src/f32-gemm/sse-dup.c.in - platform/external/XNNPACK - Gitiles

 // Copyright 2019 Google LLC
 //
 // This source code is licensed under the BSD-style license found in the
 // LICENSE file in the root directory of this source tree.

 $assert NR % 4 == 0
 $ABC = "0123456789ABCDEFGHIJKLMN"
 #include <assert.h>

 #include <xmmintrin.h>

 #include <xnnpack/gemm.h>


 void xnn_f32_gemm${"inc" if INC else ""}_ukernel_${MR}x${NR}__sse_dup(
     size_t mr,
     size_t nc,
     size_t kc,
     const float*restrict a,
     size_t a_stride,
     const float*restrict w,
     float*restrict c,
     size_t cm_stride,
     size_t cn_stride,
     $if INC:
       const float*restrict acc,
     const union xnn_f32_output_params params[restrict static 1])
 {
   assert(mr != 0);
   assert(mr <= ${MR});
   assert(nc != 0);
   assert(kc != 0);
   assert(kc % sizeof(float) == 0);
   assert(a != NULL);
   assert(w != NULL);
   assert(c != NULL);
   $if INC:
     assert(acc != NULL);

   const float* a0 = a;
   float* c0 = c;
   $for M in range(1, MR):
     const float* a${M} = (const float*) ((uintptr_t) a${M-1} + a_stride);
     float* c${M} = (float*) ((uintptr_t) c${M-1} + cm_stride);
     $if M % 2 == 0:
       if XNN_UNPREDICTABLE(mr <= ${M}) {
         a${M} = a${M-1};
         c${M} = c${M-1};
       }
     $elif M + 1 == MR:
       if XNN_UNPREDICTABLE(mr != ${M+1}) {
         a${M} = a${M-1};
         c${M} = c${M-1};
       }
     $else:
       if XNN_UNPREDICTABLE(mr < ${M+1}) {
         a${M} = a${M-1};
         c${M} = c${M-1};
       }

   do {
     $if INC:
       $for M in range(MR):
         $for N in range(0, NR, 4):
           __m128 vacc${M}x${ABC[N:N+4]} = _mm_load_ps(acc + ${M*NR+N});
       acc += ${MR*NR};
     $else:
       $for N in range(0, NR, 4):
         __m128 vacc0x${ABC[N:N+4]} = _mm_load_ps(w + ${N});
       $for M in range(1, MR):
         $for N in range(0, NR, 4):
           __m128 vacc${M}x${ABC[N:N+4]} = vacc0x${ABC[N:N+4]};
       w += ${NR};

     size_t k = kc;
     while (k >= 4 * sizeof(float)) {
       $for M in range(MR):
         const __m128 va${M} = _mm_loadu_ps(a${M});
         a${M} += 4;

       $for L in range(4):
         $LLLL = str(L) * 4

         $for M in range(MR):
           const __m128 va${M}c${LLLL} = _mm_shuffle_ps(va${M}, va${M}, _MM_SHUFFLE(${L}, ${L}, ${L}, ${L}));

         $for N in range(0, NR, 4):
           const __m128 vb${ABC[N:N+4]}c${L} = _mm_load_ps(w + ${L * NR + N});

         $for N in range(0, NR, 4):
           $for M in range(MR):
             vacc${M}x${ABC[N:N+4]} = _mm_add_ps(vacc${M}x${ABC[N:N+4]}, _mm_mul_ps(va${M}c${LLLL}, vb${ABC[N:N+4]}c${L}));

       w += ${4 * NR};
       k -= 4 * sizeof(float);
     }
     if XNN_UNLIKELY(k != 0) {
       do {
         $for M in range(MR):
           const __m128 va${M} = _mm_load1_ps(a${M});
           a${M} += 1;

         const __m128 vb${ABC[0:4]} = _mm_load_ps(w);
         $for N in range(4, NR, 4):
           const __m128 vb${ABC[N:N+4]} = _mm_load_ps(w + ${N});
         w += ${NR};

