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1 /*
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2 * Copyright (c) 2003, 2007-14 Matteo Frigo
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3 * Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
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4 *
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5 * This program is free software; you can redistribute it and/or modify
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6 * it under the terms of the GNU General Public License as published by
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7 * the Free Software Foundation; either version 2 of the License, or
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8 * (at your option) any later version.
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9 *
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10 * This program is distributed in the hope that it will be useful,
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11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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13 * GNU General Public License for more details.
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14 *
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15 * You should have received a copy of the GNU General Public License
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16 * along with this program; if not, write to the Free Software
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17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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18 *
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19 */
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20
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21 /* This file was automatically generated --- DO NOT EDIT */
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22 /* Generated on Thu May 24 08:04:51 EDT 2018 */
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23
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24 #include "dft/codelet-dft.h"
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25
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26 #if defined(ARCH_PREFERS_FMA) || defined(ISA_EXTENSION_PREFERS_FMA)
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27
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28 /* Generated by: ../../../genfft/gen_notw_c.native -fma -simd -compact -variables 4 -pipeline-latency 8 -n 12 -name n1fv_12 -include dft/simd/n1f.h */
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29
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30 /*
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31 * This function contains 48 FP additions, 20 FP multiplications,
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32 * (or, 30 additions, 2 multiplications, 18 fused multiply/add),
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33 * 27 stack variables, 2 constants, and 24 memory accesses
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34 */
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35 #include "dft/simd/n1f.h"
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36
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37 static void n1fv_12(const R *ri, const R *ii, R *ro, R *io, stride is, stride os, INT v, INT ivs, INT ovs)
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38 {
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39 DVK(KP866025403, +0.866025403784438646763723170752936183471402627);
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40 DVK(KP500000000, +0.500000000000000000000000000000000000000000000);
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41 {
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42 INT i;
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43 const R *xi;
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44 R *xo;
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45 xi = ri;
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46 xo = ro;
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47 for (i = v; i > 0; i = i - VL, xi = xi + (VL * ivs), xo = xo + (VL * ovs), MAKE_VOLATILE_STRIDE(24, is), MAKE_VOLATILE_STRIDE(24, os)) {
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48 V T5, Ta, TG, TF, TB, Tt, Ti, Tm, TJ, TI, TA, Tp;
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49 {
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50 V T1, T6, T4, Tr, T9, Ts;
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51 T1 = LD(&(xi[0]), ivs, &(xi[0]));
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52 T6 = LD(&(xi[WS(is, 6)]), ivs, &(xi[0]));
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53 {
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54 V T2, T3, T7, T8;
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55 T2 = LD(&(xi[WS(is, 4)]), ivs, &(xi[0]));
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56 T3 = LD(&(xi[WS(is, 8)]), ivs, &(xi[0]));
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57 T4 = VADD(T2, T3);
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58 Tr = VSUB(T3, T2);
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59 T7 = LD(&(xi[WS(is, 10)]), ivs, &(xi[0]));
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60 T8 = LD(&(xi[WS(is, 2)]), ivs, &(xi[0]));
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61 T9 = VADD(T7, T8);
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62 Ts = VSUB(T8, T7);
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63 }
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64 T5 = VFNMS(LDK(KP500000000), T4, T1);
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65 Ta = VFNMS(LDK(KP500000000), T9, T6);
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66 TG = VADD(T6, T9);
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67 TF = VADD(T1, T4);
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68 TB = VADD(Tr, Ts);
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69 Tt = VSUB(Tr, Ts);
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70 }
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71 {
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72 V Tk, Tn, Te, Tl, Th, To;
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73 Tk = LD(&(xi[WS(is, 3)]), ivs, &(xi[WS(is, 1)]));
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74 Tn = LD(&(xi[WS(is, 9)]), ivs, &(xi[WS(is, 1)]));
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75 {
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76 V Tc, Td, Tf, Tg;
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77 Tc = LD(&(xi[WS(is, 11)]), ivs, &(xi[WS(is, 1)]));
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78 Td = LD(&(xi[WS(is, 7)]), ivs, &(xi[WS(is, 1)]));
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79 Te = VSUB(Tc, Td);
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80 Tl = VADD(Td, Tc);
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81 Tf = LD(&(xi[WS(is, 1)]), ivs, &(xi[WS(is, 1)]));
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82 Tg = LD(&(xi[WS(is, 5)]), ivs, &(xi[WS(is, 1)]));
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83 Th = VSUB(Tf, Tg);
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84 To = VADD(Tf, Tg);
