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IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * **************************************************************************************************/ /*! \file \brief Defines a matrix object intended for storing data in registers and operations within a CUDA thread. */ #pragma once #include "cutlass/cutlass.h" #include "cutlass/array.h" #include "cutlass/matrix_coord.h" namespace cutlass { namespace thread { ///////////////////////////////////////////////////////////////////////////////////////////////// /// Per-thread matrix object storing a packed matrix template < typename Element, int Rows, int Columns, typename Layout = layout::RowMajor > class Matrix : public Array { public: // Verify layout refers to a rank=2 matrix. static_assert( Layout::kRank == 2, "Layout type must refer to a rank=2 matrix"); /// Base type using Base = Array; /// Element type using Element = Element_; /// Number of rows static int const kRows = Rows; /// Number of columns static int const kColumns = Columns; /// Layout within the array using Layout = Layout_; /// Reference type to an element using Reference = Element &; /// Logical rank of tensor index space static int const kRank = 2; /// Index type using Index = typename Layout::Index; /// Long index used for pointer offsets using LongIndex = typename Layout::LongIndex; /// Coordinate in logical tensor space using TensorCoord = typename Layout::TensorCoord; /// Stride type using Stride = typename Layout::Stride; /// TensorRef to matrix object using TensorRef = TensorRef; /// TensorRef to constant matrix object using ConstTensorRef = typename TensorRef::ConstTensorRef; /// TensorRef to matrix object using TensorView = TensorView; /// TensorRef to constant matrix object using ConstTensorView = typename TensorView::ConstTensorView; /// Diagonal vector using Diagonal = Vector; private: public: // // Methods // /// Returns the size of the object CUTLASS_HOST_DEVICE static MatrixCoord extent() { return make_Coord(kRows, kColumns); } /// Returns the layout object CUTLASS_HOST_DEVICE static Layout layout() { return Layout::packed(extent()); } /// Ctor CUTLASS_HOST_DEVICE Matrix() { } /// Ctor CUTLASS_HOST_DEVICE Matrix(Diagonal const &diag) { } /// Returns a TensorRef pointing to the first element of the tensor. CUTLASS_HOST_DEVICE TensorRef ref() { return TensorRef(this->data(), layout()); } /// Returns a TensorRef pointing to the first element of the tensor. CUTLASS_HOST_DEVICE ConstTensorRef const_ref() const { return ConstTensorRef(this->data(), layout()); } /// Returns a TensorRef pointing to the first element of the tensor. CUTLASS_HOST_DEVICE TensorView view() { return TensorView(ref(), extent()); } /// Returns a TensorView to const data CUTLASS_HOST_DEVICE ConstTensorView const_view() const { return ConstTensorView(const_ref(), extent()); } /// Returns a reference to the element at a given Coord CUTLASS_HOST_DEVICE Reference at(MatrixCoord const& coord) const { typename Base::size_type offset_(layout().offset(coord)); return Base::at(offset_); } /// Returns the number of scalar elements needed to store tensor. CUTLASS_HOST_DEVICE LongIndex capacity() const { return LongIndex(Base::size()); } }; ///////////////////////////////////////////////////////////////////////////////////////////////// /// Column vector defined as a matrix with exactly one column template < typename Element, int Rows, typename Layout = layout::ColumnMajor > using ColumnVector = Matrix; /// Row vector defined as a matrix with exactly one row template < typename Element, int Columns, typename Layout = layout::RowMajor > using RowVector = Matrix; ///////////////////////////////////////////////////////////////////////////////////////////////// } // namespace thread } // namespace cutlass