Ejemplo n.º 1
0
void test_vzips16 (void)
{
    int16x4x2_t out_int16x4x2_t;
    int16x4_t arg0_int16x4_t;
    int16x4_t arg1_int16x4_t;

    out_int16x4x2_t = vzip_s16 (arg0_int16x4_t, arg1_int16x4_t);
}
Ejemplo n.º 2
0
int16x4x2_t test_vzip_s16(int16x4_t a, int16x4_t b) {
  // CHECK-LABEL: test_vzip_s16
  return vzip_s16(a, b);
  // CHECK: zip1 {{v[0-9]+}}.4h, {{v[0-9]+}}.4h
  // CHECK: zip2 {{v[0-9]+}}.4h, {{v[0-9]+}}.4h
}
Ejemplo n.º 3
0
int mult_cpx_conj_vector(int16_t *x1,
                         int16_t *x2,
                         int16_t *y,
                         uint32_t N,
                         int output_shift,
			 int madd)
{
  // Multiply elementwise the complex conjugate of x1 with x2.
  // x1       - input 1    in the format  |Re0 Im0 Re1 Im1|,......,|Re(N-2)  Im(N-2) Re(N-1) Im(N-1)|
  //            We assume x1 with a dinamic of 15 bit maximum
  //
  // x2       - input 2    in the format  |Re0 Im0 Re1 Im1|,......,|Re(N-2)  Im(N-2) Re(N-1) Im(N-1)|
  //            We assume x2 with a dinamic of 14 bit maximum
  ///
  // y        - output     in the format  |Re0 Im0 Re1 Im1|,......,|Re(N-2)  Im(N-2) Re(N-1) Im(N-1)|
  //
  // N        - the size f the vectors (this function does N cpx mpy. WARNING: N>=4;
  //
  // output_shift  - shift to be applied to generate output
  //
  // madd - add the output to y

  uint32_t i;                 // loop counter

  simd_q15_t *x1_128;
  simd_q15_t *x2_128;
  simd_q15_t *y_128;
#if defined(__x86_64__) || defined(__i386__)
  simd_q15_t tmp_re,tmp_im;
  simd_q15_t tmpy0,tmpy1;

#elif defined(__arm__)
  int32x4_t tmp_re,tmp_im;
  int32x4_t tmp_re1,tmp_im1;
  int16x4x2_t tmpy;
  int32x4_t shift = vdupq_n_s32(-output_shift);
#endif

  x1_128 = (simd_q15_t *)&x1[0];
  x2_128 = (simd_q15_t *)&x2[0];
  y_128  = (simd_q15_t *)&y[0];


  // we compute 4 cpx multiply for each loop
  for(i=0; i<(N>>2); i++) {
#if defined(__x86_64__) || defined(__i386__)
    tmp_re = _mm_madd_epi16(*x1_128,*x2_128);
    tmp_im = _mm_shufflelo_epi16(*x1_128,_MM_SHUFFLE(2,3,0,1));
    tmp_im = _mm_shufflehi_epi16(tmp_im,_MM_SHUFFLE(2,3,0,1));
    tmp_im = _mm_sign_epi16(tmp_im,*(__m128i*)&conjug[0]);
    tmp_im = _mm_madd_epi16(tmp_im,*x2_128);
    tmp_re = _mm_srai_epi32(tmp_re,output_shift);
    tmp_im = _mm_srai_epi32(tmp_im,output_shift);
    tmpy0  = _mm_unpacklo_epi32(tmp_re,tmp_im);
    tmpy1  = _mm_unpackhi_epi32(tmp_re,tmp_im);
    if (madd==0)
      *y_128 = _mm_packs_epi32(tmpy0,tmpy1);
    else
      *y_128 += _mm_packs_epi32(tmpy0,tmpy1);

#elif defined(__arm__)

    tmp_re  = vmull_s16(((simdshort_q15_t *)x1_128)[0], ((simdshort_q15_t*)x2_128)[0]);
    //tmp_re = [Re(x1[0])Re(x2[0]) Im(x1[0])Im(x2[0]) Re(x1[1])Re(x2[1]) Im(x1[1])Im(x2[1])]
    tmp_re1 = vmull_s16(((simdshort_q15_t *)x1_128)[1], ((simdshort_q15_t*)x2_128)[1]);
    //tmp_re1 = [Re(x1[1])Re(x2[1]) Im(x1[1])Im(x2[1]) Re(x1[1])Re(x2[2]) Im(x1[1])Im(x2[2])]
    tmp_re  = vcombine_s32(vpadd_s32(vget_low_s32(tmp_re),vget_high_s32(tmp_re)),
                           vpadd_s32(vget_low_s32(tmp_re1),vget_high_s32(tmp_re1)));
    //tmp_re = [Re(ch[0])Re(rx[0])+Im(ch[0])Im(ch[0]) Re(ch[1])Re(rx[1])+Im(ch[1])Im(ch[1]) Re(ch[2])Re(rx[2])+Im(ch[2]) Im(ch[2]) Re(ch[3])Re(rx[3])+Im(ch[3])Im(ch[3])]

    tmp_im  = vmull_s16(vrev32_s16(vmul_s16(((simdshort_q15_t*)x2_128)[0],*(simdshort_q15_t*)conjug)), ((simdshort_q15_t*)x1_128)[0]);
    //tmp_im = [-Im(ch[0])Re(rx[0]) Re(ch[0])Im(rx[0]) -Im(ch[1])Re(rx[1]) Re(ch[1])Im(rx[1])]
    tmp_im1 = vmull_s16(vrev32_s16(vmul_s16(((simdshort_q15_t*)x2_128)[1],*(simdshort_q15_t*)conjug)), ((simdshort_q15_t*)x1_128)[1]);
    //tmp_im1 = [-Im(ch[2])Re(rx[2]) Re(ch[2])Im(rx[2]) -Im(ch[3])Re(rx[3]) Re(ch[3])Im(rx[3])]
    tmp_im  = vcombine_s32(vpadd_s32(vget_low_s32(tmp_im),vget_high_s32(tmp_im)),
                           vpadd_s32(vget_low_s32(tmp_im1),vget_high_s32(tmp_im1)));
    //tmp_im = [-Im(ch[0])Re(rx[0])+Re(ch[0])Im(rx[0]) -Im(ch[1])Re(rx[1])+Re(ch[1])Im(rx[1]) -Im(ch[2])Re(rx[2])+Re(ch[2])Im(rx[2]) -Im(ch[3])Re(rx[3])+Re(ch[3])Im(rx[3])]

    tmp_re = vqshlq_s32(tmp_re,shift);
    tmp_im = vqshlq_s32(tmp_im,shift);
    tmpy   = vzip_s16(vmovn_s32(tmp_re),vmovn_s32(tmp_im));
    if (madd==0)
      *y_128 = vcombine_s16(tmpy.val[0],tmpy.val[1]);
    else
      *y_128 += vcombine_s16(tmpy.val[0],tmpy.val[1]);
#endif
    x1_128++;
    x2_128++;
    y_128++;
  }


  _mm_empty();
  _m_empty();

  return(0);
}