// Auto-generated file. Do not edit! // Template: src/f32-velu/scalar-rr2-p6.c.in // Generator: tools/xngen // // Copyright 2020 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 void xnn_f32_velu_ukernel__scalar_rr2_p6_x6( size_t n, const float* x, float* y, const union xnn_f32_elu_params params[restrict XNN_MIN_ELEMENTS(1)]) { assert(n % sizeof(float) == 0); const float vprescale = params->scalar_rr2_p6.prescale; const float valpha = params->scalar_rr2_p6.alpha; const float vbeta = params->scalar_rr2_p6.beta; const float vmagic_bias = params->scalar_rr2_p6.magic_bias; const float vlog2e = params->scalar_rr2_p6.log2e; const float vsat_cutoff = params->scalar_rr2_p6.sat_cutoff; const float vminus_ln2_hi = params->scalar_rr2_p6.minus_ln2_hi; const float vminus_ln2_lo = params->scalar_rr2_p6.minus_ln2_lo; const float vc6 = params->scalar_rr2_p6.c6; const float vc5 = params->scalar_rr2_p6.c5; const float vc4 = params->scalar_rr2_p6.c4; const float vc3 = params->scalar_rr2_p6.c3; const float vc2 = params->scalar_rr2_p6.c2; const float vone = params->scalar_rr2_p6.one; for (; n >= 6 * sizeof(float); n -= 6 * sizeof(float)) { float vx0 = x[0]; float vx1 = x[1]; float vx2 = x[2]; float vx3 = x[3]; float vx4 = x[4]; float vx5 = x[5]; x += 6; const float vz0 = vx0 * vprescale; const float vz1 = vx1 * vprescale; const float vz2 = vx2 * vprescale; const float vz3 = vx3 * vprescale; const float vz4 = vx4 * vprescale; const float vz5 = vx5 * vprescale; float vn0 = vz0 * vlog2e + vmagic_bias; float vn1 = vz1 * vlog2e + vmagic_bias; float vn2 = vz2 * vlog2e + vmagic_bias; float vn3 = vz3 * vlog2e + vmagic_bias; float vn4 = vz4 * vlog2e + vmagic_bias; float vn5 = vz5 * vlog2e + vmagic_bias; float vs0 = uint32_as_float(float_as_uint32(vn0) << 23); vn0 -= vmagic_bias; float vs1 = uint32_as_float(float_as_uint32(vn1) << 23); vn1 -= vmagic_bias; float vs2 = uint32_as_float(float_as_uint32(vn2) << 23); vn2 -= vmagic_bias; float vs3 = uint32_as_float(float_as_uint32(vn3) << 23); vn3 -= vmagic_bias; float vs4 = uint32_as_float(float_as_uint32(vn4) << 23); vn4 -= vmagic_bias; float vs5 = uint32_as_float(float_as_uint32(vn5) << 23); vn5 -= vmagic_bias; float vt0 = vn0 * vminus_ln2_hi + vz0; float vt1 = vn1 * vminus_ln2_hi + vz1; float vt2 = vn2 * vminus_ln2_hi + vz2; float vt3 = vn3 * vminus_ln2_hi + vz3; float vt4 = vn4 * vminus_ln2_hi + vz4; float vt5 = vn5 * vminus_ln2_hi + vz5; vt0 = vn0 * vminus_ln2_lo + vt0; vt1 = vn1 * vminus_ln2_lo + vt1; vt2 = vn2 * vminus_ln2_lo + vt2; vt3 = vn3 * vminus_ln2_lo + vt3; vt4 = vn4 * vminus_ln2_lo + vt4; vt5 = vn5 * vminus_ln2_lo + vt5; if XNN_UNPREDICTABLE(vz0 <= vsat_cutoff) { vs0 = 0.0f; vt0 = 0.0f; } if