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OpenBLAS/kernel/riscv64/asum_vector.c

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  1. /***************************************************************************

  2. Copyright (c) 2020, The OpenBLAS Project

  3. All rights reserved.

  4. Redistribution and use in source and binary forms, with or without

  5. modification, are permitted provided that the following conditions are

  6. met:

  7. 1. Redistributions of source code must retain the above copyright

  8. notice, this list of conditions and the following disclaimer.

  9. 2. Redistributions in binary form must reproduce the above copyright

  10. notice, this list of conditions and the following disclaimer in

  11. the documentation and/or other materials provided with the

  12. distribution.

  13. 3. Neither the name of the OpenBLAS project nor the names of

  14. its contributors may be used to endorse or promote products

  15. derived from this software without specific prior written permission.

  16. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"

  17. AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

  18. IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

  19. ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE

  20. LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

  21. DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR

  22. SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER

  23. CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,

  24. OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE

  25. USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

  26. *****************************************************************************/

  27. 

  28. #include "common.h"

  29. #include <math.h>

  30. 

  31. #if !defined(DOUBLE)

  32. #define RVV_EFLOAT RVV_E32

  33. #define RVV_M RVV_M8

  34. #define FLOAT_V_T float32xm8_t

  35. #define VLEV_FLOAT vlev_float32xm8

  36. #define VLSEV_FLOAT vlsev_float32xm8

  37. #define VFREDSUMVS_FLOAT vfredsumvs_float32xm8

  38. #define MASK_T e32xm8_t

  39. #define VMFLTVF_FLOAT vmfltvf_e32xm8_float32xm8

  40. #define VFMVVF_FLOAT vfmvvf_float32xm8

  41. #define VFRSUBVF_MASK_FLOAT vfrsubvf_mask_float32xm8

  42. #define VFADDVV_FLOAT vfaddvv_float32xm8

  43. #else

  44. #define RVV_EFLOAT RVV_E64

  45. #define RVV_M RVV_M8

  46. #define FLOAT_V_T float64xm8_t

  47. #define VLEV_FLOAT vlev_float64xm8

  48. #define VLSEV_FLOAT vlsev_float64xm8

  49. #define VFREDSUMVS_FLOAT vfredsumvs_float64xm8

  50. #define MASK_T e64xm8_t

  51. #define VMFLTVF_FLOAT vmfltvf_e64xm8_float64xm8

  52. #define VFMVVF_FLOAT vfmvvf_float64xm8

  53. #define VFRSUBVF_MASK_FLOAT vfrsubvf_mask_float64xm8

  54. #define VFADDVV_FLOAT vfaddvv_float64xm8

  55. #endif

  56. FLOAT CNAME(BLASLONG n, FLOAT *x, BLASLONG inc_x)

  57. {

  58. 	BLASLONG i=0, j=0;

  59. 	BLASLONG ix=0;

  60. 	FLOAT asumf=0.0;

  61. 	if (n <= 0 || inc_x <= 0) return(asumf);

  62.         unsigned int gvl = 0;

  63.         FLOAT_V_T v0, v1, v_zero,v_sum;

  64. 

  65.         MASK_T mask0, mask1;

  66.         if(inc_x == 1){

  67.                 gvl = vsetvli(n, RVV_EFLOAT, RVV_M);

  68.                 v_zero = VFMVVF_FLOAT(0, gvl);

  69.                 if(gvl <= n/2){

  70.                         v_sum = VFMVVF_FLOAT(0, gvl);

  71.                         for(i=0,j=0; i<n/(gvl*2); i++){

  72.                                 v0 = VLEV_FLOAT(&x[j], gvl);

  73.                                 mask0 = VMFLTVF_FLOAT(v0, 0, gvl);

  74.                                 v0 = VFRSUBVF_MASK_FLOAT(v0, v0, 0, mask0, gvl);

  75.                                 v_sum = VFADDVV_FLOAT(v_sum, v0, gvl);

  76. 

  77.                                 v1 = VLEV_FLOAT(&x[j+gvl], gvl);

  78.                                 mask1 = VMFLTVF_FLOAT(v1, 0, gvl);

  79.                                 v1 = VFRSUBVF_MASK_FLOAT(v1, v1, 0, mask1, gvl);

  80.                                 v_sum = VFADDVV_FLOAT(v_sum, v1, gvl);

  81.                                 j += gvl * 2;

  82.                         }

  83.                         v0 = VFREDSUMVS_FLOAT(v_sum, v_zero, gvl);

  84.                         asumf += v0[0];

  85.                 }

  86.                 for(;j<n;){

  87.                         gvl = vsetvli(n-j, RVV_EFLOAT, RVV_M);

  88.                         v0 = VLEV_FLOAT(&x[j], gvl);

  89.                         mask0 = VMFLTVF_FLOAT(v0, 0, gvl);

  90.                         v0 = VFRSUBVF_MASK_FLOAT(v0, v0, 0, mask0, gvl);

  91.                         v0 = VFREDSUMVS_FLOAT(v0, v_zero, gvl);

  92.                         asumf += v0[0];

  93.                         j += gvl;

  94.                 }

  95.         }else{

  96.                 gvl = vsetvli(n, RVV_EFLOAT, RVV_M);

  97.                 unsigned int stride_x = inc_x * sizeof(FLOAT);

  98.                 v_zero = VFMVVF_FLOAT(0, gvl);

  99.                 if(gvl <= n/2){

  100.                         v_sum = VFMVVF_FLOAT(0, gvl);

  101.                         BLASLONG inc_xv = inc_x * gvl;

  102.                         for(i=0,j=0; i<n/(gvl*2); i++){

  103.                                 v0 = VLSEV_FLOAT(&x[ix], stride_x, gvl);

  104.                                 mask0 = VMFLTVF_FLOAT(v0, 0, gvl);

  105.                                 v0 = VFRSUBVF_MASK_FLOAT(v0, v0, 0, mask0, gvl);

  106.                                 v_sum = VFADDVV_FLOAT(v_sum, v0, gvl);

  107. 

  108.                                 v1 = VLSEV_FLOAT(&x[ix+inc_xv], stride_x, gvl);

  109.                                 mask1 = VMFLTVF_FLOAT(v1, 0, gvl);

  110.                                 v1 = VFRSUBVF_MASK_FLOAT(v1, v1, 0, mask1, gvl);

  111.                                 v_sum = VFADDVV_FLOAT(v_sum, v1, gvl);

  112.                                 j += gvl * 2;

  113.                                 inc_xv += inc_xv * 2;

  114.                         }

  115.                         v0 = VFREDSUMVS_FLOAT(v_sum, v_zero, gvl);

  116.                         asumf += v0[0];

  117.                 }

  118.                 for(;j<n;){

  119.                         gvl = vsetvli(n-j, RVV_EFLOAT, RVV_M);

  120.                         v0 = VLSEV_FLOAT(&x[j*inc_x], stride_x, gvl);

  121.                         mask0 = VMFLTVF_FLOAT(v0, 0, gvl);

  122.                         v0 = VFRSUBVF_MASK_FLOAT(v0, v0, 0, mask0, gvl);

  123.                         v0 = VFREDSUMVS_FLOAT(v0, v_zero, gvl);

  124.                         asumf += v0[0];

  125.                         j += gvl;

  126.                 }

  127.         }

  128. 	return(asumf);

  129. }

  130.