sinh#

Computes hyperbolic sine of vector elements.

Syntax

Buffer API:

namespace oneapi::mkl::vm {

sycl::event sinh(
        sycl::queue& exec_queue,
        std::int64_t n,
        sycl::buffer<T,1>& a,
        sycl::buffer<T,1>& y,
        oneapi::mkl::vm::mode mode = oneapi::mkl::vm::mode::not_defined,
        oneapi::mkl::vm::error_handler<T> errhandler = {});

} // namespace oneapi::mkl::vm

USM API:

namespace oneapi::mkl::vm {

sycl::event sinh(
        sycl::queue& exec_queue,
        std::int64_t n,
        const T *a,
        T* y,
        std::vector<sycl::event> const & depends = {},
        oneapi::mkl::vm::mode mode = oneapi::mkl::vm::mode::not_defined,
        oneapi::mkl::vm::error_handler<T> errhandler = {});

} // namespace oneapi::mkl::vm

sinh supports the following precisions.

T

float

double

std::complex<float>

std::complex<double>

Description

The sinh(a) function computes hyperbolic sine of vector elements.

Data Type

Threshold Limitations on Input Parameters

single precision

-Log(FLT_MAX)-Log(2) <a[i] < Log(FLT_MAX)+Log(2)

double precision

-Log(DBL_MAX)-Log(2) <a[i] < Log(DBL_MAX)+Log(2)

Argument

Result

Status code

+0

+0

-0

-0

a > overflow

+∞

oneapi::mkl::vm::status::overflow

a < -overflow

-∞

oneapi::mkl::vm::status::overflow

+∞

+∞

-∞

-∞

QNAN

QNAN

SNAN

QNAN

+i·∞

-∞+i·QNAN

QNAN+i·QNAN

-0+i·QNAN

+0+i·QNAN

QNAN+i·QNAN

+∞+i·QNAN

QNAN+i·QNAN

+i·Y

-∞·Cos(Y)+ i·∞·Sin(Y)

+∞·CIS(Y)

QNAN+i·QNAN

+i·0

-∞+i·0

-0+i·0

+0+i·0

+∞+i·0

QNAN+i·0

-i·0

-∞-i·0

-0-i·0

+0-i·0

+∞-i·0

QNAN-i·0

-i·Y

-∞·Cos(Y)+ i·∞·Sin(Y)

+∞·CIS(Y)

QNAN+i·QNAN

-i·∞

-∞+i·QNAN

QNAN+i·QNAN

-0+i·QNAN

+0+i·QNAN

QNAN+i·QNAN

+∞+i·QNAN

QNAN+i·QNAN

+i·NAN

-∞+i·QNAN

QNAN+i·QNAN

-0+i·QNAN

+0+i·QNAN

QNAN+i·QNAN

+∞+i·QNAN

QNAN+i·QNAN

Notes:

  • The complex sinh(a) function sets the VM status code to

    oneapi::mkl::vm::status::overflow in the case of overflow, that is, when RE(a), IM(a) are finite non-zero numbers, but the real or imaginary part of the exact result is so large that it does not meet the target precision.

  • sinh(CONJ(a))=CONJ(sinh(a))

  • sinh(-a)=-sinh(a).

Input Parameters

Buffer API:

exec_queue

The queue where the routine should be executed.

n

Specifies the number of elements to be calculated.

a

The buffer a containing input vector of size n.

mode

Overrides the global VM mode setting for this function call. See set_mode function for possible values and their description. This is an optional parameter. The default value is oneapi::mkl::vm::mode::not_defined.

errhandler

Sets local error handling mode for this function call. See the create_error_handler function for arguments and their descriptions. This is an optional parameter. The local error handler is disabled by default.

USM API:

exec_queue

The queue where the routine should be executed.

n

Specifies the number of elements to be calculated.

a

Pointer a to the input vector of size n.

depends

Vector of dependent events (to wait for input data to be ready).

mode

Overrides the global VM mode setting for this function call. See the set_mode function for possible values and their description. This is an optional parameter. The default value is oneapi::mkl::vm::mode::not_defined.

errhandler

Sets local error handling mode for this function call. See the create_error_handler function for arguments and their descriptions. This is an optional parameter. The local error handler is disabled by default.

Output Parameters

Buffer API:

y

The buffer y containing the output vector of size n.

USM API:

y

Pointer y to the output vector of size n.

return value (event)

Event, signifying availability of computed output and status code(s).

Exceptions

For list of generated exceptions please refer to  Exceptions

Parent topic: VM Mathematical Functions