InvCbrt

Syntax

Parameters

Description

The function ippsInvCbrt is declared in the ippvm.h file. This function computes inverse cube root of each element of pSrc and stores the result in the corresponding element of pDst.

For single precision data:

function flavor ippsInvCbrt_32f_A11 guarantees 11 correctly rounded bits of significand, or at least 3 exact decimal digits;

function flavor ippsInvCbrt_32f_A21 guarantees 21 correctly rounded bits of significand, or 4 ulps, or about 6 exact decimal digits;

function flavor ippsInvCbrt_32f_A24 guarantees 24 correctly rounded bits of significand, including the implied bit, with the maximum guaranteed error within 1 ulp.

For double precision data:

function flavor ippsInvCbrt_64f_A26 guarantees 26 correctly rounded bits of significand, or 6.7E+7 ulps, or approximately 8 exact decimal digits;

function flavor ippsInvCbrt_64f_A50 guarantees 50 correctly rounded bits of significand, or 4 ulps, or approximately 15 exact decimal digits;

function flavor ippsInvCbrt_64f_A53 guarantees 53 correctly rounded bits of significand, including the implied bit, with the maximum guaranteed error within 1 ulp.

The computation is performed as follows:

pDst[n] = (pSrc[n])^-1/3, 0 ≤ n < len.

The example below shows how to use the function ippsInvCbrt.

Return Values

Using ippsInvCbrt Function

IppStatus ippsInvCbrt_32f_A21_sample(void)

{

const Ipp32f x[4] = {914.120, 3644.584, 1473.214, 1659.070};

Ipp32f      			y[4];

	IppStatus st = ippsInvCbrt_32f_A21( x, y, 4 );

	printf(" ippsInvCbrt_32f_A21:\n");

	printf(" x = %.3f %.3f %.3f %.3f \n", x[0], x[1], x[2], x[3]);

	printf(" y = %.3f %.3f %.3f %.3f \n", y[0], y[1], y[2], y[3]);

	return st;

}

Output results:

 ippsInvCbrt_32f_A21:

 x = 914.120 3644.584 1473.214 1659.070

 y = 0.103 0.065 0.088 0.084