Developer Reference for Intel® oneAPI Math Kernel Library for C

ID 766684
Date 12/16/2022
Public

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v?Asinh

Computes inverse hyperbolic sine of vector elements.

Syntax

vsAsinh( n, a, y );

vsAsinhI(n, a, inca, y, incy);

vmsAsinh( n, a, y, mode );

vmsAsinhI(n, a, inca, y, incy, mode);

vdAsinh( n, a, y );

vdAsinhI(n, a, inca, y, incy);

vmdAsinh( n, a, y, mode );

vmdAsinhI(n, a, inca, y, incy, mode);

vcAsinh( n, a, y );

vcAsinhI(n, a, inca, y, incy);

vmcAsinh( n, a, y, mode );

vmcAsinhI(n, a, inca, y, incy, mode);

vzAsinh( n, a, y );

vzAsinhI(n, a, inca, y, incy);

vmzAsinh( n, a, y, mode );

vmzAsinhI(n, a, inca, y, incy, mode);

Include Files
  • mkl.h
Input Parameters

Name

Type

Description

n

const MKL_INT

Specifies the number of elements to be calculated.

a

const float* for vsAsinh, vmsAsinh

const double* for vdAsinh, vmdAsinh

const MKL_Complex8* for vcAsinh, vmcAsinh

const MKL_Complex16* for vzAsinh, vmzAsinh

Pointer to an array that contains the input vector a.

inca, incy

const MKL_INT

Specifies increments for the elements of a and y.

mode

const MKL_INT64

Overrides global VM mode setting for this function call. See vmlSetMode for possible values and their description.

Output Parameters

Name

Type

Description

y

float* for vsAsinh, vmsAsinh

double* for vdAsinh, vmdAsinh

MKL_Complex8* for vcAsinh, vmcAsinh

MKL_Complex16* for vzAsinh, vmzAsinh

Pointer to an array that contains the output vector y.

Description

The v?Asinh function computes inverse hyperbolic sine of vector elements.

Special Values for Real Function v?Asinh(x)
Argument Result Exception
+0 +0  
-0 -0  
+ +  
- -  
QNAN QNAN  
SNAN QNAN INVALID

See Special Value Notations for the conventions used in the table below.

Special Values for Complex Function v?Asinh(z)

RE(z)

i·IM(z)

-

 

-X

 

-0

 

+0

 

+X

 

+

 

NAN

 

+i· -+i·π/4 -+i·π/2 ++i·π/2 ++i·π/2 ++i·π/2 ++i·π/4 ++i·QNAN
+i·Y -+i·0         ++i·0

QNAN+i·QNAN

+i·0 ++i·0   +0+i·0 +0+i·0   ++i·0

QNAN+i·QNAN

-i·0 --i·0   -0-i·0 +0-i·0   +-i·0

QNAN-i·QNAN

-i·Y --i·0         +-i·0

QNAN+i·QNAN

-i· --i·π/4 --i·π/2 --i·π/2 +-i·π/2 +-i·π/2 +-i·π/4 ++i·QNAN
+i·NAN -+i·QNAN

QNAN+i·QNAN

QNAN+i·QNAN

QNAN+i·QNAN

QNAN+i·QNAN

++i·QNAN

QNAN+i·QNAN

Notes:

  • raises INVALID exception when real or imaginary part of the argument is SNAN

  • Asinh(CONJ(z))=CONJ(Asinh(z))

  • Asinh(-z)=-Asinh(z).