// Auto-generated file. Do not edit! // Template: src/qs8-vcvt/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_qs8_vcvt_ukernel__armsimd32_x8( size_t n, const int8_t* x, int8_t* y, const union xnn_qs8_cvt_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_OOB_READS { const int16x2_t vminus_input_zero_point = (int16x2_t) params->armsimd32.minus_input_zero_point; const int32_t vbias = params->armsimd32.bias; const int32_t vmultiplier = params->armsimd32.multiplier; for (; n >= 8 * sizeof(int8_t); n -= 8 * sizeof(int8_t)) { const int8x4_t vx0123 = (int8x4_t) unaligned_indexed_load_u32(x, 0); const int8x4_t vx4567 = (int8x4_t) unaligned_indexed_load_u32(x, 1); x += 8; const int16x2_t vx02 = __sxtab16(vminus_input_zero_point, vx0123); const int16x2_t vx13 = __sxtab16(vminus_input_zero_point, __ror(vx0123, 8)); const int16x2_t vx46 = __sxtab16(vminus_input_zero_point, vx4567); const int16x2_t vx57 = __sxtab16(vminus_input_zero_point, __ror(vx4567, 8)); int32_t vacc0 = __smlawb(vmultiplier, vx02, vbias); int32_t vacc1 = __smlawb(vmultiplier, vx13, vbias); int32_t vacc2 = __smlawt(vmultiplier, vx02, vbias); int32_t vacc3 = __smlawt(vmultiplier, vx13, vbias); int32_t vacc4 = __smlawb(vmultiplier, vx46, vbias); int32_t vacc5 = __smlawb(vmultiplier, vx57, vbias); int32_t vacc6 = __smlawt(vmultiplier, vx46, vbias); int32_t vacc7 = __smlawt(vmultiplier, vx57, vbias); vacc0 = __ssat(math_asr_s32(vacc0, 1), 8); vacc1 = __ssat(math_asr_s32(vacc1, 1), 8); vacc2 = __ssat(math_asr_s32(vacc2, 1), 8); vacc3 = __ssat(math_asr_s32(vacc3, 1), 8); vacc4 = __ssat(math_asr_s32(vacc4, 1), 8); vacc5 = __ssat(math_asr_s32(vacc5, 1), 8); vacc6 = __ssat(math_asr_s32(vacc6, 1), 8); vacc7 = __ssat(math_asr_s32(vacc7, 1), 8); y[0] = (int8_t) vacc0; y[1] = (int8_t) vacc1; y[2] = (int8_t) vacc2; y[3] = (int8_t) vacc3; y[4] = (int8_t) vacc4; y[5] = (int8_t) vacc5; y[6] = (int8_t) vacc6; y[7] = (int8_t) vacc7; y += 8; } for (; n >= 4 * sizeof(int8_t); n -= 4 * sizeof(int8_t)) { const int8x4_t vx0123 = (int8x4_t) unaligned_load_u32(x); x += 4; const int16x2_t vx02 = __sxtab16(vminus_input_zero_point, vx0123); const int16x2_t vx13 = __sxtab16(vminus_input_zero_point, __ror(vx0123, 8)); int32_t vacc0 = __smlawb(vmultiplier, vx02, vbias); int32_t vacc1 = __smlawb(vmultiplier, vx13, vbias); int32_t vacc2 = __smlawt(vmultiplier, vx02, vbias); int32_t vacc3 = __smlawt(vmultiplier, vx13, vbias); vacc0 = __ssat(math_asr_s32(vacc0, 1), 8); vacc1 = __ssat(math_asr_s32(vacc1, 1), 8); vacc2 = __ssat(math_asr_s32(vacc2, 1), 8); vacc3 = __ssat(math_asr_s32(vacc3, 1), 8); y[0] = (int8_t) vacc0; y[1] = (int8_t) vacc1; y[2] = (int8_t) vacc2; y[3] = (int8_t) vacc3; y += 4; } if XNN_UNLIKELY(n != 0) { const int8x4_t vx0123 = (int8x4_t) unaligned_load_u32(x); const int16x2_t vx02 = __sxtab16(vminus_input_zero_point, vx0123); const int16x2_t vx13 = __sxtab16(vminus_input_zero_point, __ror(vx0123, 8)); int32_t vacc0 = __smlawb(vmultiplier, vx02, vbias); int32_t vacc1 = __smlawb(vmultiplier, vx13, vbias); const int32_t vacc2 = __smlawt(vmultiplier, vx02, vbias); vacc0 = __ssat(math_asr_s32(vacc0, 1), 8); vacc1 = __ssat(math_asr_s32(vacc1, 1), 8); if (n & (2 * sizeof(int8_t))) { y[0] = (int8_t) vacc0; y[1] = (int8_t) vacc1; vacc0 = __ssat(math_asr_s32(vacc2, 1), 8); y += 2; } if (n & (1 * sizeof(int8_t))) { y[0] = (int8_t) vacc0; } } }