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hetrd

hetrd#

Reduces a complex Hermitian matrix to tridiagonal form.

Description

hetrd supports the following precisions.

Routine name

T

chetrd

std::complex<float>

zhetrd

std::complex<double>

The routine reduces a complex Hermitian matrix \(A\) to symmetric tridiagonal form \(T\) by a unitary similarity transformation: \(A = QTQ^H\). The unitary matrix \(Q\) is not formed explicitly but is represented as a product of \(n-1\) elementary reflectors. Routines are provided to work with \(Q\) in this representation.

hetrd (Buffer Version)#

Syntax

namespace oneapi::math::lapack {
  void hetrd(cl::sycl::queue &queue, oneapi::math::uplo upper_lower, std::int64_t n, cl::sycl::buffer<T,1> &a, std::int64_t lda, cl::sycl::buffer<realT,1> &d, cl::sycl::buffer<realT,1> &e, cl::sycl::buffer<T,1> &tau, cl::sycl::buffer<T,1> &scratchpad, std::int64_t scratchpad_size)
}

Input Parameters

queue

The queue where the routine should be executed.

upper_lower

Must be uplo::upper or uplo::lower.

If upper_lower = uplo::upper, a stores the upper triangular part of \(A\).

If upper_lower = uplo::lower, a stores the lower triangular part of \(A\).

n

The order of the matrices \(A\) \((0 \le n)\).

a

Buffer, size (lda,*). The buffer a contains either the upper or lower triangle of the Hermitian matrix \(A\), as specified by upper_lower.

The second dimension of a must be at least \(\max(1, n)\).

lda

The leading dimension of a; at least \(\max(1, n)\)

scratchpad_size

Size of scratchpad memory as a number of floating point elements of type T. Size should not be less than the value returned by hetrd_scratchpad_size function.

Output Parameters

a

On exit,

if upper_lower = uplo::upper, the diagonal and first superdiagonal of \(A\) are overwritten by the corresponding elements of the tridiagonal matrix \(T\), and the elements above the first superdiagonal, with the buffer tau, represent the orthogonal matrix \(Q\) as a product of elementary reflectors;

if upper_lower = uplo::lower, the diagonal and first subdiagonal of \(A\) are overwritten by the corresponding elements of the tridiagonal matrix \(T\), and the elements below the first subdiagonal, with the buffer tau, represent the orthogonal matrix \(Q\) as a product of elementary reflectors.

d

Buffer containing the diagonal elements of the matrix \(T\). The dimension of d must be at least \(\max(1, n)\).

e

Buffer containing the off diagonal elements of the matrix \(T\). The dimension of e must be at least \(\max(1, n-1)\).

tau

Buffer, size at least \(\max(1, n-1)\). Stores \((n-1)\) scalars that define elementary reflectors in decomposition of the unitary matrix \(Q\) in a product of \(n-1\) elementary reflectors.

scratchpad

Buffer holding scratchpad memory to be used by routine for storing intermediate results.

Throws

This routine shall throw the following exceptions if the associated condition is detected. An implementation may throw additional implementation-specific exception(s) in case of error conditions not covered here.

oneapi::math::host_bad_alloc

oneapi::math::device_bad_alloc

oneapi::math::unimplemented

oneapi::math::unsupported_device

oneapi::math::lapack::invalid_argument

oneapi::math::lapack::computation_error

Exception is thrown in case of problems during calculations. The info code of the problem can be obtained by info() method of exception object:

If \(\text{info}=-i\), the \(i\)-th parameter had an illegal value.

If info equals to value passed as scratchpad size, and detail() returns non zero, then passed scratchpad is of insufficient size, and required size should not be less than value return by detail() method of exception object.

hetrd (USM Version)#

Syntax

namespace oneapi::math::lapack {
  cl::sycl::event hetrd(cl::sycl::queue &queue, oneapi::math::uplo upper_lower, std::int64_t n, T *a, std::int64_t lda, RealT *d, RealT *e, T *tau, T *scratchpad, std::int64_t scratchpad_size, const std::vector<cl::sycl::event> &events = {})
}

Input Parameters

queue

The queue where the routine should be executed.

upper_lower

Must be uplo::upper or uplo::lower.

If upper_lower = uplo::upper, a stores the upper triangular part of \(A\).

If upper_lower = uplo::lower, a stores the lower triangular part of \(A\).

n

The order of the matrices \(A\) \((0 \le n)\).

a

The pointer to matrix \(A\), size (lda,*). Contains either the upper or lower triangle of the Hermitian matrix \(A\), as specified by upper_lower. The second dimension of a must be at least \(\max(1, n)\).

lda

The leading dimension of a; at least \(\max(1, n)\)

scratchpad_size

Size of scratchpad memory as a number of floating point elements of type T. Size should not be less than the value returned by hetrd_scratchpad_size function.

events

List of events to wait for before starting computation. Defaults to empty list.

Output Parameters

a

On exit,

if upper_lower = uplo::upper, the diagonal and first superdiagonal of \(A\) are overwritten by the corresponding elements of the tridiagonal matrix \(T\), and the elements above the first superdiagonal, with the array tau, represent the orthogonal matrix \(Q\) as a product of elementary reflectors;

if upper_lower = uplo::lower, the diagonal and first subdiagonal of \(A\) are overwritten by the corresponding elements of the tridiagonal matrix \(T\), and the elements below the first subdiagonal, with the array tau, represent the orthogonal matrix \(Q\) as a product of elementary reflectors.

d

Pointer to diagonal elements of the matrix \(T\). The dimension of d must be at least \(\max(1, n)\).

e

Pointer to off diagonal elements of the matrix \(T\). The dimension of e must be at least \(\max(1, n-1)\).

tau

Pointer to array of size at least \(\max(1, n-1)\). Stores \((n-1)\) scalars that define elementary reflectors in decomposition of the unitary matrix \(Q\) in a product of \(n-1\) elementary reflectors.

scratchpad

Pointer to scratchpad memory to be used by routine for storing intermediate results.

Throws

This routine shall throw the following exceptions if the associated condition is detected. An implementation may throw additional implementation-specific exception(s) in case of error conditions not covered here.

oneapi::math::host_bad_alloc

oneapi::math::device_bad_alloc

oneapi::math::unimplemented

oneapi::math::unsupported_device

oneapi::math::lapack::invalid_argument

oneapi::math::lapack::computation_error

Exception is thrown in case of problems during calculations. The info code of the problem can be obtained by info() method of exception object:

If \(\text{info}=-i\), the \(i\)-th parameter had an illegal value.

If info equals to value passed as scratchpad size, and detail() returns non zero, then passed scratchpad is of insufficient size, and required size should not be less than value return by detail() method of exception object.

Return Values

Output event to wait on to ensure computation is complete.

Parent topic: LAPACK Singular Value and Eigenvalue Problem Routines

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