3gpplte_turbo_decoder_sse_8bit.c 58.6 KB
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/*******************************************************************************
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    OpenAirInterface
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    Copyright(c) 1999 - 2014 Eurecom
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    OpenAirInterface is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.
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    OpenAirInterface is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.
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    You should have received a copy of the GNU General Public License
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    along with OpenAirInterface.The full GNU General Public License is
   included in this distribution in the file called "COPYING". If not,
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   see <http://www.gnu.org/licenses/>.
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  Contact Information
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  OpenAirInterface Admin: openair_admin@eurecom.fr
  OpenAirInterface Tech : openair_tech@eurecom.fr
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  OpenAirInterface Dev  : openair4g-devel@lists.eurecom.fr
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  Address      : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE
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 *******************************************************************************/
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/* file: 3gpplte_turbo_decoder_sse.c
   purpose: Routines for implementing max-logmap decoding of Turbo-coded (DLSCH) transport channels from 36-212, V8.6 2009-03
   authors: raymond.knopp@eurecom.fr, Laurent Thomas (Alcatel-Lucent)
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   date: 21.10.2009
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   Note: This routine currently requires SSE2,SSSE3 and SSE4.1 equipped computers.  It uses 16-bit inputs for LLRs and 8-bit arithmetic for internal computations!
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   Changelog: 17.11.2009 FK SSE4.1 not required anymore
   Aug. 2012 new parallelization options for higher speed (8-way parallelization)
   Jan. 2013 8-bit LLR support with 16-way parallelization
   Feb. 2013 New interleaving and hard-decision optimizations (L. Thomas)
   May 2013 Extracted 8-bit code
*/

///
///

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#include "PHY/sse_intrin.h"
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#ifndef TEST_DEBUG
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#include "PHY/defs.h"
#include "PHY/CODING/defs.h"
#include "PHY/CODING/lte_interleaver_inline.h"
#include "extern_3GPPinterleaver.h"
#else

#include "defs.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#endif

#ifdef MEX
#include "mex.h"
#endif

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#define SHUFFLE16(a,b,c,d,e,f,g,h) _mm_set_epi8(h==-1?-1:h*2+1, \
            h==-1?-1:h*2, \
            g==-1?-1:g*2+1, \
            g==-1?-1:g*2, \
            f==-1?-1:f*2+1, \
            f==-1?-1:f*2, \
            e==-1?-1:e*2+1, \
            e==-1?-1:e*2, \
            d==-1?-1:d*2+1, \
            d==-1?-1:d*2, \
            c==-1?-1:c*2+1, \
            c==-1?-1:c*2, \
            b==-1?-1:b*2+1, \
            b==-1?-1:b*2, \
            a==-1?-1:a*2+1, \
            a==-1?-1:a*2);
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//#define DEBUG_LOGMAP

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typedef int8_t llr_t; // internal decoder LLR data is 8-bit fixed
typedef int8_t channel_t;
#define MAX8 127


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void log_map8(llr_t* systematic,channel_t* y_parity, llr_t* m11, llr_t* m10, llr_t *alpha, llr_t *beta, llr_t* ext,unsigned short frame_length,unsigned char term_flag,unsigned char F,int offset8_flag,
              time_stats_t *alpha_stats,time_stats_t *beta_stats,time_stats_t *gamma_stats,time_stats_t *ext_stats);
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void compute_gamma8(llr_t* m11,llr_t* m10,llr_t* systematic, channel_t* y_parity, unsigned short frame_length,unsigned char term_flag);
void compute_alpha8(llr_t*alpha,llr_t *beta, llr_t* m11,llr_t* m10, unsigned short frame_length,unsigned char F);
void compute_beta8(llr_t*alpha, llr_t* beta,llr_t* m11,llr_t* m10, unsigned short frame_length,unsigned char F,int offset8_flag);
void compute_ext8(llr_t* alpha,llr_t* beta,llr_t* m11,llr_t* m10,llr_t* extrinsic, llr_t* ap, unsigned short frame_length);


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void print_bytes(char *s, int8_t *x)
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{
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  printf("%s  : %d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d\n",s,
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         x[0],x[1],x[2],x[3],x[4],x[5],x[6],x[7],
         x[8],x[9],x[10],x[11],x[12],x[13],x[14],x[15]);
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}


void log_map8(llr_t* systematic,
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              channel_t* y_parity,
              llr_t* m11,
              llr_t* m10,
              llr_t *alpha,
              llr_t *beta,
              llr_t* ext,
              unsigned short frame_length,
              unsigned char term_flag,
              unsigned char F,
              int offset8_flag,
              time_stats_t *alpha_stats,
              time_stats_t *beta_stats,
              time_stats_t *gamma_stats,
              time_stats_t *ext_stats)
{
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#ifdef DEBUG_LOGMAP
  msg("log_map, frame_length %d\n",frame_length);
#endif

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  if (gamma_stats) start_meas(gamma_stats) ;
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  compute_gamma8(m11,m10,systematic,y_parity,frame_length,term_flag) ;
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  if (gamma_stats) stop_meas(gamma_stats);
  if (alpha_stats) start_meas(alpha_stats) ;
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  compute_alpha8(alpha,beta,m11,m10,frame_length,F)                  ;
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  if (alpha_stats) stop_meas(alpha_stats);
  if (beta_stats) start_meas(beta_stats)  ;
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  compute_beta8(alpha,beta,m11,m10,frame_length,F,offset8_flag)      ;
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  if (beta_stats) stop_meas(beta_stats);
  if (ext_stats) start_meas(ext_stats)   ;
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  compute_ext8(alpha,beta,m11,m10,ext,systematic,frame_length)       ;
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  if (ext_stats) stop_meas(ext_stats);
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}

void compute_gamma8(llr_t* m11,llr_t* m10,llr_t* systematic,channel_t* y_parity,
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                    unsigned short frame_length,unsigned char term_flag)
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{
  int k,K1;
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#if defined(__x86_64__)||defined(__i386__)
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  __m128i *systematic128 = (__m128i *)systematic;
  __m128i *y_parity128   = (__m128i *)y_parity;
  __m128i *m10_128        = (__m128i *)m10;
  __m128i *m11_128        = (__m128i *)m11;
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#elif defined(__arm__)
  int8x16_t *systematic128  = (int8x16_t *)systematic;
  int8x16_t *y_parity128    = (int8x16_t *)y_parity;
  int8x16_t *m10_128        = (int8x16_t *)m10;
  int8x16_t *m11_128        = (int8x16_t *)m11;
#endif
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#ifdef DEBUG_LOGMAP
  msg("compute_gamma, %p,%p,%p,%p,framelength %d\n",m11,m10,systematic,y_parity,frame_length);
#endif

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#if defined(__x86_64__) || defined(__i386__)
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  register __m128i sl,sh,ypl,yph; //K128=_mm_set1_epi8(-128);
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#endif
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  K1 = (frame_length>>4);

  for (k=0; k<K1; k++) {
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#if defined(__x86_64__) || defined(__i386__)
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    sl  = _mm_cvtepi8_epi16(systematic128[k]);
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    sh  = _mm_cvtepi8_epi16(_mm_srli_si128(systematic128[k],8));
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    ypl = _mm_cvtepi8_epi16(y_parity128[k]);
    yph = _mm_cvtepi8_epi16(_mm_srli_si128(y_parity128[k],8));
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    m11_128[k] = _mm_packs_epi16(_mm_srai_epi16(_mm_adds_epi16(sl,ypl),1),
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                                 _mm_srai_epi16(_mm_adds_epi16(sh,yph),1));
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    m10_128[k] = _mm_packs_epi16(_mm_srai_epi16(_mm_subs_epi16(sl,ypl),1),
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                                 _mm_srai_epi16(_mm_subs_epi16(sh,yph),1));
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#elif defined(__arm__)
    m11_128[k] = vhaddq_s8(systematic128[k],y_parity128[k]);
    m10_128[k] = vhsubq_s8(systematic128[k],y_parity128[k]);
#endif
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  }
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  // Termination

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#if defined(__x86_64__) || defined(__i386__)
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  sl  = _mm_cvtepi8_epi16(systematic128[k+term_flag]);
  sh = _mm_cvtepi8_epi16(_mm_srli_si128(systematic128[k],8));
  ypl = _mm_cvtepi8_epi16(y_parity128[k+term_flag]);
  yph = _mm_cvtepi8_epi16(_mm_srli_si128(y_parity128[k],8));
  m11_128[k] = _mm_packs_epi16(_mm_srai_epi16(_mm_adds_epi16(sl,ypl),1),
                               _mm_srai_epi16(_mm_adds_epi16(sh,yph),1));
  m10_128[k] = _mm_packs_epi16(_mm_srai_epi16(_mm_subs_epi16(sl,ypl),1),
                               _mm_srai_epi16(_mm_subs_epi16(sh,yph),1));
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#elif defined(__arm__)
  m11_128[k] = vhaddq_s8(systematic128[k+term_flag],y_parity128[k]);
  m10_128[k] = vhsubq_s8(systematic128[k+term_flag],y_parity128[k]);
#endif
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}

