Visible to Intel only — GUID: GUID-7B52C0D9-FC45-4C20-801C-2974287F6BFA
Visible to Intel only — GUID: GUID-7B52C0D9-FC45-4C20-801C-2974287F6BFA
v?Acosh
Computes inverse hyperbolic cosine (nonnegative) of vector elements.
Syntax
vsAcosh( n, a, y );
vsAcoshI(n, a, inca, y, incy);
vmsAcosh( n, a, y, mode );
vmsAcoshI(n, a, inca, y, incy, mode);
vdAcosh( n, a, y );
vdAcoshI(n, a, inca, y, incy);
vmdAcosh( n, a, y, mode );
vmdAcoshI(n, a, inca, y, incy, mode);
vcAcosh( n, a, y );
vcAcoshI(n, a, inca, y, incy);
vmcAcosh( n, a, y, mode );
vmcAcoshI(n, a, inca, y, incy, mode);
vzAcosh( n, a, y );
vzAcoshI(n, a, inca, y, incy);
vmzAcosh( n, a, y, mode );
vmzAcoshI(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 vsAcosh, vmsAcosh const double* for vdAcosh, vmdAcosh const MKL_Complex8* for vcAcosh, vmcAcosh const MKL_Complex16* for vzAcosh, vmzAcosh |
Pointer to an array that contains the input vector a. |
inca, incy |
cnst 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 vsAcosh, vmsAcosh double* for vdAcosh, vmdAcosh MKL_Complex8* for vcAcosh, vmcAcosh MKL_Complex16* for vzAcosh, vmzAcosh |
Pointer to an array that contains the output vector y. |
Description
The v?Acosh function computes inverse hyperbolic cosine (nonnegative) of vector elements.
Argument | Result | VM Error Status | Exception |
---|---|---|---|
+1 | +0 | ||
X < +1 | QNAN | VML_STATUS_ERRDOM | INVALID |
-∞ | QNAN | VML_STATUS_ERRDOM | INVALID |
+∞ | +∞ | ||
QNAN | QNAN | ||
SNAN | QNAN | INVALID |
See Special Value Notations for the conventions used in the table below.
RE(z) i·IM(z) |
-∞
|
-X
|
-0
|
+0
|
+X
|
+∞
|
NAN
|
---|---|---|---|---|---|---|---|
+i·∞ | +∞+i·π/2 | +∞+i·π/2 | +∞+i·π/2 | +∞+i·π/2 | +∞+i·π/4 | +∞+i·QNAN |
|
+i·Y | +∞+i·π | +∞+i·0 | QNAN+i·QNAN |
||||
+i·0 | +∞+i·π | +0+i·π/2 | +0+i·π/2 | +∞+i·0 | QNAN+i·QNAN |
||
-i·0 | +∞+i·π | +0+i·π/2 | +0+i·π/2 | +∞+i·0 | QNAN+i·QNAN |
||
-i·Y | +∞+i·π | +∞+i·0 | QNAN+i·QNAN |
||||
-i·∞ | +∞-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
Acosh(CONJ(z))=CONJ(Acosh(z)).