Developer Reference for Intel® oneAPI Math Kernel Library for C

ID 766684
Date 6/24/2024
Public

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Document Table of Contents

v?Exp

Computes an exponential of vector elements.

Syntax

vhExp( n, a, y );

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

vmhExp( n, a, y, mode );

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

vsExp( n, a, y );

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

vmsExp( n, a, y, mode );

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

vdExp( n, a, y );

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

vmdExp( n, a, y, mode );

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

vcExp( n, a, y );

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

vmcExp( n, a, y, mode );

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

vzExp( n, a, y );

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

vmzExp( n, a, y, mode );

vmzExpI(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 _Float16* for vhExp, vmhExp

const float* for vsExp, vmsExp

const double* for vdExp, vmdExp

const MKL_Complex8* for vcExp, vmcExp

const MKL_Complex16* for vzExp, vmzExp

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.

Precision Overflow Thresholds for Real v?Exp Function
Data Type Threshold Limitations on Input Parameters
single precision a[i] < Ln( FLT_MAX )
double precision a[i] < Ln( DBL_MAX )

Precision overflow thresholds for the complex v?Exp function are beyond the scope of this document.

Output Parameters

Name

Type

Description

y

_Float16* for vhExp, vmhExp

float* for vsExp, vmsExp

double* for vdExp, vmdExp

MKL_Complex8* for vcExp, vmcExp

MKL_Complex16* for vzExp, vmzExp

Pointer to an array that contains the output vector y.

Description

The v?Exp function computes an exponential of vector elements.

Special Values for Real Function v?Exp(x)
Argument Result VM Error Status Exception
+0 +1    
-0 +1    
X > overflow + VML_STATUS_OVERFLOW OVERFLOW
X < underflow +0 VML_STATUS_UNDERFLOW UNDERFLOW
+ +    
- +0    
QNAN QNAN    
SNAN QNAN   INVALID

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

Special Values for Complex Function v?Exp(z)

RE(z)

i·IM(z)

-

 

-X

 

-0

 

+0

 

+X

 

+

 

NAN

 

+i·

 

+0+i·0

 

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

++i·QNAN

INVALID

QNAN+i·QNAN

INVALID

+i·Y +0·CIS(Y)         +·CIS(Y) QNAN+i·QNAN
+i·0 +0·CIS(0)   +1+i·0 +1+i·0   ++i·0 QNAN+i·0
-i·0 +0·CIS(0)   +1-i·0 +1-i·0   +-i·0 QNAN-i·0
-i·Y +0·CIS(Y)         +·CIS(Y) QNAN+i·QNAN

-i·

 

+0-i·0

 

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

++i·QNAN

INVALID

QNAN+i·QNAN

INVALID

+i·NAN

+0+i·0

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

QNAN+i·QNAN

INVALID

++i·QNAN

QNAN+i·QNAN

Notes:

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

  • raises the INVALID exception on argument z=-+i·QNAN

  • raises the OVERFLOW exception and sets the VM Error Status to VML_STATUS_OVERFLOW in the case of overflow, that is, when both RE(z) and IM(z) 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.