#define L 16

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void compute_alpha8(llr_t* alpha,llr_t* beta,llr_t* m_11,llr_t* m_10,unsigned short frame_length,unsigned char F)
{
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  int k,loopval,rerun_flag;
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#if defined(__x86_64__) || defined(__i386__)
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  __m128i *alpha128=(__m128i *)alpha,*alpha_ptr;
  __m128i *m11p,*m10p;
  __m128i m_b0,m_b1,m_b2,m_b3,m_b4,m_b5,m_b6,m_b7;
  __m128i new0,new1,new2,new3,new4,new5,new6,new7;
  __m128i alpha_max;
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#elif defined(__arm__)
  int8x16_t *alpha128=(int8x16_t *)alpha,*alpha_ptr;
  int8x16_t *m11p,*m10p;
  int8x16_t m_b0,m_b1,m_b2,m_b3,m_b4,m_b5,m_b6,m_b7;
  int8x16_t new0,new1,new2,new3,new4,new5,new6,new7;
  int8x16_t alpha_max;
#endif
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  // Set initial state: first colum is known
  // the other columns are unknown, so all states are set to same value
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#if defined(__x86_64__) || defined(__i386__)
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  alpha128[0] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,0);
  alpha128[1] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
  alpha128[2] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
  alpha128[3] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
  alpha128[4] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
  alpha128[5] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
  alpha128[6] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
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  alpha128[7] = _mm_set_epi8(-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2,-MAX8/2);
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  for (loopval=frame_length>>4, rerun_flag=0; rerun_flag<2; loopval=L, rerun_flag++) {
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    alpha_ptr = &alpha128[0];
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    m11p = (__m128i*)m_11;
    m10p = (__m128i*)m_10;
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    for (k=0;  k<loopval;  k++) {
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      m_b0 = _mm_adds_epi8(alpha_ptr[1],*m11p);  // m11
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      m_b4 = _mm_subs_epi8(alpha_ptr[1],*m11p);  // m00=-m11
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      m_b1 = _mm_subs_epi8(alpha_ptr[3],*m10p);  // m01=-m10
      m_b5 = _mm_adds_epi8(alpha_ptr[3],*m10p);  // m10
      m_b2 = _mm_adds_epi8(alpha_ptr[5],*m10p);  // m10
      m_b6 = _mm_subs_epi8(alpha_ptr[5],*m10p);  // m01=-m10
      m_b3 = _mm_subs_epi8(alpha_ptr[7],*m11p);  // m00=-m11
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      m_b7 = _mm_adds_epi8(alpha_ptr[7],*m11p);  // m11

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      new0 = _mm_subs_epi8(alpha_ptr[0],*m11p);  // m00=-m11
      new4 = _mm_adds_epi8(alpha_ptr[0],*m11p);  // m11
      new1 = _mm_adds_epi8(alpha_ptr[2],*m10p);  // m10
      new5 = _mm_subs_epi8(alpha_ptr[2],*m10p);  // m01=-m10
      new2 = _mm_subs_epi8(alpha_ptr[4],*m10p);  // m01=-m10
      new6 = _mm_adds_epi8(alpha_ptr[4],*m10p);  // m10
      new3 = _mm_adds_epi8(alpha_ptr[6],*m11p);  // m11
      new7 = _mm_subs_epi8(alpha_ptr[6],*m11p);  // m00=-m11
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      alpha_ptr += 8;
      m11p++;
      m10p++;
      alpha_ptr[0] = _mm_max_epi8(m_b0,new0);
      alpha_ptr[1] = _mm_max_epi8(m_b1,new1);
      alpha_ptr[2] = _mm_max_epi8(m_b2,new2);
      alpha_ptr[3] = _mm_max_epi8(m_b3,new3);
      alpha_ptr[4] = _mm_max_epi8(m_b4,new4);
      alpha_ptr[5] = _mm_max_epi8(m_b5,new5);
      alpha_ptr[6] = _mm_max_epi8(m_b6,new6);
      alpha_ptr[7] = _mm_max_epi8(m_b7,new7);
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      // compute and subtract maxima
      alpha_max = _mm_max_epi8(alpha_ptr[0],alpha_ptr[1]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[2]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[3]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[4]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[5]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[6]);
      alpha_max = _mm_max_epi8(alpha_max,alpha_ptr[7]);

      alpha_ptr[0] = _mm_subs_epi8(alpha_ptr[0],alpha_max);
      alpha_ptr[1] = _mm_subs_epi8(alpha_ptr[1],alpha_max);
      alpha_ptr[2] = _mm_subs_epi8(alpha_ptr[2],alpha_max);
      alpha_ptr[3] = _mm_subs_epi8(alpha_ptr[3],alpha_max);
      alpha_ptr[4] = _mm_subs_epi8(alpha_ptr[4],alpha_max);
      alpha_ptr[5] = _mm_subs_epi8(alpha_ptr[5],alpha_max);
      alpha_ptr[6] = _mm_subs_epi8(alpha_ptr[6],alpha_max);
      alpha_ptr[7] = _mm_subs_epi8(alpha_ptr[7],alpha_max);
    }

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    // Set intial state for next iteration from the last state
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    // as acolum end states are the first states of the next column
    int K1= frame_length>>1;
    alpha128[0] = _mm_slli_si128(alpha128[K1],1);
    alpha128[1] = _mm_slli_si128(alpha128[1+K1],1);
    alpha128[2] = _mm_slli_si128(alpha128[2+K1],1);
    alpha128[3] = _mm_slli_si128(alpha128[3+K1],1);
    alpha128[4] = _mm_slli_si128(alpha128[4+K1],1);
    alpha128[5] = _mm_slli_si128(alpha128[5+K1],1);
    alpha128[6] = _mm_slli_si128(alpha128[6+K1],1);
    alpha128[7] = _mm_slli_si128(alpha128[7+K1],1);
    alpha[16] =  -MAX8/2;
    alpha[32] = -MAX8/2;
    alpha[48] = -MAX8/2;
    alpha[64] = -MAX8/2;
    alpha[80] = -MAX8/2;
    alpha[96] = -MAX8/2;
    alpha[112] = -MAX8/2;

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  }
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#elif defined(__arm__)
  alpha128[0] = vdupq_n_s8(-MAX8/2);
  alpha128[0] = vsetq_lane_s8(0,alpha128[0],0);
  alpha128[1] = vdupq_n_s8(-MAX8/2);
  alpha128[2] = vdupq_n_s8(-MAX8/2);
  alpha128[3] = vdupq_n_s8(-MAX8/2);
  alpha128[4] = vdupq_n_s8(-MAX8/2);
  alpha128[5] = vdupq_n_s8(-MAX8/2);
  alpha128[6] = vdupq_n_s8(-MAX8/2);
  alpha128[7] = vdupq_n_s8(-MAX8/2);
  for (loopval=frame_length>>4, rerun_flag=0; rerun_flag<2; loopval=L, rerun_flag++) {

    alpha_ptr = &alpha128[0];

    m11p = (int8x16_t*)m_11;
    m10p = (int8x16_t*)m_10;

    for (k=0;  k<loopval;  k++) {
      m_b0 = vqaddq_s8(alpha_ptr[1],*m11p);  // m11
      m_b4 = vqsubq_s8(alpha_ptr[1],*m11p);  // m00=-m11
      m_b1 = vqsubq_s8(alpha_ptr[3],*m10p);  // m01=-m10
      m_b5 = vqaddq_s8(alpha_ptr[3],*m10p);  // m10
      m_b2 = vqaddq_s8(alpha_ptr[5],*m10p);  // m10
      m_b6 = vqsubq_s8(alpha_ptr[5],*m10p);  // m01=-m10
      m_b3 = vqsubq_s8(alpha_ptr[7],*m11p);  // m00=-m11
      m_b7 = vqaddq_s8(alpha_ptr[7],*m11p);  // m11

      new0 = vqsubq_s8(alpha_ptr[0],*m11p);  // m00=-m11
      new4 = vqaddq_s8(alpha_ptr[0],*m11p);  // m11
      new1 = vqaddq_s8(alpha_ptr[2],*m10p);  // m10
      new5 = vqsubq_s8(alpha_ptr[2],*m10p);  // m01=-m10
      new2 = vqsubq_s8(alpha_ptr[4],*m10p);  // m01=-m10
      new6 = vqaddq_s8(alpha_ptr[4],*m10p);  // m10
      new3 = vqaddq_s8(alpha_ptr[6],*m11p);  // m11
      new7 = vqsubq_s8(alpha_ptr[6],*m11p);  // m00=-m11

      alpha_ptr += 8;
      m11p++;
      m10p++;
      alpha_ptr[0] = vmaxq_s8(m_b0,new0);
      alpha_ptr[1] = vmaxq_s8(m_b1,new1);
      alpha_ptr[2] = vmaxq_s8(m_b2,new2);
      alpha_ptr[3] = vmaxq_s8(m_b3,new3);
      alpha_ptr[4] = vmaxq_s8(m_b4,new4);
      alpha_ptr[5] = vmaxq_s8(m_b5,new5);
      alpha_ptr[6] = vmaxq_s8(m_b6,new6);
      alpha_ptr[7] = vmaxq_s8(m_b7,new7);