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85 }
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86 Ti = VADD(Te, Th);
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87 Tm = VFNMS(LDK(KP500000000), Tl, Tk);
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88 TJ = VADD(Tn, To);
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89 TI = VADD(Tk, Tl);
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90 TA = VSUB(Te, Th);
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91 Tp = VFNMS(LDK(KP500000000), To, Tn);
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92 }
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93 {
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94 V TH, TK, TL, TM;
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95 TH = VSUB(TF, TG);
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96 TK = VSUB(TI, TJ);
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97 ST(&(xo[WS(os, 9)]), VFNMSI(TK, TH), ovs, &(xo[WS(os, 1)]));
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98 ST(&(xo[WS(os, 3)]), VFMAI(TK, TH), ovs, &(xo[WS(os, 1)]));
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99 TL = VADD(TF, TG);
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100 TM = VADD(TI, TJ);
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101 ST(&(xo[WS(os, 6)]), VSUB(TL, TM), ovs, &(xo[0]));
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102 ST(&(xo[0]), VADD(TL, TM), ovs, &(xo[0]));
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103 }
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104 {
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105 V Tj, Tv, Tu, Tw, Tb, Tq;
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106 Tb = VSUB(T5, Ta);
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107 Tj = VFMA(LDK(KP866025403), Ti, Tb);
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108 Tv = VFNMS(LDK(KP866025403), Ti, Tb);
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109 Tq = VSUB(Tm, Tp);
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110 Tu = VFNMS(LDK(KP866025403), Tt, Tq);
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111 Tw = VFMA(LDK(KP866025403), Tt, Tq);
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112 ST(&(xo[WS(os, 1)]), VFNMSI(Tu, Tj), ovs, &(xo[WS(os, 1)]));
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113 ST(&(xo[WS(os, 7)]), VFMAI(Tw, Tv), ovs, &(xo[WS(os, 1)]));
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114 ST(&(xo[WS(os, 11)]), VFMAI(Tu, Tj), ovs, &(xo[WS(os, 1)]));
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115 ST(&(xo[WS(os, 5)]), VFNMSI(Tw, Tv), ovs, &(xo[WS(os, 1)]));
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116 }
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117 {
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118 V TC, TE, Tz, TD, Tx, Ty;
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119 TC = VMUL(LDK(KP866025403), VSUB(TA, TB));
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120 TE = VMUL(LDK(KP866025403), VADD(TB, TA));
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121 Tx = VADD(T5, Ta);
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122 Ty = VADD(Tm, Tp);
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123 Tz = VSUB(Tx, Ty);
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124 TD = VADD(Tx, Ty);
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125 ST(&(xo[WS(os, 2)]), VFMAI(TC, Tz), ovs, &(xo[0]));
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126 ST(&(xo[WS(os, 8)]), VFNMSI(TE, TD), ovs, &(xo[0]));
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127 ST(&(xo[WS(os, 10)]), VFNMSI(TC, Tz), ovs, &(xo[0]));
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128 ST(&(xo[WS(os, 4)]), VFMAI(TE, TD), ovs, &(xo[0]));
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129 }
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130 }
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131 }
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132 VLEAVE();
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133 }
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134
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135 static const kdft_desc desc = { 12, XSIMD_STRING("n1fv_12"), {30, 2, 18, 0}, &GENUS, 0, 0, 0, 0 };
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136
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137 void XSIMD(codelet_n1fv_12) (planner *p) {
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138 X(kdft_register) (p, n1fv_12, &desc);
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139 }
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140
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141 #else
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142
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143 /* Generated by: ../../../genfft/gen_notw_c.native -simd -compact -variables 4 -pipeline-latency 8 -n 12 -name n1fv_12 -include dft/simd/n1f.h */
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144
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145 /*
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146 * This function contains 48 FP additions, 8 FP multiplications,
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147 * (or, 44 additions, 4 multiplications, 4 fused multiply/add),
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148 * 27 stack variables, 2 constants, and 24 memory accesses
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149 */
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150 #include "dft/simd/n1f.h"
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151
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152 static void n1fv_12(const R *ri, const R *ii, R *ro, R *io, stride is, stride os, INT v, INT ivs, INT ovs)
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153 {
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154 DVK(KP500000000, +0.500000000000000000000000000000000000000000000);
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155 DVK(KP866025403, +0.866025403784438646763723170752936183471402627);
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156 {
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157 INT i;
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158 const R *xi;
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159 R *xo;
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160 xi = ri;
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161 xo = ro;
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162 for (i = v; i > 0; i = i - VL, xi = xi + (VL * ivs), xo = xo + (VL * ovs), MAKE_VOLATILE_STRIDE(24, is), MAKE_VOLATILE_STRIDE(24, os)) {
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163 V T5, Ta, TJ, Ty, Tq, Tp, Tg, Tl, TI, TA, Tz, Tu;
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164 {
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165 V T1, T6, T4, Tw, T9, Tx;
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166 T1 = LD(&(xi[0]), ivs, &(xi[0]));
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167 T6 = LD(&(xi[WS(is, 6)]), ivs, &(xi[0]));
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168 {
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169 V T2, T3, T7, T8;
