);
// The partitioner may decide that the current block Q_out
// has too few rows to be worth splitting. In that case,
// Q_split.second (the bottom block) will be empty. We
// can deal with this by treating it as the base case.
if (Q_split.second.empty() || Q_split.second.nrows() == 0) {
execute_base_case ();
return NULL;
}
// "c": continuation task
tbb::empty_task& c =
*new( allocate_continuation() ) tbb::empty_task;
// Recurse on the split
ExplicitQTask& topTask = *new( c.allocate_child() )
ExplicitQTask (P_first_, P_mid, Q_split.first, seq_,
contiguous_cache_blocks_);
ExplicitQTask& botTask = *new( c.allocate_child() )
ExplicitQTask (P_mid+1, P_last_, Q_split.second, seq_,
contiguous_cache_blocks_);
// Set reference count of parent (in this case, the
// continuation task) to 2 (since 2 children -- no
// additional task since no waiting).
c.set_ref_count (2);
c.spawn (botTask);
return &topTask; // scheduler bypass optimization
}
}
private:
size_t P_first_, P_last_;
mat_view_type Q_out_;
SequentialTsqr<LocalOrdinal, Scalar> seq_;
Partitioner<LocalOrdinal, Scalar> partitioner_;
bool contiguous_cache_blocks_;
void
execute_base_case ()
{
// Fill my partition with zeros.
seq_.fill_with_zeros (Q_out_.nrows(), Q_out_.ncols(), Q_out_.get(),
Q_out_.lda(), contiguous_cache_blocks_);
// If our partition is the first (topmost), fill it with
// the first Q_out.ncols() columns of the identity matrix.
if (P_first_ == 0)
{
// Fetch the topmost cache block of my partition. Its
// leading dimension should be set correctly by
// top_block().
mat_view_type Q_out_top =
seq_.top_block (Q_out_, contiguous_cache_blocks_);
// Set the top block of Q_out to the first ncols
// columns of the identity matrix.
for (LocalOrdinal j = 0; j < Q_out_top.ncols(); ++j)
Q_out_top(j,j) = Scalar(1);
}
}
};
} // namespace TBB
} // namespace TSQR
#endif // __TSQR_TBB_ExplicitQTask_hpp
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