      // compute and subtract maxima
      alpha_max = vmaxq_s8(alpha_ptr[0],alpha_ptr[1]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[2]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[3]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[4]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[5]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[6]);
      alpha_max = vmaxq_s8(alpha_max,alpha_ptr[7]);

      alpha_ptr[0] = vqsubq_s8(alpha_ptr[0],alpha_max);
      alpha_ptr[1] = vqsubq_s8(alpha_ptr[1],alpha_max);
      alpha_ptr[2] = vqsubq_s8(alpha_ptr[2],alpha_max);
      alpha_ptr[3] = vqsubq_s8(alpha_ptr[3],alpha_max);
      alpha_ptr[4] = vqsubq_s8(alpha_ptr[4],alpha_max);
      alpha_ptr[5] = vqsubq_s8(alpha_ptr[5],alpha_max);
      alpha_ptr[6] = vqsubq_s8(alpha_ptr[6],alpha_max);
      alpha_ptr[7] = vqsubq_s8(alpha_ptr[7],alpha_max);
    }

    // Set intial state for next iteration from the last state
    // as a column end states are the first states of the next column
    int K1= frame_length>>1;
    alpha128[0] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[K1],8);   alpha128[0] = vsetq_lane_s8(alpha[8],alpha128[0],7);
    alpha128[1] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[1+K1],8); alpha128[1] = vsetq_lane_s8(alpha[24],alpha128[0],7);
    alpha128[2] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[2+K1],8); alpha128[2] = vsetq_lane_s8(alpha[40],alpha128[0],7);
    alpha128[3] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[3+K1],8); alpha128[3] = vsetq_lane_s8(alpha[56],alpha128[0],7);
    alpha128[4] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[4+K1],8); alpha128[4] = vsetq_lane_s8(alpha[72],alpha128[0],7);
    alpha128[5] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[5+K1],8); alpha128[5] = vsetq_lane_s8(alpha[88],alpha128[0],7);
    alpha128[6] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[6+K1],8); alpha128[6] = vsetq_lane_s8(alpha[104],alpha128[0],7);
    alpha128[7] = (int8x16_t)vshlq_n_s64((int64x2_t)alpha128[7+K1],8); alpha128[7] = vsetq_lane_s8(alpha[120],alpha128[0],7);
    alpha[16] =  -MAX8/2;
    alpha[32] = -MAX8/2;
    alpha[48] = -MAX8/2;
    alpha[64] = -MAX8/2;
    alpha[80] = -MAX8/2;
    alpha[96] = -MAX8/2;
    alpha[112] = -MAX8/2;

  }
#endif

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}


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void compute_beta8(llr_t* alpha,llr_t* beta,llr_t *m_11,llr_t* m_10,unsigned short frame_length,unsigned char F,int offset8_flag)
{

415
  int k,rerun_flag, loopval;
416
#if defined(__x86_64__) || defined(__i386__)
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  __m128i m11_128,m10_128;
  __m128i m_b0,m_b1,m_b2,m_b3,m_b4,m_b5,m_b6,m_b7;
  __m128i new0,new1,new2,new3,new4,new5,new6,new7;

  __m128i *beta128,*alpha128,*beta_ptr;
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  __m128i beta_max;
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#elif defined(__arm__)
  int8x16_t m11_128,m10_128;
  int8x16_t m_b0,m_b1,m_b2,m_b3,m_b4,m_b5,m_b6,m_b7;
  int8x16_t new0,new1,new2,new3,new4,new5,new6,new7;
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  int8x16_t *beta128,*alpha128,*beta_ptr;
  int8x16_t beta_max;
#endif
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  llr_t beta0,beta1;

  llr_t beta2,beta3,beta4,beta5,beta6,beta7;
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#if 0
437
  int16_t m11,m10;
438
  int16_t beta0_16,beta1_16,beta2_16,beta3_16,beta4_16,beta5_16,beta6_16,beta7_16,beta0_2,beta1_2,beta2_2,beta3_2,beta_m;
439
  __m128i beta_16;
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  // termination for beta initialization

  m11=(int16_t)m_11[2+frame_length];
  m10=(int16_t)m_10[2+frame_length];

  beta0 = -m11;//M0T_TERM;
  beta1 = m11;//M1T_TERM;
  m11=(int16_t)m_11[1+frame_length];
  m10=(int16_t)m_10[1+frame_length];

  beta0_2 = beta0-m11;//+M0T_TERM;
  beta1_2 = beta0+m11;//+M1T_TERM;
  beta2_2 = beta1+m10;//M2T_TERM;
  beta3_2 = beta1-m10;//+M3T_TERM;
  m11=(int16_t)m_11[frame_length];
  m10=(int16_t)m_10[frame_length];

  beta0_16 = beta0_2-m11;//+M0T_TERM;
  beta1_16 = beta0_2+m11;//+M1T_TERM;
  beta2_16 = beta1_2+m10;//+M2T_TERM;
  beta3_16 = beta1_2-m10;//+M3T_TERM;
  beta4_16 = beta2_2-m10;//+M4T_TERM;
  beta5_16 = beta2_2+m10;//+M5T_TERM;
  beta6_16 = beta3_2+m11;//+M6T_TERM;
  beta7_16 = beta3_2-m11;//+M7T_TERM;

  beta_m = (beta0_16>beta1_16) ? beta0_16 : beta1_16;
  beta_m = (beta_m>beta2_16) ? beta_m : beta2_16;
  beta_m = (beta_m>beta3_16) ? beta_m : beta3_16;
  beta_m = (beta_m>beta4_16) ? beta_m : beta4_16;
  beta_m = (beta_m>beta5_16) ? beta_m : beta5_16;
  beta_m = (beta_m>beta6_16) ? beta_m : beta6_16;
  beta_m = (beta_m>beta7_16) ? beta_m : beta7_16;

  beta0_16=beta0_16-beta_m;
  beta1_16=beta1_16-beta_m;
  beta2_16=beta2_16-beta_m;
  beta3_16=beta3_16-beta_m;
  beta4_16=beta4_16-beta_m;
  beta5_16=beta5_16-beta_m;
  beta6_16=beta6_16-beta_m;
  beta7_16=beta7_16-beta_m;

  beta_16 = _mm_set_epi16(beta7_16,beta6_16,beta5_16,beta4_16,beta3_16,beta2_16,beta1_16,beta0_16);
  beta_16 = _mm_packs_epi16(beta_16,beta_16);
  beta0 = _mm_extract_epi8(beta_16,0);
  beta1 = _mm_extract_epi8(beta_16,1);
  beta2 = _mm_extract_epi8(beta_16,2);
  beta3 = _mm_extract_epi8(beta_16,3);
  beta4 = _mm_extract_epi8(beta_16,4);
  beta5 = _mm_extract_epi8(beta_16,5);
  beta6 = _mm_extract_epi8(beta_16,6);
  beta7 = _mm_extract_epi8(beta_16,7);

#endif

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  if (frame_length > 6143) {
    LOG_E(PHY,"compute_beta: frame_length %d\n",frame_length);
    return;
  }

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  // we are supposed to run compute_alpha just before compute_beta
  // so the initial states of backward computation can be set from last value of alpha states (forward computation)
503 504

#if defined(__x86_64__) || defined(__i386__)
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  beta_ptr   = (__m128i*)&beta[frame_length<<3];
  alpha128   = (__m128i*)&alpha[0];
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#elif defined(__arm__)
  beta_ptr   = (int8x16_t*)&beta[frame_length<<3];
  alpha128   = (int8x16_t*)&alpha[0];
#endif
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  beta_ptr[0] = alpha128[(frame_length>>1)];
  beta_ptr[1] = alpha128[1+(frame_length>>1)];
  beta_ptr[2] = alpha128[2+(frame_length>>1)];
  beta_ptr[3] = alpha128[3+(frame_length>>1)];
  beta_ptr[4] = alpha128[4+(frame_length>>1)];
  beta_ptr[5] = alpha128[5+(frame_length>>1)];
  beta_ptr[6] = alpha128[6+(frame_length>>1)];
  beta_ptr[7] = alpha128[7+(frame_length>>1)];

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  for (rerun_flag=0, loopval=0;
       rerun_flag<2 ;
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       loopval=(frame_length>>4)-L,rerun_flag++) {

    if (offset8_flag==0) {
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      // FIXME! beta0-beta7 are used uninitialized. FIXME!
      // workaround: init with 0
      beta0 = beta1 = beta2 = beta3 = beta4 = beta5 = beta6 = beta7 = 0;

