.. _onemkl_blas_syr2k: syr2k ===== Performs a symmetric rank-2k update. .. _onemkl_blas_syr2k_description: .. rubric:: Description The ``syr2k`` routines perform a rank-2k update of an ``n`` x ``n`` symmetric matrix ``C`` by general matrices ``A`` and ``B``. If ``trans`` = ``transpose::nontrans``, the operation is defined as: .. math:: C \leftarrow alpha*(A*B^T + B*A^T) + beta*C where ``A`` is ``n`` x ``k`` and ``B`` is ``k`` x ``n``. If ``trans`` = ``transpose::trans``, the operation is defined as: .. math:: C \leftarrow alpha*(A^T*B + B^T*A) + beta * C where ``A`` is ``k`` x ``n`` and ``B`` is ``n`` x ``k``. In both cases: ``alpha`` and ``beta`` are scalars, ``C`` is a symmetric matrix and ``A``,\ ``B`` are general matrices, The inner dimension of both matrix multiplications is ``k``. ``syr2k`` supports the following precisions: .. list-table:: :header-rows: 1 * - T * - ``float`` * - ``double`` * - ``std::complex`` * - ``std::complex`` .. _onemkl_blas_syr2k_buffer: syr2k (Buffer Version) ---------------------- .. rubric:: Syntax .. code-block:: cpp namespace oneapi::mkl::blas::column_major { void syr2k(sycl::queue &queue, onemkl::uplo upper_lower, onemkl::transpose trans, std::int64_t n, std::int64_t k, T alpha, sycl::buffer &a, std::int64_t lda, sycl::buffer &b, std::int64_t ldb, T beta, sycl::buffer &c, std::int64_t ldc) } .. code-block:: cpp namespace oneapi::mkl::blas::row_major { void syr2k(sycl::queue &queue, onemkl::uplo upper_lower, onemkl::transpose trans, std::int64_t n, std::int64_t k, T alpha, sycl::buffer &a, std::int64_t lda, sycl::buffer &b, std::int64_t ldb, T beta, sycl::buffer &c, std::int64_t ldc) } .. container:: section .. rubric:: Input Parameters queue The queue where the routine should be executed. upper_lower Specifies whether ``A``'s data is stored in its upper or lower triangle. See :ref:`onemkl_datatypes` for more details. trans Specifies the operation to apply, as described above. Conjugation is never performed, even if ``trans`` = ``transpose::conjtrans``. n Number of rows and columns in ``C``.The value of ``n`` must be at least zero. k Inner dimension of matrix multiplications.The value of ``k`` must be at least zero. alpha Scaling factor for the rank-2k update. a Buffer holding input matrix ``A``. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``A`` is an ``n``-by-``k`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``k``. - ``A`` is an ``k``-by-``n`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``n`` * - Row major - ``A`` is an ``n``-by-``k`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``n``. - ``A`` is an ``k``-by-``n`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``k``. See :ref:`matrix-storage` for more details. lda The leading dimension of ``A``. It must be positive. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``lda`` must be at least ``n``. - ``lda`` must be at least ``k``. * - Row major - ``lda`` must be at least ``k``. - ``lda`` must be at least ``n``. b Buffer holding input matrix ``B``. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``B`` is an ``k``-by-``n`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``n``. - ``B`` is an ``n``-by-``k`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``k`` * - Row major - ``B`` is an ``k``-by-``n`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``k``. - ``B`` is an ``n``-by-``k`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``n``. See :ref:`matrix-storage` for more details. ldb The leading dimension of ``B``. It must be positive. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``ldb`` must be at least ``k``. - ``ldb`` must be at least ``n``. * - Row major - ``ldb`` must be at least ``n``. - ``ldb`` must be at least ``k``. beta Scaling factor for matrix ``C``. c Buffer holding input/output matrix ``C``. Must have size at least ``ldc``\ \*\ ``n``. See :ref:`matrix-storage` for more details ldc Leading dimension of ``C``. Must be positive and at least ``n``. .. container:: section .. rubric:: Output Parameters c Output buffer, overwritten by the updated ``C`` matrix. .. _onemkl_blas_syr2k_usm: syr2k (USM Version) ------------------- .. rubric:: Syntax .. code-block:: cpp namespace oneapi::mkl::blas::column_major { sycl::event syr2k(sycl::queue &queue, onemkl::uplo upper_lower, onemkl::transpose trans, std::int64_t n, std::int64_t k, T alpha, const T* a, std::int64_t lda, const T* b, std::int64_t ldb, T beta, T* c, std::int64_t ldc, const std::vector &dependencies = {}) } .. code-block:: cpp namespace oneapi::mkl::blas::row_major { sycl::event syr2k(sycl::queue &queue, onemkl::uplo upper_lower, onemkl::transpose trans, std::int64_t n, std::int64_t k, T alpha, const T* a, std::int64_t lda, const T* b, std::int64_t ldb, T beta, T* c, std::int64_t ldc, const std::vector &dependencies = {}) } .. container:: section .. rubric:: Input Parameters queue The queue where the routine should be executed. upper_lower Specifies whether ``A``'s data is stored in its upper or lower triangle. See :ref:`onemkl_datatypes` for more details. trans Specifies the operation to apply, as described above. Conjugation is never performed, even if ``trans`` = ``transpose::conjtrans``. n Number of rows and columns in ``C``. The value of ``n`` must be at least zero. k Inner dimension of matrix multiplications.The value of ``k`` must be at least zero. alpha Scaling factor for the rank-2k update. a Pointer to input matrix ``A``. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``A`` is an ``n``-by-``k`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``k``. - ``A`` is an ``k``-by-``n`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``n`` * - Row major - ``A`` is an ``n``-by-``k`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``n``. - ``A`` is an ``k``-by-``n`` matrix so the array ``a`` must have size at least ``lda``\ \*\ ``k``. See :ref:`matrix-storage` for more details. lda The leading dimension of ``A``. It must be positive. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``lda`` must be at least ``n``. - ``lda`` must be at least ``k``. * - Row major - ``lda`` must be at least ``k``. - ``lda`` must be at least ``n``. b Pointer to input matrix ``B``. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``B`` is an ``k``-by-``n`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``n``. - ``B`` is an ``n``-by-``k`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``k`` * - Row major - ``B`` is an ``k``-by-``n`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``k``. - ``B`` is an ``n``-by-``k`` matrix so the array ``b`` must have size at least ``ldb``\ \*\ ``n``. See :ref:`matrix-storage` for more details. ldb The leading dimension of ``B``. It must be positive. .. list-table:: :header-rows: 1 * - - ``trans`` = ``transpose::nontrans`` - ``trans`` = ``transpose::trans`` or ``transpose::conjtrans`` * - Column major - ``ldb`` must be at least ``k``. - ``ldb`` must be at least ``n``. * - Row major - ``ldb`` must be at least ``n``. - ``ldb`` must be at least ``k``. beta Scaling factor for matrix ``C``. c Pointer to input/output matrix ``C``. Must have size at least ``ldc``\ \*\ ``n``. See :ref:`matrix-storage` for more details ldc Leading dimension of ``C``. Must be positive and at least ``n``. dependencies List of events to wait for before starting computation, if any. If omitted, defaults to no dependencies. .. container:: section .. rubric:: Output Parameters c Pointer to the output matrix, overwritten by the updated ``C`` matrix. .. container:: section .. rubric:: Return Values Output event to wait on to ensure computation is complete. **Parent topic:** :ref:`blas-level-3-routines`