Bit Reverse in TIE Instruktion implementiert
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d7aa4d18fe
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0c0c708e70
26
fft.c
26
fft.c
@ -60,14 +60,11 @@ int fix_fft(fixed fr[], fixed fi[], int m, int inverse)
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nn = n - 1;
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scale = 0;
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int mm = m;
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/* decimation in time - re-order data */
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for(m=1; m<=nn; ++m) {
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l = n;
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do{
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l >>= 1;
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}while(mr+l > nn);
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mr = (mr & (l-1)) + l;
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mr = FFT_bit_reverse(m, mm);
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if(mr <= m) continue;
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tr = fr[m];
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@ -119,23 +116,16 @@ int fix_fft(fixed fr[], fixed fi[], int m, int inverse)
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for(m=0; m<l; ++m)
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{
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j = m << k;
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/* 0 <= j < N_WAVE/2 */
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wr = Sinewave[j+N_WAVE/4];
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wi = -Sinewave[j];
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if(inverse) wi = -wi;
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if(shift)
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{
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wr >>= 1;
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wi >>= 1;
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}
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FFT_twiddle(wr, wi, j, shift, inverse);
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FFT_reg reg;
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fixed *reg_s = ((fixed*) ®);
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for(i=m; i<n; i+=istep)
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{
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j = i + l;
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FFT_reg reg;
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fixed *reg_s = ((fixed*) ®);
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reg_s[3] = fr[i];
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reg_s[2] = fr[j];
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reg_s[1] = fi[i];
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25
fft_inst.tie
25
fft_inst.tie
@ -132,6 +132,31 @@ table SIN_wave 16 1024 {
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regfile FFT_reg 64 2 fftv
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operation FFT_bit_reverse {in AR b, out AR o, in AR m} {}
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{
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assign o = {
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TIEmux(m[2:0], 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, b[0]),
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TIEmux(m[2:0], 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, b[0], b[1]),
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TIEmux(m[2:0], 1'b0, 1'b0, 1'b0, 1'b0, 1'b0, b[0], b[1], b[2]),
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TIEmux(m[2:0], 1'b0, 1'b0, 1'b0, 1'b0, b[0], b[1], b[2], b[3]),
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TIEmux(m[2:0], 1'b0, 1'b0, 1'b0, b[0], b[1], b[2], b[3], b[4]),
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TIEmux(m[2:0], 1'b0, 1'b0, b[0], b[1], b[2], b[3], b[4], b[5]),
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TIEmux(m[2:0], 1'b0, b[0], b[1], b[2], b[3], b[4], b[5], b[6])
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};
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}
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operation FFT_twiddle {out AR wr, out AR wi, in AR j, in BR shift, in BR inverse} {}
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{
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// 256 = N_WAVE / 4
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wire [9:0] idx = TIEadd(j, 256, 1'b0);
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wire [15:0] sin = SIN_wave[j];
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wire [15:0] wr1 = SIN_wave[idx];
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wire [15:0] wi1 = TIEadd(~sin, 16'b0, 1'b1);
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wire [15:0] wi2 = TIEmux(inverse, wi1, sin);
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assign wr = TIEmux(shift, wr1, {wr1[15], wr1[15:1]});
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assign wi = TIEmux(shift, wi2, {wi2[15], wi2[15:1]});
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}
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operation FFT_calc {inout FFT_reg data, in AR wr, in AR wi, in AR shift} {}
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{
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wire [15:0] fri = data[63:48];
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