529
#if defined(__x86_64__) || defined(__i386__)
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      beta_ptr[0] = _mm_insert_epi8(beta_ptr[0],beta0,15);
      beta_ptr[1] = _mm_insert_epi8(beta_ptr[1],beta1,15);
      beta_ptr[2] = _mm_insert_epi8(beta_ptr[2],beta2,15);
      beta_ptr[3] = _mm_insert_epi8(beta_ptr[3],beta3,15);
      beta_ptr[4] = _mm_insert_epi8(beta_ptr[4],beta4,15);
      beta_ptr[5] = _mm_insert_epi8(beta_ptr[5],beta5,15);
      beta_ptr[6] = _mm_insert_epi8(beta_ptr[6],beta6,15);
      beta_ptr[7] = _mm_insert_epi8(beta_ptr[7],beta7,15);
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#elif defined(__arm__)
      beta_ptr[0] = vsetq_lane_s8(beta0,beta_ptr[0],15);
      beta_ptr[1] = vsetq_lane_s8(beta1,beta_ptr[1],15);
      beta_ptr[2] = vsetq_lane_s8(beta2,beta_ptr[2],15);
      beta_ptr[3] = vsetq_lane_s8(beta3,beta_ptr[3],15);
      beta_ptr[4] = vsetq_lane_s8(beta4,beta_ptr[4],15);
      beta_ptr[5] = vsetq_lane_s8(beta5,beta_ptr[5],15);
      beta_ptr[6] = vsetq_lane_s8(beta6,beta_ptr[6],15);
      beta_ptr[7] = vsetq_lane_s8(beta7,beta_ptr[7],15);
#endif
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    }

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#if defined(__x86_64__) || defined(__i386__)
    beta_ptr = (__m128i*)&beta[frame_length<<3];
#elif defined(__arm__)
    beta_ptr = (int8x16_t*)&beta[frame_length<<3];
#endif
    for (k=(frame_length>>4)-1;
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         k>=loopval;
         k--) {
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#if defined(__x86_64__) || defined(__i386__)
559
      m11_128=((__m128i*)m_11)[k];
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      m10_128=((__m128i*)m_10)[k];
      m_b0 = _mm_adds_epi8(beta_ptr[4],m11_128);  //m11
      m_b1 = _mm_subs_epi8(beta_ptr[4],m11_128);  //m00
      m_b2 = _mm_subs_epi8(beta_ptr[5],m10_128);  //m01
      m_b3 = _mm_adds_epi8(beta_ptr[5],m10_128);  //m10
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      m_b4 = _mm_adds_epi8(beta_ptr[6],m10_128);  //m10
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      m_b5 = _mm_subs_epi8(beta_ptr[6],m10_128);  //m01
      m_b6 = _mm_subs_epi8(beta_ptr[7],m11_128);  //m00
      m_b7 = _mm_adds_epi8(beta_ptr[7],m11_128);  //m11
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      new0 = _mm_subs_epi8(beta_ptr[0],m11_128);  //m00
      new1 = _mm_adds_epi8(beta_ptr[0],m11_128);  //m11
      new2 = _mm_adds_epi8(beta_ptr[1],m10_128);  //m10
      new3 = _mm_subs_epi8(beta_ptr[1],m10_128);  //m01
      new4 = _mm_subs_epi8(beta_ptr[2],m10_128);  //m01
      new5 = _mm_adds_epi8(beta_ptr[2],m10_128);  //m10
      new6 = _mm_adds_epi8(beta_ptr[3],m11_128);  //m11
      new7 = _mm_subs_epi8(beta_ptr[3],m11_128);  //m00
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      beta_ptr-=8;
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      beta_ptr[0] = _mm_max_epi8(m_b0,new0);
      beta_ptr[1] = _mm_max_epi8(m_b1,new1);
      beta_ptr[2] = _mm_max_epi8(m_b2,new2);
      beta_ptr[3] = _mm_max_epi8(m_b3,new3);
      beta_ptr[4] = _mm_max_epi8(m_b4,new4);
      beta_ptr[5] = _mm_max_epi8(m_b5,new5);
      beta_ptr[6] = _mm_max_epi8(m_b6,new6);
      beta_ptr[7] = _mm_max_epi8(m_b7,new7);
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      beta_max = _mm_max_epi8(beta_ptr[0],beta_ptr[1]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[2]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[3]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[4]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[5]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[6]);
      beta_max = _mm_max_epi8(beta_max   ,beta_ptr[7]);

      beta_ptr[0] = _mm_subs_epi8(beta_ptr[0],beta_max);
      beta_ptr[1] = _mm_subs_epi8(beta_ptr[1],beta_max);
      beta_ptr[2] = _mm_subs_epi8(beta_ptr[2],beta_max);
      beta_ptr[3] = _mm_subs_epi8(beta_ptr[3],beta_max);
      beta_ptr[4] = _mm_subs_epi8(beta_ptr[4],beta_max);
      beta_ptr[5] = _mm_subs_epi8(beta_ptr[5],beta_max);
      beta_ptr[6] = _mm_subs_epi8(beta_ptr[6],beta_max);
      beta_ptr[7] = _mm_subs_epi8(beta_ptr[7],beta_max);
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#elif defined(__arm__)
      m11_128=((int8x16_t*)m_11)[k];
      m10_128=((int8x16_t*)m_10)[k];
      m_b0 = vqaddq_s8(beta_ptr[4],m11_128);  //m11
      m_b1 = vqsubq_s8(beta_ptr[4],m11_128);  //m00
      m_b2 = vqsubq_s8(beta_ptr[5],m10_128);  //m01
      m_b3 = vqaddq_s8(beta_ptr[5],m10_128);  //m10
      m_b4 = vqaddq_s8(beta_ptr[6],m10_128);  //m10
      m_b5 = vqsubq_s8(beta_ptr[6],m10_128);  //m01
      m_b6 = vqsubq_s8(beta_ptr[7],m11_128);  //m00
      m_b7 = vqaddq_s8(beta_ptr[7],m11_128);  //m11

      new0 = vqsubq_s8(beta_ptr[0],m11_128);  //m00
      new1 = vqaddq_s8(beta_ptr[0],m11_128);  //m11
      new2 = vqaddq_s8(beta_ptr[1],m10_128);  //m10
      new3 = vqsubq_s8(beta_ptr[1],m10_128);  //m01
      new4 = vqsubq_s8(beta_ptr[2],m10_128);  //m01
      new5 = vqaddq_s8(beta_ptr[2],m10_128);  //m10
      new6 = vqaddq_s8(beta_ptr[3],m11_128);  //m11
      new7 = vqsubq_s8(beta_ptr[3],m11_128);  //m00

      beta_ptr-=8;
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      beta_ptr[0] = vmaxq_s8(m_b0,new0);
      beta_ptr[1] = vmaxq_s8(m_b1,new1);
      beta_ptr[2] = vmaxq_s8(m_b2,new2);
      beta_ptr[3] = vmaxq_s8(m_b3,new3);
      beta_ptr[4] = vmaxq_s8(m_b4,new4);
      beta_ptr[5] = vmaxq_s8(m_b5,new5);
      beta_ptr[6] = vmaxq_s8(m_b6,new6);
      beta_ptr[7] = vmaxq_s8(m_b7,new7);

      beta_max = vmaxq_s8(beta_ptr[0],beta_ptr[1]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[2]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[3]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[4]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[5]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[6]);
      beta_max = vmaxq_s8(beta_max   ,beta_ptr[7]);

      beta_ptr[0] = vqsubq_s8(beta_ptr[0],beta_max);
      beta_ptr[1] = vqsubq_s8(beta_ptr[1],beta_max);
      beta_ptr[2] = vqsubq_s8(beta_ptr[2],beta_max);
      beta_ptr[3] = vqsubq_s8(beta_ptr[3],beta_max);
      beta_ptr[4] = vqsubq_s8(beta_ptr[4],beta_max);
      beta_ptr[5] = vqsubq_s8(beta_ptr[5],beta_max);
      beta_ptr[6] = vqsubq_s8(beta_ptr[6],beta_max);
      beta_ptr[7] = vqsubq_s8(beta_ptr[7],beta_max);
#endif
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    }

    // Set intial state for next iteration from the last state
658
    // as column last states are the first states of the next column
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    // The initial state of column 0 is coming from tail bits (to be computed)

#if defined(__x86_64__) || defined(__i386__)
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    beta128 = (__m128i*)&beta[0];
    beta_ptr   = (__m128i*)&beta[frame_length<<3];
    beta_ptr[0] = _mm_srli_si128(beta128[0],1);
    beta_ptr[1] = _mm_srli_si128(beta128[1],1);
    beta_ptr[2] = _mm_srli_si128(beta128[2],1);
    beta_ptr[3] = _mm_srli_si128(beta128[3],1);
    beta_ptr[4] = _mm_srli_si128(beta128[4],1);
    beta_ptr[5] = _mm_srli_si128(beta128[5],1);
    beta_ptr[6] = _mm_srli_si128(beta128[6],1);
    beta_ptr[7] = _mm_srli_si128(beta128[7],1);
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#elif defined(__arm__)
    beta128 = (int8x16_t*)&beta[0];
    beta_ptr   = (int8x16_t*)&beta[frame_length<<3];
    beta_ptr[0] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[0],8);   beta_ptr[0] = vsetq_lane_s8(beta[7],beta_ptr[0],8);
    beta_ptr[1] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[1],8);   beta_ptr[1] = vsetq_lane_s8(beta[23],beta_ptr[1],8);
    beta_ptr[2] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[2],8);   beta_ptr[2] = vsetq_lane_s8(beta[39],beta_ptr[2],8);
    beta_ptr[3] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[3],8);   beta_ptr[3] = vsetq_lane_s8(beta[55],beta_ptr[3],8);
    beta_ptr[4] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[4],8);   beta_ptr[4] = vsetq_lane_s8(beta[71],beta_ptr[4],8);
    beta_ptr[5] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[5],8);   beta_ptr[5] = vsetq_lane_s8(beta[87],beta_ptr[5],8);
    beta_ptr[6] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[6],8);   beta_ptr[6] = vsetq_lane_s8(beta[103],beta_ptr[6],8);
    beta_ptr[7] = (int8x16_t)vshrq_n_s64((int64x2_t)beta128[7],8);   beta_ptr[7] = vsetq_lane_s8(beta[119],beta_ptr[7],8);
#endif
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  }
}