         $for N in range(0, NR, 4):
           $for M in range(MR):
             vacc${M}x${ABC[N:N+4]} = _mm_add_ps(vacc${M}x${ABC[N:N+4]}, _mm_mul_ps(va${M}, vb${ABC[N:N+4]}));

         k -= sizeof(float);
       } while (k != 0);
     }

     const __m128 vmax = _mm_load_ps(params->sse.max);
     $for N in range(0, NR, 4):
       $for M in range(MR):
         vacc${M}x${ABC[N:N+4]} = _mm_min_ps(vacc${M}x${ABC[N:N+4]}, vmax);

     const __m128 vmin = _mm_load_ps(params->sse.min);
     $for N in range(0, NR, 4):
       $for M in range(MR):
         vacc${M}x${ABC[N:N+4]} = _mm_max_ps(vacc${M}x${ABC[N:N+4]}, vmin);

     if XNN_LIKELY(nc >= ${NR}) {
       $for M in reversed(range(MR)):
         _mm_storeu_ps(c${M}, vacc${M}x${ABC[0:4]});
         $for N in range(4, NR, 4):
           _mm_storeu_ps(c${M} + ${N}, vacc${M}x${ABC[N:N+4]});
         c${M} = (float*) ((uintptr_t) c${M} + cn_stride);

       $for M in reversed(range(MR)):
         a${M} = (const float*) ((uintptr_t) a${M} - kc);

       nc -= ${NR};
     } else {
       $for LOG2N in reversed(range(NR.bit_length())):
         $if NR != 1 << LOG2N:
           if (nc & ${1 << LOG2N}) {
             $if LOG2N >= 2:
               $for M in reversed(range(MR)):
                 _mm_storeu_ps(c${M}, vacc${M}x${ABC[0:4]});
                 $for N in range(4, 1 << LOG2N, 4):
                   _mm_storeu_ps(c${M} + ${N}, vacc${M}x${ABC[N:N+4]});

               $for M in reversed(range(MR)):
                 $for N in range(0, 1 << (LOG2N - 1), 4):
                   vacc${M}x${ABC[N:N+4]} = vacc${M}x${ABC[N + (1 << LOG2N):N + (1 << LOG2N)+4]};

               $for M in reversed(range(MR)):
                 c${M} += ${1 << LOG2N};
             $elif LOG2N == 1:
               $for M in reversed(range(MR)):
                 _mm_storel_pi((__m64*) c${M}, vacc${M}x${ABC[0:4]});

               $for M in reversed(range(MR)):
                 vacc${M}x${ABC[0:4]} = _mm_movehl_ps(vacc${M}x${ABC[0:4]}, vacc${M}x${ABC[0:4]});

               $for M in reversed(range(MR)):
                 c${M} += 2;
             $elif LOG2N == 0:
               $for M in reversed(range(MR)):
                 _mm_store_ss(c${M}, vacc${M}x${ABC[0:4]});
           }

       nc = 0;
     }
   } while (nc != 0);
 }
	// Copyright 2019 Google LLC
	//
	// This source code is licensed under the BSD-style license found in the
	// LICENSE file in the root directory of this source tree.

	$assert NR % 4 == 0
	$ABC = "0123456789ABCDEFGHIJKLMN"
	#include <assert.h>

	#include <xmmintrin.h>

	#include <xnnpack/gemm.h>


	void xnn_f32_gemm${"inc" if INC else ""}_ukernel_${MR}x${NR}__sse_dup(
	size_t mr,
	size_t nc,
	size_t kc,
	const float*restrict a,
	size_t a_stride,
	const float*restrict w,
	float*restrict c,
	size_t cm_stride,
	size_t cn_stride,
	$if INC:
	const float*restrict acc,
	const union xnn_f32_output_params params[restrict static 1])
	{
	assert(mr != 0);
	assert(mr <= ${MR});
	assert(nc != 0);
	assert(kc != 0);
	assert(kc % sizeof(float) == 0);
	assert(a != NULL);
	assert(w != NULL);
	assert(c != NULL);
	$if INC:
	assert(acc != NULL);

	const float* a0 = a;
	float* c0 = c;
	$for M in range(1, MR):
	const float* a${M} = (const float*) ((uintptr_t) a${M-1} + a_stride);
	float* c${M} = (float*) ((uintptr_t) c${M-1} + cm_stride);
	$if M % 2 == 0:
	if XNN_UNPREDICTABLE(mr <= ${M}) {
	a${M} = a${M-1};
	c${M} = c${M-1};
	}
	$elif M + 1 == MR:
	if XNN_UNPREDICTABLE(mr != ${M+1}) {
	a${M} = a${M-1};
	c${M} = c${M-1};
	}
	$else:
	if XNN_UNPREDICTABLE(mr < ${M+1}) {
	a${M} = a${M-1};
	c${M} = c${M-1};
	}

	do {
	$if INC:
	$for M in range(MR):
	$for N in range(0, NR, 4):
	__m128 vacc${M}x${ABC[N:N+4]} = _mm_load_ps(acc + ${M*NR+N});
	acc += ${MR*NR};
	$else:
	$for N in range(0, NR, 4):
	__m128 vacc0x${ABC[N:N+4]} = _mm_load_ps(w + ${N});
	$for M in range(1, MR):
	$for N in range(0, NR, 4):
	__m128 vacc${M}x${ABC[N:N+4]} = vacc0x${ABC[N:N+4]};
	w += ${NR};

	size_t k = kc;
	while (k >= 4 * sizeof(float)) {
	$for M in range(MR):
	const __m128 va${M} = _mm_loadu_ps(a${M});
	a${M} += 4;