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170 T2 = LD(&(xi[WS(is, 4)]), ivs, &(xi[0]));
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171 T3 = LD(&(xi[WS(is, 8)]), ivs, &(xi[0]));
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172 T4 = VADD(T2, T3);
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173 Tw = VSUB(T3, T2);
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174 T7 = LD(&(xi[WS(is, 10)]), ivs, &(xi[0]));
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175 T8 = LD(&(xi[WS(is, 2)]), ivs, &(xi[0]));
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176 T9 = VADD(T7, T8);
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177 Tx = VSUB(T8, T7);
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178 }
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179 T5 = VADD(T1, T4);
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180 Ta = VADD(T6, T9);
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181 TJ = VADD(Tw, Tx);
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182 Ty = VMUL(LDK(KP866025403), VSUB(Tw, Tx));
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183 Tq = VFNMS(LDK(KP500000000), T9, T6);
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184 Tp = VFNMS(LDK(KP500000000), T4, T1);
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185 }
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186 {
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187 V Tc, Th, Tf, Ts, Tk, Tt;
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188 Tc = LD(&(xi[WS(is, 3)]), ivs, &(xi[WS(is, 1)]));
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189 Th = LD(&(xi[WS(is, 9)]), ivs, &(xi[WS(is, 1)]));
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190 {
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191 V Td, Te, Ti, Tj;
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192 Td = LD(&(xi[WS(is, 7)]), ivs, &(xi[WS(is, 1)]));
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193 Te = LD(&(xi[WS(is, 11)]), ivs, &(xi[WS(is, 1)]));
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194 Tf = VADD(Td, Te);
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195 Ts = VSUB(Te, Td);
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196 Ti = LD(&(xi[WS(is, 1)]), ivs, &(xi[WS(is, 1)]));
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197 Tj = LD(&(xi[WS(is, 5)]), ivs, &(xi[WS(is, 1)]));
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198 Tk = VADD(Ti, Tj);
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199 Tt = VSUB(Tj, Ti);
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200 }
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201 Tg = VADD(Tc, Tf);
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202 Tl = VADD(Th, Tk);
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203 TI = VADD(Ts, Tt);
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204 TA = VFNMS(LDK(KP500000000), Tk, Th);
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205 Tz = VFNMS(LDK(KP500000000), Tf, Tc);
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206 Tu = VMUL(LDK(KP866025403), VSUB(Ts, Tt));
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207 }
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208 {
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209 V Tb, Tm, Tn, To;
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210 Tb = VSUB(T5, Ta);
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211 Tm = VBYI(VSUB(Tg, Tl));
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212 ST(&(xo[WS(os, 9)]), VSUB(Tb, Tm), ovs, &(xo[WS(os, 1)]));
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213 ST(&(xo[WS(os, 3)]), VADD(Tb, Tm), ovs, &(xo[WS(os, 1)]));
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214 Tn = VADD(T5, Ta);
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215 To = VADD(Tg, Tl);
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216 ST(&(xo[WS(os, 6)]), VSUB(Tn, To), ovs, &(xo[0]));
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217 ST(&(xo[0]), VADD(Tn, To), ovs, &(xo[0]));
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218 }
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219 {
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220 V Tv, TE, TC, TD, Tr, TB;
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221 Tr = VSUB(Tp, Tq);
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222 Tv = VSUB(Tr, Tu);
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223 TE = VADD(Tr, Tu);
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224 TB = VSUB(Tz, TA);
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225 TC = VBYI(VADD(Ty, TB));
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226 TD = VBYI(VSUB(Ty, TB));
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227 ST(&(xo[WS(os, 5)]), VSUB(Tv, TC), ovs, &(xo[WS(os, 1)]));
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228 ST(&(xo[WS(os, 11)]), VSUB(TE, TD), ovs, &(xo[WS(os, 1)]));
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229 ST(&(xo[WS(os, 7)]), VADD(TC, Tv), ovs, &(xo[WS(os, 1)]));
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230 ST(&(xo[WS(os, 1)]), VADD(TD, TE), ovs, &(xo[WS(os, 1)]));
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231 }
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232 {
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233 V TK, TM, TH, TL, TF, TG;
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234 TK = VBYI(VMUL(LDK(KP866025403), VSUB(TI, TJ)));
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235 TM = VBYI(VMUL(LDK(KP866025403), VADD(TJ, TI)));
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236 TF = VADD(Tp, Tq);
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237 TG = VADD(Tz, TA);
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238 TH = VSUB(TF, TG);
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239 TL = VADD(TF, TG);
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240 ST(&(xo[WS(os, 10)]), VSUB(TH, TK), ovs, &(xo[0]));
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241 ST(&(xo[WS(os, 4)]), VADD(TL, TM), ovs, &(xo[0]));
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242 ST(&(xo[WS(os, 2)]), VADD(TH, TK), ovs, &(xo[0]));
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243 ST(&(xo[WS(os, 8)]), VSUB(TL, TM), ovs, &(xo[0]));
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244 }
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245 }
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246 }
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247 VLEAVE();
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248 }
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249
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250 static const kdft_desc desc = { 12, XSIMD_STRING("n1fv_12"), {44, 4, 4, 0}, &GENUS, 0, 0, 0, 0 };
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251
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252 void XSIMD(codelet_n1fv_12) (planner *p) {
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253 X(kdft_register) (p, n1fv_12, &desc);
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254 }
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255
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256 #endif
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