687 688
void compute_ext8(llr_t* alpha,llr_t* beta,llr_t* m_11,llr_t* m_10,llr_t* ext, llr_t* systematic,unsigned short frame_length)
{
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690
#if defined(__x86_64__) || defined(__i386__)
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  __m128i *alpha128=(__m128i *)alpha;
  __m128i *beta128=(__m128i *)beta;
  __m128i *m11_128,*m10_128,*ext_128;
  __m128i *alpha_ptr,*beta_ptr;
  __m128i m00_1,m00_2,m00_3,m00_4;
  __m128i m01_1,m01_2,m01_3,m01_4;
  __m128i m10_1,m10_2,m10_3,m10_4;
  __m128i m11_1,m11_2,m11_3,m11_4;
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#elif defined(__arm__)
  int8x16_t *alpha128=(int8x16_t *)alpha;
  int8x16_t *beta128=(int8x16_t *)beta;
  int8x16_t *m11_128,*m10_128,*ext_128;
  int8x16_t *alpha_ptr,*beta_ptr;
  int8x16_t m00_1,m00_2,m00_3,m00_4;
  int8x16_t m01_1,m01_2,m01_3,m01_4;
  int8x16_t m10_1,m10_2,m10_3,m10_4;
  int8x16_t m11_1,m11_2,m11_3,m11_4;
#endif
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  int k;

  //
  // LLR computation, 8 consequtive bits per loop
  //

#ifdef DEBUG_LOGMAP
  msg("compute_ext, %p, %p, %p, %p, %p, %p ,framelength %d\n",alpha,beta,m_11,m_10,ext,systematic,frame_length);
#endif

  alpha_ptr = alpha128;
  beta_ptr = &beta128[8];


723
  for (k=0; k<(frame_length>>4); k++) {
724

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#if defined(__x86_64__) || defined(__i386__)

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    m11_128        = (__m128i*)&m_11[k<<4];
    m10_128        = (__m128i*)&m_10[k<<4];
    ext_128        = (__m128i*)&ext[k<<4];

    m00_4 = _mm_adds_epi8(alpha_ptr[7],beta_ptr[3]); //ALPHA_BETA_4m00;
    m11_4 = _mm_adds_epi8(alpha_ptr[7],beta_ptr[7]); //ALPHA_BETA_4m11;
    m00_3 = _mm_adds_epi8(alpha_ptr[6],beta_ptr[7]); //ALPHA_BETA_3m00;
    m11_3 = _mm_adds_epi8(alpha_ptr[6],beta_ptr[3]); //ALPHA_BETA_3m11;
    m00_2 = _mm_adds_epi8(alpha_ptr[1],beta_ptr[4]); //ALPHA_BETA_2m00;
    m11_2 = _mm_adds_epi8(alpha_ptr[1],beta_ptr[0]); //ALPHA_BETA_2m11;
    m11_1 = _mm_adds_epi8(alpha_ptr[0],beta_ptr[4]); //ALPHA_BETA_1m11;
    m00_1 = _mm_adds_epi8(alpha_ptr[0],beta_ptr[0]); //ALPHA_BETA_1m00;
    m01_4 = _mm_adds_epi8(alpha_ptr[5],beta_ptr[6]); //ALPHA_BETA_4m01;
    m10_4 = _mm_adds_epi8(alpha_ptr[5],beta_ptr[2]); //ALPHA_BETA_4m10;
    m01_3 = _mm_adds_epi8(alpha_ptr[4],beta_ptr[2]); //ALPHA_BETA_3m01;
    m10_3 = _mm_adds_epi8(alpha_ptr[4],beta_ptr[6]); //ALPHA_BETA_3m10;
    m01_2 = _mm_adds_epi8(alpha_ptr[3],beta_ptr[1]); //ALPHA_BETA_2m01;
    m10_2 = _mm_adds_epi8(alpha_ptr[3],beta_ptr[5]); //ALPHA_BETA_2m10;
    m10_1 = _mm_adds_epi8(alpha_ptr[2],beta_ptr[1]); //ALPHA_BETA_1m10;
    m01_1 = _mm_adds_epi8(alpha_ptr[2],beta_ptr[5]); //ALPHA_BETA_1m01;

    m01_1 = _mm_max_epi8(m01_1,m01_2);
    m01_1 = _mm_max_epi8(m01_1,m01_3);
    m01_1 = _mm_max_epi8(m01_1,m01_4);
    m00_1 = _mm_max_epi8(m00_1,m00_2);
    m00_1 = _mm_max_epi8(m00_1,m00_3);
    m00_1 = _mm_max_epi8(m00_1,m00_4);
    m10_1 = _mm_max_epi8(m10_1,m10_2);
    m10_1 = _mm_max_epi8(m10_1,m10_3);
    m10_1 = _mm_max_epi8(m10_1,m10_4);
    m11_1 = _mm_max_epi8(m11_1,m11_2);
    m11_1 = _mm_max_epi8(m11_1,m11_3);
    m11_1 = _mm_max_epi8(m11_1,m11_4);

761

762 763 764 765 766 767 768 769 770 771 772
    m01_1 = _mm_subs_epi8(m01_1,*m10_128);
    m00_1 = _mm_subs_epi8(m00_1,*m11_128);
    m10_1 = _mm_adds_epi8(m10_1,*m10_128);
    m11_1 = _mm_adds_epi8(m11_1,*m11_128);


    m01_1 = _mm_max_epi8(m01_1,m00_1);
    m10_1 = _mm_max_epi8(m10_1,m11_1);


    *ext_128 = _mm_subs_epi8(m10_1,m01_1);
773

774 775
    alpha_ptr+=8;
    beta_ptr+=8;
776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828
#elif defined(__arm__)

    m11_128        = (int8x16_t*)&m_11[k<<4];
    m10_128        = (int8x16_t*)&m_10[k<<4];
    ext_128        = (int8x16_t*)&ext[k<<4];

    m00_4 = vqaddq_s8(alpha_ptr[7],beta_ptr[3]); //ALPHA_BETA_4m00;
    m11_4 = vqaddq_s8(alpha_ptr[7],beta_ptr[7]); //ALPHA_BETA_4m11;
    m00_3 = vqaddq_s8(alpha_ptr[6],beta_ptr[7]); //ALPHA_BETA_3m00;
    m11_3 = vqaddq_s8(alpha_ptr[6],beta_ptr[3]); //ALPHA_BETA_3m11;
    m00_2 = vqaddq_s8(alpha_ptr[1],beta_ptr[4]); //ALPHA_BETA_2m00;
    m11_2 = vqaddq_s8(alpha_ptr[1],beta_ptr[0]); //ALPHA_BETA_2m11;
    m11_1 = vqaddq_s8(alpha_ptr[0],beta_ptr[4]); //ALPHA_BETA_1m11;
    m00_1 = vqaddq_s8(alpha_ptr[0],beta_ptr[0]); //ALPHA_BETA_1m00;
    m01_4 = vqaddq_s8(alpha_ptr[5],beta_ptr[6]); //ALPHA_BETA_4m01;
    m10_4 = vqaddq_s8(alpha_ptr[5],beta_ptr[2]); //ALPHA_BETA_4m10;
    m01_3 = vqaddq_s8(alpha_ptr[4],beta_ptr[2]); //ALPHA_BETA_3m01;
    m10_3 = vqaddq_s8(alpha_ptr[4],beta_ptr[6]); //ALPHA_BETA_3m10;
    m01_2 = vqaddq_s8(alpha_ptr[3],beta_ptr[1]); //ALPHA_BETA_2m01;
    m10_2 = vqaddq_s8(alpha_ptr[3],beta_ptr[5]); //ALPHA_BETA_2m10;
    m10_1 = vqaddq_s8(alpha_ptr[2],beta_ptr[1]); //ALPHA_BETA_1m10;
    m01_1 = vqaddq_s8(alpha_ptr[2],beta_ptr[5]); //ALPHA_BETA_1m01;

    m01_1 = vmaxq_s8(m01_1,m01_2);
    m01_1 = vmaxq_s8(m01_1,m01_3);
    m01_1 = vmaxq_s8(m01_1,m01_4);
    m00_1 = vmaxq_s8(m00_1,m00_2);
    m00_1 = vmaxq_s8(m00_1,m00_3);
    m00_1 = vmaxq_s8(m00_1,m00_4);
    m10_1 = vmaxq_s8(m10_1,m10_2);
    m10_1 = vmaxq_s8(m10_1,m10_3);
    m10_1 = vmaxq_s8(m10_1,m10_4);
    m11_1 = vmaxq_s8(m11_1,m11_2);
    m11_1 = vmaxq_s8(m11_1,m11_3);
    m11_1 = vmaxq_s8(m11_1,m11_4);


    m01_1 = vqsubq_s8(m01_1,*m10_128);
    m00_1 = vqsubq_s8(m00_1,*m11_128);
    m10_1 = vqaddq_s8(m10_1,*m10_128);
    m11_1 = vqaddq_s8(m11_1,*m11_128);


    m01_1 = vmaxq_s8(m01_1,m00_1);
    m10_1 = vmaxq_s8(m10_1,m11_1);