	$for L in range(4):
	$LLLL = str(L) * 4

	$for M in range(MR):
	const __m128 va${M}c${LLLL} = _mm_shuffle_ps(va${M}, va${M}, _MM_SHUFFLE(${L}, ${L}, ${L}, ${L}));

	$for N in range(0, NR, 4):
	const __m128 vb${ABC[N:N+4]}c${L} = _mm_load_ps(w + ${L * NR + N});

	$for N in range(0, NR, 4):
	$for M in range(MR):
	vacc${M}x${ABC[N:N+4]} = _mm_add_ps(vacc${M}x${ABC[N:N+4]}, _mm_mul_ps(va${M}c${LLLL}, vb${ABC[N:N+4]}c${L}));

	w += ${4 * NR};
	k -= 4 * sizeof(float);
	}
	if XNN_UNLIKELY(k != 0) {
	do {
	$for M in range(MR):
	const __m128 va${M} = _mm_load1_ps(a${M});
	a${M} += 1;

	const __m128 vb${ABC[0:4]} = _mm_load_ps(w);
	$for N in range(4, NR, 4):
	const __m128 vb${ABC[N:N+4]} = _mm_load_ps(w + ${N});
	w += ${NR};

	$for N in range(0, NR, 4):
	$for M in range(MR):
	vacc${M}x${ABC[N:N+4]} = _mm_add_ps(vacc${M}x${ABC[N:N+4]}, _mm_mul_ps(va${M}, vb${ABC[N:N+4]}));

	k -= sizeof(float);
	} while (k != 0);
	}

	const __m128 vmax = _mm_load_ps(params->sse.max);
	$for N in range(0, NR, 4):
	$for M in range(MR):
	vacc${M}x${ABC[N:N+4]} = _mm_min_ps(vacc${M}x${ABC[N:N+4]}, vmax);

	const __m128 vmin = _mm_load_ps(params->sse.min);
	$for N in range(0, NR, 4):
	$for M in range(MR):
	vacc${M}x${ABC[N:N+4]} = _mm_max_ps(vacc${M}x${ABC[N:N+4]}, vmin);

	if XNN_LIKELY(nc >= ${NR}) {
	$for M in reversed(range(MR)):
	_mm_storeu_ps(c${M}, vacc${M}x${ABC[0:4]});
	$for N in range(4, NR, 4):
	_mm_storeu_ps(c${M} + ${N}, vacc${M}x${ABC[N:N+4]});
	c${M} = (float*) ((uintptr_t) c${M} + cn_stride);

	$for M in reversed(range(MR)):
	a${M} = (const float*) ((uintptr_t) a${M} - kc);

	nc -= ${NR};
	} else {
	$for LOG2N in reversed(range(NR.bit_length())):
	$if NR != 1 << LOG2N:
	if (nc & ${1 << LOG2N}) {
	$if LOG2N >= 2:
	$for M in reversed(range(MR)):
	_mm_storeu_ps(c${M}, vacc${M}x${ABC[0:4]});
	$for N in range(4, 1 << LOG2N, 4):
	_mm_storeu_ps(c${M} + ${N}, vacc${M}x${ABC[N:N+4]});

	$for M in reversed(range(MR)):
	$for N in range(0, 1 << (LOG2N - 1), 4):
	vacc${M}x${ABC[N:N+4]} = vacc${M}x${ABC[N + (1 << LOG2N):N + (1 << LOG2N)+4]};

	$for M in reversed(range(MR)):
	c${M} += ${1 << LOG2N};
	$elif LOG2N == 1:
	$for M in reversed(range(MR)):
	_mm_storel_pi((__m64*) c${M}, vacc${M}x${ABC[0:4]});

	$for M in reversed(range(MR)):
	vacc${M}x${ABC[0:4]} = _mm_movehl_ps(vacc${M}x${ABC[0:4]}, vacc${M}x${ABC[0:4]});

	$for M in reversed(range(MR)):
	c${M} += 2;
	$elif LOG2N == 0:
	$for M in reversed(range(MR)):
	_mm_store_ss(c${M}, vacc${M}x${ABC[0:4]});
	}

	nc = 0;
	}
	} while (nc != 0);
	}