Added volk'ed version of llr_approx

master
ismagom 10 years ago
parent ecf140a4e9
commit a7ef0baecb

@ -34,6 +34,54 @@
#include "soft_algs.h"
#define LLR_APPROX_USE_VOLK
#ifdef LLR_APPROX_USE_VOLK
void
llr_approx(const _Complex float *in, float *out, int N, int M, int B,
_Complex float *symbols, uint32_t(*S)[6][32], float sigma2)
{
int i, s, b;
float num, den;
int change_sign = -1;
float x, y, d[64];
for (s = 0; s < N; s++) { /* recevied symbols */
/* Compute the distances squared d[i] between the received symbol and all constellation points */
for (i = 0; i < M; i++) {
x = __real__ in[s] - __real__ symbols[i];
y = __imag__ in[s] - __imag__ symbols[i];
d[i] = x * x + y * y;
}
for (b = 0; b < B; b++) { /* bits per symbol */
/* initiate num[b] and den[b] */
num = d[S[0][b][0]];
den = d[S[1][b][0]];
/* Minimum distance squared search between recevied symbol and a constellation point with a
'1' and a '0' for each bit position */
for (i = 1; i < M / 2; i++) { /* half the constellation points have '1'|'0' at any given bit position */
if (d[S[0][b][i]] < num) {
num = d[S[0][b][i]];
}
if (d[S[1][b][i]] < den) {
den = d[S[1][b][i]];
}
}
/* Theoretical LLR and approximate LLR values are positive if
* symbol(s) with '0' is/are closer and negative if symbol(s)
* with '1' are closer.
* Change sign if mapping negative to '0' and positive to '1' */
out[s * B + b] = change_sign * (den - num) / sigma2;
}
}
}
#else
/**
* @ingroup Soft Modulation Demapping based on the approximate
* log-likelihood algorithm
@ -92,6 +140,8 @@ llr_approx(const _Complex float *in, float *out, int N, int M, int B,
}
#endif
/**
* @ingroup Soft Modulation Demapping based on the approximate
* log-likelihood ratio algorithm
@ -108,8 +158,7 @@ llr_approx(const _Complex float *in, float *out, int N, int M, int B,
* \param S Soft demapping auxiliary matrix
* \param sigma2 Noise vatiance
*/
void
llr_exact(const _Complex float *in, float *out, int N, int M, int B,
void llr_exact(const _Complex float *in, float *out, int N, int M, int B,
_Complex float *symbols, uint32_t(*S)[6][32], float sigma2)
{
int i, s, b;

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