    *ext_128 = vqsubq_s8(m10_1,m01_1);

    alpha_ptr+=8;
    beta_ptr+=8;

#endif
829 830 831 832 833 834 835 836 837 838
  }


}



//int pi2[n],pi3[n+8],pi5[n+8],pi4[n+8],pi6[n+8],
int *pi2tab8[188],*pi5tab8[188],*pi4tab8[188],*pi6tab8[188];

839 840 841 842 843 844 845 846 847 848
void free_td8(void)
{
  int ind;

  for (ind=0; ind<188; ind++) {
    free(pi2tab8[ind]);
    free(pi5tab8[ind]);
    free(pi4tab8[ind]);
    free(pi6tab8[ind]);
  }
849 850
}

851 852
void init_td8()
{
853 854 855 856

  int ind,i,j,n,n2,pi,pi3;
  short * base_interleaver;

857
  for (ind=0; ind<188; ind++) {
858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875

    n = f1f2mat[ind].nb_bits;
    base_interleaver=il_tb+f1f2mat[ind].beg_index;
#ifdef MEX
    // This is needed for the Mex implementation to make the memory persistent
    pi2tab8[ind] = mxMalloc((n+8)*sizeof(int));
    pi5tab8[ind] = mxMalloc((n+8)*sizeof(int));
    pi4tab8[ind] = mxMalloc((n+8)*sizeof(int));
    pi6tab8[ind] = mxMalloc((n+8)*sizeof(int));
#else
    pi2tab8[ind] = malloc((n+8)*sizeof(int));
    pi5tab8[ind] = malloc((n+8)*sizeof(int));
    pi4tab8[ind] = malloc((n+8)*sizeof(int));
    pi6tab8[ind] = malloc((n+8)*sizeof(int));
#endif

    if ((n&15)>0) {
      n2 = n+8;
876
    } else
877 878
      n2 = n;

879 880
    for (j=0,i=0; i<n2; i++,j+=16) {

881
      if (j>=n2)
882 883
        j-=(n2-1);

884 885 886
      pi2tab8[ind][i] = j;
      //    printf("pi2[%d] = %d\n",i,j);
    }
887 888

    for (i=0; i<n2; i++) {
889 890 891 892 893
      pi = base_interleaver[i];//(unsigned int)threegpplte_interleaver(f1,f2,n);
      pi3 = pi2tab8[ind][pi];
      pi4tab8[ind][pi2tab8[ind][i]] = pi3;
      pi5tab8[ind][pi3] = pi2tab8[ind][i];
      pi6tab8[ind][pi] = pi2tab8[ind][i];
894
    }
895 896 897 898 899

  }
}

unsigned char phy_threegpplte_turbo_decoder8(short *y,
900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915
    unsigned char *decoded_bytes,
    unsigned short n,
    unsigned short f1,
    unsigned short f2,
    unsigned char max_iterations,
    unsigned char crc_type,
    unsigned char F,
    time_stats_t *init_stats,
    time_stats_t *alpha_stats,
    time_stats_t *beta_stats,
    time_stats_t *gamma_stats,
    time_stats_t *ext_stats,
    time_stats_t *intl1_stats,
    time_stats_t *intl2_stats)
{

916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938
  /*  y is a pointer to the input
      decoded_bytes is a pointer to the decoded output
      n is the size in bits of the coded block, with the tail */

  int n2;

  llr_t y8[3*(n+16)] __attribute__((aligned(16)));


  llr_t systematic0[n+16] __attribute__ ((aligned(16)));
  llr_t systematic1[n+16] __attribute__ ((aligned(16)));
  llr_t systematic2[n+16] __attribute__ ((aligned(16)));
  llr_t yparity1[n+16] __attribute__ ((aligned(16)));
  llr_t yparity2[n+16] __attribute__ ((aligned(16)));

  llr_t ext[n+128] __attribute__((aligned(16)));
  llr_t ext2[n+128] __attribute__((aligned(16)));

  llr_t alpha[(n+16)*8] __attribute__ ((aligned(16)));
  llr_t beta[(n+16)*8] __attribute__ ((aligned(16)));
  llr_t m11[n+16] __attribute__ ((aligned(16)));
  llr_t m10[n+16] __attribute__ ((aligned(16)));

939

940 941
  //  int *pi2_p,*pi4_p,*pi5_p,*pi6_p;
  int *pi4_p,*pi5_p,*pi6_p;
942
  llr_t *s,*s1,*s2,*yp1,*yp2,*yp;
943

944 945 946
  unsigned int i,j,iind;//,pi;
  unsigned char iteration_cnt=0;
  unsigned int crc,oldcrc,crc_len;
947
  uint8_t temp;
948 949
#if defined(__x86_64__) || defined(__i386__)
  __m128i *yp128;
950 951
  __m128i tmp128[(n+8)>>3];
  __m128i tmp, zeros=_mm_setzero_si128();
952 953 954 955 956 957 958 959 960 961
#elif defined(__arm__)
  int8x16_t *yp128;
  int8x16_t tmp128[(n+8)>>3];
  int8x16_t tmp, zeros=vdupq_n_s8(0);
  const uint8_t __attribute__ ((aligned (16))) _Powers[16]= 
    { 1, 2, 4, 8, 16, 32, 64, 128, 1, 2, 4, 8, 16, 32, 64, 128 };
  
  // Set the powers of 2 (do it once for all, if applicable)
  uint8x16_t Powers= vld1q_u8(_Powers);
#endif
962 963 964 965 966 967 968 969 970

  int offset8_flag=0;

  if (crc_type > 3) {
    msg("Illegal crc length!\n");
    return 255;
  }


971
  if (init_stats) start_meas(init_stats);
972 973 974 975 976


  if ((n&15)>0) {
    n2 = n+8;
    offset8_flag=1;
977
  } else
978 979 980
    n2 = n;


981
  for (iind=0; iind < 188 && f1f2mat[iind].nb_bits != n; iind++);
982

983 984 985 986
  if ( iind == 188 ) {
    msg("Illegal frame length!\n");
    return 255;
  }
987

988 989 990 991 992
  switch (crc_type) {
  case CRC24_A:
  case CRC24_B:
    crc_len=3;
    break;
993

994 995 996
  case CRC16:
    crc_len=2;
    break;
997

998 999 1000
  case CRC8:
    crc_len=1;
    break;
1001 1002 1003 1004 1005

  default:
    crc_len=3;
  }

1006 1007
#if defined(__x86_64__) || defined(__i386__)

1008
  // note: this makes valgrind freak
1009
  __m128i avg=_mm_set1_epi32(0);
1010 1011

  for (i=0; i<(3*(n>>4))+1; i++) {
1012 1013 1014 1015
    __m128i tmp=_mm_abs_epi16(_mm_unpackhi_epi16(((__m128i*)y)[i],((__m128i*)y)[i]));
    avg=_mm_add_epi32(_mm_cvtepi16_epi32(_mm_abs_epi16(((__m128i*)y)[i])),avg);
    avg=_mm_add_epi32(_mm_cvtepi16_epi32(tmp),avg);
  }
1016

1017
  int32_t round_avg=(_mm_extract_epi32(avg,0)+_mm_extract_epi32(avg,1)+_mm_extract_epi32(avg,2)+_mm_extract_epi32(avg,3))/(n*3);
1018

1019
  //printf("avg input turbo: %d sum %d taille bloc %d\n",round_avg,round_sum,n);
1020

1021 1022
  if (round_avg < 16 )
    for (i=0,j=0; i<(3*(n2>>4))+1; i++,j+=2)
1023
      ((__m128i *)y8)[i] = _mm_packs_epi16(((__m128i *)y)[j],((__m128i *)y)[j+1]);
1024 1025
  else if (round_avg < 32)
    for (i=0,j=0; i<(3*(n2>>4))+1; i++,j+=2)
1026 1027
      ((__m128i *)y8)[i] = _mm_packs_epi16(_mm_srai_epi16(((__m128i *)y)[j],1),_mm_srai_epi16(((__m128i *)y)[j+1],1));
  else if (round_avg < 64 )
1028
    for (i=0,j=0; i<(3*(n2>>4))+1; i++,j+=2)
1029
      ((__m128i *)y8)[i] = _mm_packs_epi16(_mm_srai_epi16(((__m128i *)y)[j],2),_mm_srai_epi16(((__m128i *)y)[j+1],2));
1030
  else if (round_avg < 128)
1031
    for (i=0,j=0; i<(3*(n2>>4))+1; i++,j+=2)
1032
      ((__m128i *)y8)[i] = _mm_packs_epi16(_mm_srai_epi16(((__m128i *)y)[j],3),_mm_srai_epi16(((__m128i *)y)[j+1],3));
1033 1034 1035
  else
    for (i=0,j=0; i<(3*(n2>>4))+1; i++,j+=2)
      ((__m128i *)y8)[i] = _mm_packs_epi16(_mm_srai_epi16(((__m128i *)y)[j],3),_mm_srai_epi16(((__m128i *)y)[j+1],4));
1036