XNN_UNPREDICTABLE(vz1 <= vsat_cutoff) { vs1 = 0.0f; vt1 = 0.0f; } if XNN_UNPREDICTABLE(vz2 <= vsat_cutoff) { vs2 = 0.0f; vt2 = 0.0f; } if XNN_UNPREDICTABLE(vz3 <= vsat_cutoff) { vs3 = 0.0f; vt3 = 0.0f; } if XNN_UNPREDICTABLE(vz4 <= vsat_cutoff) { vs4 = 0.0f; vt4 = 0.0f; } if XNN_UNPREDICTABLE(vz5 <= vsat_cutoff) { vs5 = 0.0f; vt5 = 0.0f; } float vp0 = vc6 * vt0 + vc5; float vp1 = vc6 * vt1 + vc5; float vp2 = vc6 * vt2 + vc5; float vp3 = vc6 * vt3 + vc5; float vp4 = vc6 * vt4 + vc5; float vp5 = vc6 * vt5 + vc5; vp0 = vp0 * vt0 + vc4; vp1 = vp1 * vt1 + vc4; vp2 = vp2 * vt2 + vc4; vp3 = vp3 * vt3 + vc4; vp4 = vp4 * vt4 + vc4; vp5 = vp5 * vt5 + vc4; vp0 = vp0 * vt0 + vc3; vp1 = vp1 * vt1 + vc3; vp2 = vp2 * vt2 + vc3; vp3 = vp3 * vt3 + vc3; vp4 = vp4 * vt4 + vc3; vp5 = vp5 * vt5 + vc3; vp0 = vp0 * vt0 + vc2; vp1 = vp1 * vt1 + vc2; vp2 = vp2 * vt2 + vc2; vp3 = vp3 * vt3 + vc2; vp4 = vp4 * vt4 + vc2; vp5 = vp5 * vt5 + vc2; vp0 *= vt0; vp1 *= vt1; vp2 *= vt2; vp3 *= vt3; vp4 *= vt4; vp5 *= vt5; vt0 *= vs0; vs0 -= vone; vt1 *= vs1; vs1 -= vone; vt2 *= vs2; vs2 -= vone; vt3 *= vs3; vs3 -= vone; vt4 *= vs4; vs4 -= vone; vt5 *= vs5; vs5 -= vone; vp0 = vp0 * vt0 + vt0; vp1 = vp1 * vt1 + vt1; vp2 = vp2 * vt2 + vt2; vp3 = vp3 * vt3 + vt3; vp4 = vp4 * vt4 + vt4; vp5 = vp5 * vt5 + vt5; const float ve0 = (vp0 + vs0) * valpha; float vy0 = vx0 * vbeta; const float ve1 = (vp1 + vs1) * valpha; float vy1 = vx1 * vbeta; const float ve2 = (vp2 + vs2) * valpha; float vy2 = vx2 * vbeta; const float ve3 = (vp3 + vs3) * valpha; float vy3 = vx3 * vbeta; const float ve4 = (vp4 + vs4) * valpha; float vy4 = vx4 * vbeta; const float ve5 = (vp5 + vs5) * valpha; float vy5 = vx5 * vbeta; if XNN_UNPREDICTABLE(vx0 < 0.0f) { vy0 = ve0; } if XNN_UNPREDICTABLE(vx1 < 0.0f) { vy1 = ve1; } if XNN_UNPREDICTABLE(vx2 < 0.0f) { vy2 = ve2; } if XNN_UNPREDICTABLE(vx3 < 0.0f) { vy3 = ve3; } if XNN_UNPREDICTABLE(vx4 < 0.0f) { vy4 = ve4; } if XNN_UNPREDICTABLE(vx5 < 0.0f) { vy5 = ve5; } y[0] = vy0; y[1] = vy1; y[2] = vy2; y[3] = vy3; y[4] = vy4; y[5] = vy5; y += 6; } if XNN_UNLIKELY(n != 0) { do { float vx = *x++; const float vz = vx * vprescale; float vn = vz * vlog2e + vmagic_bias; float vs = uint32_as_float(float_as_uint32(vn) << 23); vn -= vmagic_bias; float vt = vn * vminus_ln2_hi + vz; vt = vn * vminus_ln2_lo + vt; if XNN_UNPREDICTABLE(vz <= vsat_cutoff) { vs = 0.0f; vt = 0.0f; } float vp = vc6 * vt + vc5; vp = vp * vt + vc4; vp = vp * vt + vc3; vp = vp * vt + vc2; vp *= vt; vt *= vs; vs -= vone; vp = vp * vt + vt; const float ve = (vp + vs) * valpha; float vy = vx * vbeta; if XNN_UNPREDICTABLE(vx < 0.0f) { vy = ve; } *y++ = vy; n -= sizeof(float); } while (n != 0); } }