// Auto-generated file. Do not edit! // Template: src/qs8-gemm/c4-armsimd32.c.in // Generator: tools/xngen // // Copyright 2022 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. #include #include #include #include #include #include void xnn_qu8_gemm_minmax_fp32_ukernel_2x1c4__armsimd32( size_t mr, size_t nc, size_t kc, const uint8_t* restrict a, size_t a_stride, const void* restrict w, uint8_t* restrict c, size_t cm_stride, size_t cn_stride, const union xnn_qu8_conv_minmax_params params[restrict XNN_MIN_ELEMENTS(1)]) { assert(mr != 0); assert(mr <= 2); assert(nc != 0); assert(kc != 0); kc = round_up_po2(kc, 4 * sizeof(int8_t)); const uint8_t* a0 = a; uint8_t* c0 = c; const uint8_t* a1 = (const uint8_t*) ((uintptr_t) a0 + a_stride); uint8_t* c1 = (uint8_t*) ((uintptr_t) c0 + cm_stride); if XNN_UNPREDICTABLE(mr != 2) { a1 = a0; c1 = c0; } const int16x2_t vb_minus_zero_point = (int16x2_t) params->fp32_armsimd32.minus_kernel_zero_point; const float vscale = params->fp32_armsimd32.scale; const float vmagic_bias = params->fp32_armsimd32.magic_bias; do { int32_t vacc0x0 = ((const int32_t*) w)[0]; int32_t vacc1x0 = vacc0x0; w = (const void*) ((const int32_t*) w + 1); size_t k = kc; do { const int8x4_t va0 = (int8x4_t) unaligned_load_s32(a0); a0 += 4; const int8x4_t va1 = (int8x4_t) unaligned_load_s32(a1); a1 += 4; const int16x2_t va0c02 = __uxtb16(va0); const int16x2_t va0c13 = __uxtb16(__ror(va0, 8)); const int16x2_t va1c02 = __uxtb16(va1); const int16x2_t va1c13 = __uxtb16(__ror(va1, 8)); const int8x4_t vb0 = *((const int8x4_t*) w); w = (const int8_t*) w + 4; const int16x2_t vb0c02 = __uxtab16(vb_minus_zero_point, vb0); vacc0x0 = __smlad(va0c02, vb0c02, vacc0x0); vacc1x0 = __smlad(va1c02, vb0c02, vacc1x0); const int16x2_t vb0c13 = __uxtab16(vb_minus_zero_point, __ror(vb0, 8)); vacc0x0 = __smlad(va0c13, vb0c13, vacc0x0); vacc1x0 = __smlad(va1c13, vb0c13, vacc1x0); k -= 4 * sizeof(uint8_t); } while (k != 0); float vfpacc0x0 = (float) vacc0x0; float vfpacc1x0 = (float) vacc1x0; vfpacc0x0 *= vscale; vfpacc1x0 *= vscale; vfpacc0x0 += vmagic_bias; vfpacc1x0 += vmagic_bias; int32_t vout0x0 = (int32_t) float_as_uint32(vfpacc0x0); int32_t vout1x0 = (int32_t) float_as_uint32(vfpacc1x0); const int32_t vmagic_bias_less_zero_point = params->fp32_armsimd32.magic_bias_less_zero_point; vout0x0 = __qsub(vout0x0, vmagic_bias_less_zero_point); vout1x0 = __qsub(vout1x0, vmagic_bias_less_zero_point); vout0x0 = __usat(vout0x0, 8); vout1x0 = __usat(vout1x0, 8); const uint32_t vout0 = (uint32_t) vout0x0; const uint32_t vout1 = (uint32_t) vout1x0; uint32_t vout = (uint32_t) (uint16_t) vout0 | (vout1 << 16); const int8x4_t voutput_min = (int8x4_t) params->fp32_armsimd32.output_min; __usub8((int8x4_t) vout, voutput_min); vout = (uint32_t) __sel((uint8x4_t) vout, (uint8x4_t) voutput_min); const int8x4_t voutput_max = (int8x4_t) params->fp32_armsimd32.output_max; __usub8((int8x4_t) vout, voutput_max); vout = (uint32_t) __sel((uint8x4_t) voutput_max, (uint8x4_t) vout); *c0 = (uint8_t) vout; vout >>= 16; *c1 = (uint8_t) vout; a0 = (const uint8_t*) ((uintptr_t) a0 - kc); a1 = (const uint8_t*) ((uintptr_t) a1 - kc); c0 = (uint8_t*) ((uintptr_t) c0 + cn_stride); c1 = (uint8_t*) ((uintptr_t) c1 + cn_stride); nc -= 1; } while (nc != 0); }