1037
  yp128 = (__m128i*)y8;
1038

1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067
#elif defined(__arm__)

  int32x4_t avg=vdupq_n_s32(0);

  for (i=0; i<(3*(n>>4))+1; i++) {
    int16x8_t tmp=vabsq_s16(((int16x8_t*)y)[i]);
    avg = vqaddq_s32(avg,vaddl_s16(((int16x4_t*)&tmp)[0],((int16x4_t*)&tmp)[1]));
  }

  int32_t round_avg=(vgetq_lane_s32(avg,0)+vgetq_lane_s32(avg,1)+vgetq_lane_s32(avg,2)+vgetq_lane_s32(avg,3))/(n*3);

  //printf("avg input turbo: %d sum %d taille bloc %d\n",round_avg,round_sum,n);

  if (round_avg < 16 )
    for (i=0,j=0; i<(3*(n2>>3))+1; i++,j+=2)
      ((int8x8_t *)y8)[i] = vqmovn_s16(((int16x8_t *)y)[j]);
  else if (round_avg < 32)
    for (i=0,j=0; i<(3*(n2>>3))+1; i++,j+=2)
      ((int8x8_t *)y8)[i] = vqmovn_s16(vshrq_n_s16(((int16x8_t *)y)[j],1));
  else if (round_avg < 64 )
    for (i=0,j=0; i<(3*(n2>>3))+1; i++,j+=2)
      ((int8x8_t *)y8)[i] = vqmovn_s16(vshrq_n_s16(((int16x8_t *)y)[j],2));
  else
    for (i=0,j=0; i<(3*(n2>>3))+1; i++,j+=2)
      ((int8x8_t *)y8)[i] = vqmovn_s16(vshrq_n_s16(((int16x8_t *)y)[j],3));

  yp128 = (int8x16_t*)y8;

#endif
1068

1069
  s = systematic0;
1070 1071 1072 1073 1074 1075
  s1 = systematic1;
  s2 = systematic2;
  yp1 = yparity1;
  yp2 = yparity2;
  yp=y8;
#if 1
1076

1077
  for (i=0; i<16 ; i++ )
1078
    for (j=0; j<n2; j+=16) {
1079 1080 1081 1082
      int k=i+j;
      s[k]=*yp++;
      yp1[k]=*yp++;
      yp2[k]=*yp++;
1083 1084
    }

1085 1086
#endif
#if 0
1087 1088 1089 1090

  for (i=0; i<n2; i+=16) {
    pi2_p = &pi2tab8[iind][i];

1091
    j=pi2_p[0];
1092
#if defined(__x86_64__) || defined(__i386__)
1093 1094
    s[j]   = _mm_extract_epi8(yp128[0],0);
    yp1[j] = _mm_extract_epi8(yp128[0],1);
1095
    yp2[j] = _mm_extract_epi8(yp128[0],2);
1096

1097 1098

    j=pi2_p[1];
1099 1100
    s[j]   = _mm_extract_epi8(yp128[0],3);
    yp1[j] = _mm_extract_epi8(yp128[0],4);
1101
    yp2[j] = _mm_extract_epi8(yp128[0],5);
1102

1103 1104

    j=pi2_p[2];
1105 1106
    s[j]   = _mm_extract_epi8(yp128[0],6);
    yp1[j] = _mm_extract_epi8(yp128[0],7);
1107
    yp2[j] = _mm_extract_epi8(yp128[0],8);
1108

1109 1110

    j=pi2_p[3];
1111 1112
    s[j]   = _mm_extract_epi8(yp128[0],9);
    yp1[j] = _mm_extract_epi8(yp128[0],10);
1113
    yp2[j] = _mm_extract_epi8(yp128[0],11);
1114

1115 1116

    j=pi2_p[4];
1117 1118
    s[j]   = _mm_extract_epi8(yp128[0],12);
    yp1[j] = _mm_extract_epi8(yp128[0],13);
1119
    yp2[j] = _mm_extract_epi8(yp128[0],14);
1120

1121 1122

    j=pi2_p[5];
1123 1124
    s[j]   = _mm_extract_epi8(yp128[0],15);
    yp1[j] = _mm_extract_epi8(yp128[1],0);
1125
    yp2[j] = _mm_extract_epi8(yp128[1],1);
1126

1127 1128

    j=pi2_p[6];
1129 1130
    s[j]   = _mm_extract_epi8(yp128[1],2);
    yp1[j] = _mm_extract_epi8(yp128[1],3);
1131
    yp2[j] = _mm_extract_epi8(yp128[1],4);
1132

1133 1134

    j=pi2_p[7];
1135 1136
    s[j]   = _mm_extract_epi8(yp128[1],5);
    yp1[j] = _mm_extract_epi8(yp128[1],6);
1137
    yp2[j] = _mm_extract_epi8(yp128[1],7);
1138

1139 1140

    j=pi2_p[8];
1141 1142
    s[j]   = _mm_extract_epi8(yp128[1],8);
    yp1[j] = _mm_extract_epi8(yp128[1],9);
1143
    yp2[j] = _mm_extract_epi8(yp128[1],10);
1144

1145 1146

    j=pi2_p[9];
1147 1148
    s[j]   = _mm_extract_epi8(yp128[1],11);
    yp1[j] = _mm_extract_epi8(yp128[1],12);
1149
    yp2[j] = _mm_extract_epi8(yp128[1],13);
1150

1151 1152

    j=pi2_p[10];
1153 1154
    s[j]   = _mm_extract_epi8(yp128[1],14);
    yp1[j] = _mm_extract_epi8(yp128[1],15);
1155
    yp2[j] = _mm_extract_epi8(yp128[2],0);
1156

1157 1158

    j=pi2_p[11];
1159 1160
    s[j]   = _mm_extract_epi8(yp128[2],1);
    yp1[j] = _mm_extract_epi8(yp128[2],2);
1161
    yp2[j] = _mm_extract_epi8(yp128[2],3);
1162

1163 1164

    j=pi2_p[12];
1165 1166
    s[j]   = _mm_extract_epi8(yp128[2],4);
    yp1[j] = _mm_extract_epi8(yp128[2],5);
1167
    yp2[j] = _mm_extract_epi8(yp128[2],6);
1168

1169 1170

    j=pi2_p[13];
1171 1172
    s[j]   = _mm_extract_epi8(yp128[2],7);
    yp1[j] = _mm_extract_epi8(yp128[2],8);
1173
    yp2[j] = _mm_extract_epi8(yp128[2],9);
1174

1175 1176

    j=pi2_p[14];
1177 1178
    s[j]   = _mm_extract_epi8(yp128[2],10);
    yp1[j] = _mm_extract_epi8(yp128[2],11);
1179
    yp2[j] = _mm_extract_epi8(yp128[2],12);
1180

1181 1182

    j=pi2_p[15];
1183 1184
    s[j]   = _mm_extract_epi8(yp128[2],13);
    yp1[j] = _mm_extract_epi8(yp128[2],14);
1185 1186
    yp2[j] = _mm_extract_epi8(yp128[2],15);

1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283

#elif defined(__arm__)
    s[j]   = vgetq_lane_s8(yp128[0],0);
    yp1[j] = vgetq_lane_s8(yp128[0],1);
    yp2[j] = vgetq_lane_s8(yp128[0],2);


    j=pi2_p[1];
    s[j]   = vgetq_lane_s8(yp128[0],3);
    yp1[j] = vgetq_lane_s8(yp128[0],4);
    yp2[j] = vgetq_lane_s8(yp128[0],5);


    j=pi2_p[2];
    s[j]   = vgetq_lane_s8(yp128[0],6);
    yp1[j] = vgetq_lane_s8(yp128[0],7);
    yp2[j] = vgetq_lane_s8(yp128[0],8);


    j=pi2_p[3];
    s[j]   = vgetq_lane_s8(yp128[0],9);
    yp1[j] = vgetq_lane_s8(yp128[0],10);
    yp2[j] = vgetq_lane_s8(yp128[0],11);


    j=pi2_p[4];
    s[j]   = vgetq_lane_s8(yp128[0],12);
    yp1[j] = vgetq_lane_s8(yp128[0],13);
    yp2[j] = vgetq_lane_s8(yp128[0],14);


    j=pi2_p[5];
    s[j]   = vgetq_lane_s8(yp128[0],15);
    yp1[j] = vgetq_lane_s8(yp128[1],0);
    yp2[j] = vgetq_lane_s8(yp128[1],1);


    j=pi2_p[6];
    s[j]   = vgetq_lane_s8(yp128[1],2);
    yp1[j] = vgetq_lane_s8(yp128[1],3);
    yp2[j] = vgetq_lane_s8(yp128[1],4);


    j=pi2_p[7];
    s[j]   = vgetq_lane_s8(yp128[1],5);
    yp1[j] = vgetq_lane_s8(yp128[1],6);
    yp2[j] = vgetq_lane_s8(yp128[1],7);


    j=pi2_p[8];
    s[j]   = vgetq_lane_s8(yp128[1],8);
    yp1[j] = vgetq_lane_s8(yp128[1],9);
    yp2[j] = vgetq_lane_s8(yp128[1],10);


    j=pi2_p[9];
    s[j]   = vgetq_lane_s8(yp128[1],11);
    yp1[j] = vgetq_lane_s8(yp128[1],12);
    yp2[j] = vgetq_lane_s8(yp128[1],13);


    j=pi2_p[10];
    s[j]   = vgetq_lane_s8(yp128[1],14);
    yp1[j] = vgetq_lane_s8(yp128[1],15);
    yp2[j] = vgetq_lane_s8(yp128[2],0);


    j=pi2_p[11];
    s[j]   = vgetq_lane_s8(yp128[2],1);
    yp1[j] = vgetq_lane_s8(yp128[2],2);
    yp2[j] = vgetq_lane_s8(yp128[2],3);


    j=pi2_p[12];
    s[j]   = vgetq_lane_s8(yp128[2],4);
    yp1[j] = vgetq_lane_s8(yp128[2],5);
    yp2[j] = vgetq_lane_s8(yp128[2],6);


    j=pi2_p[13];
    s[j]   = vgetq_lane_s8(yp128[2],7);
    yp1[j] = vgetq_lane_s8(yp128[2],8);
    yp2[j] = vgetq_lane_s8(yp128[2],9);


    j=pi2_p[14];
    s[j]   = vgetq_lane_s8(yp128[2],10);
    yp1[j] = vgetq_lane_s8(yp128[2],11);
    yp2[j] = vgetq_lane_s8(yp128[2],12);


    j=pi2_p[15];
    s[j]   = vgetq_lane_s8(yp128[2],13);
    yp1[j] = vgetq_lane_s8(yp128[2],14);
    yp2[j] = vgetq_lane_s8(yp128[2],15);

#endif
1284
    yp128+=3;
1285 1286

  }
1287

1288
#endif
1289

1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305
  yp=(llr_t*)yp128;

  if (n2>n) {
    /*
    s[n]=0;s[n+1]=0;s[n+2]=0;s[n+3]=0;
    s[n+4]=0;s[n+5]=0;s[n+6]=0;s[n+7]=0;
    s1[n]=0;s1[n+1]=0;s1[n+2]=0;s1[n+3]=0;
    s1[n+4]=0;s1[n+5]=0;s1[n+6]=0;s1[n+7]=0;
    s2[n]=0;s2[n+1]=0;s2[n+2]=0;s2[n+3]=0;
    s2[n+4]=0;s2[n+5]=0;s2[n+6]=0;s2[n+7]=0;*/
    yp=(llr_t*)(y8+n);
  }

  //  printf("n=%d,n2=%d\n",n,n2);

  // Termination
1306 1307 1308 1309 1310 1311 1312
  for (i=n2; i<n2+3; i++) {
    s[i]= *yp;
    s1[i] = s[i] ;
    s2[i] = s[i];
    yp++;
    yp1[i] = *yp;
    yp++;
1313 1314 1315 1316 1317
#ifdef DEBUG_LOGMAP
    msg("Term 1 (%d): %d %d\n",i,s[i],yp1[i]);
#endif //DEBUG_LOGMAP
  }

1318 1319 1320 1321 1322 1323 1324
  for (i=n2+16; i<n2+19; i++) {
    s[i]= *yp;
    s1[i] = s[i] ;
    s2[i] = s[i];
    yp++;
    yp2[i-16] = *yp;
    yp++;
1325 1326 1327 1328 1329 1330 1331 1332
#ifdef DEBUG_LOGMAP
    msg("Term 2 (%d): %d %d\n",i-16,s[i],yp2[i-16]);
#endif //DEBUG_LOGMAP
  }

#ifdef DEBUG_LOGMAP
  msg("\n");
#endif //DEBUG_LOGMAP
1333

1334
  if (init_stats) stop_meas(init_stats);
1335 1336 1337 1338 1339 1340

  // do log_map from first parity bit

  log_map8(systematic0,yparity1,m11,m10,alpha,beta,ext,n2,0,F,offset8_flag,alpha_stats,beta_stats,gamma_stats,ext_stats);

  while (iteration_cnt++ < max_iterations) {
1341

1342
#ifdef DEBUG_LOGMAP
1343
    printf("\n*******************ITERATION %d (n %d, n2 %d), ext %p\n\n",iteration_cnt,n,n2,ext);
1344
#endif //DEBUG_LOGMAP
1345

1346
    if (intl1_stats) start_meas(intl1_stats);
1347
    pi4_p=pi4tab8[iind];
1348 1349

    for (i=0; i<(n2>>4); i++) { // steady-state portion
1350
#if defined(__x86_64__) || defined(__i386__)
1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],0);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],1);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],2);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],3);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],4);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],5);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],6);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],7);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],8);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],9);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],10);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],11);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],12);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],13);
      tmp=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],14);
      ((__m128i *)systematic2)[i]=_mm_insert_epi8(tmp,((llr_t*)ext)[*pi4_p++],15);
1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384
#elif defined(__arm__)
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,0);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,1);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,2);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,3);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,4);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,5);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,6);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,7);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,8);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,9);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,10);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,11);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,12);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,13);
      tmp=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,14);
      ((int8x16_t *)systematic2)[i]=vsetq_lane_s8(((llr_t*)ext)[*pi4_p++],tmp,15);
#endif
1385 1386
    }

1387
    if (intl1_stats) stop_meas(intl1_stats);
1388 1389

    // do log_map from second parity bit
1390 1391 1392 1393 1394 1395

    log_map8(systematic2,yparity2,m11,m10,alpha,beta,ext2,n2,1,F,offset8_flag,alpha_stats,beta_stats,gamma_stats,ext_stats);



    pi5_p=pi5tab8[iind];
1396
    uint16_t decoded_bytes_interl[6144/16] __attribute__((aligned(16)));
1397

1398
    if ((n2&0x7f) == 0) {  // n2 is a multiple of 128 bits
1399
      for (i=0; i<(n2>>4); i++) {
1400
#if defined(__x86_64__) || defined(__i386__)
1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],0);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],1);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],2);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],3);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],4);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],5);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],6);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],7);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],8);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],9);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],10);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],11);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],12);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],13);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],14);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],15);
        decoded_bytes_interl[i]=(uint16_t) _mm_movemask_epi8(_mm_cmpgt_epi8(tmp,zeros));
        ((__m128i *)systematic1)[i] = _mm_adds_epi8(_mm_subs_epi8(tmp,((__m128i*)ext)[i]),((__m128i *)systematic0)[i]);
1419 1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440
#elif defined(__arm__)
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,0);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,1);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,2);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,3);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,4);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,5);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,6);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,7);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,8);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,9);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,10);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,11);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,12);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,13);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,14);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,15);
	uint64x2_t Mask= vpaddlq_u32(vpaddlq_u16(vpaddlq_u8(vandq_u8(vcgtq_s8(tmp,zeros), Powers))));
	vst1q_lane_u8(&((uint8_t*)&decoded_bytes[i])[0], (uint8x16_t)Mask, 0);
	vst1q_lane_u8(&((uint8_t*)&decoded_bytes[i])[1], (uint8x16_t)Mask, 8);
	((int8x16_t *)systematic1)[i] = vqaddq_s8(vqsubq_s8(tmp,((int8x16_t*)ext)[i]),((int8x16_t *)systematic0)[i]);
#endif
1441
      }
1442

1443 1444
    } else {
      for (i=0; i<(n2>>4); i++) {
1445
#if defined(__x86_64__) || defined(__i386__)
1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],0);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],1);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],2);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],3);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],4);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],5);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],6);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],7);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],8);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],9);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],10);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],11);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],12);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],13);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],14);
        tmp=_mm_insert_epi8(tmp,ext2[*pi5_p++],15);
        tmp128[i] = _mm_adds_epi8(((__m128i *)ext2)[i],((__m128i *)systematic2)[i]);

        ((__m128i *)systematic1)[i] = _mm_adds_epi8(_mm_subs_epi8(tmp,((__m128i*)ext)[i]),((__m128i *)systematic0)[i]);
1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487
#elif defined(__arm__)
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,0);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,1);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,2);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,3);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,4);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,5);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,6);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,7);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,8);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,9);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,10);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,11);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,12);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,13);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,14);
        tmp=vsetq_lane_s8(ext2[*pi5_p++],tmp,15);
        tmp128[i] = vqaddq_s8(((int8x16_t *)ext2)[i],((int8x16_t *)systematic2)[i]);

        ((int8x16_t *)systematic1)[i] = vqaddq_s8(vqsubq_s8(tmp,((int8x16_t*)ext)[i]),((int8x16_t *)systematic0)[i]);

#endif 
     }