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合并main分支的部分修改 

-尽量避免使用for循环
This commit is contained in:
futh0403 2025-03-13 21:02:23 +08:00
parent 601600c760
commit 0cfe0c75ce
8 changed files with 650 additions and 305 deletions
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70
rtl/z_dsp/IIR_Filter_p8.v
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@ -1,36 +1,3 @@
//+FHDR--------------------------------------------------------------------------------------------------------
// Company:
//-----------------------------------------------------------------------------------------------------------------
// File Name : IIR_Filter.v
// Department :
// Author : thfu
// Author's Tel :
//-----------------------------------------------------------------------------------------------------------------
// Relese History
// Version Date Author Description
// 0.4 2024-05-28 thfu
//2024-05-28 10:22:49
//-----------------------------------------------------------------------------------------------------------------
// Keywords :
//
//-----------------------------------------------------------------------------------------------------------------
// Parameter
//
//-----------------------------------------------------------------------------------------------------------------
// Purpose :
//
//-----------------------------------------------------------------------------------------------------------------
// Target Device:
// Tool versions:
//-----------------------------------------------------------------------------------------------------------------
// Reuse Issues
// Reset Strategy:
// Clock Domains:
// Critical Timing:
// Asynchronous I/F:
// Synthesizable (y/n):
// Other:
//-FHDR--------------------------------------------------------------------------------------------------------
module IIR_Filter_p8 #(
parameter coef_width = 32
,parameter data_in_width = 16
@ -74,9 +41,36 @@ module IIR_Filter_p8 #(
,output signed [data_out_width-1:0] dout_im // Im(y(8n-8))
);
wire signed [data_in_width-1 :0] dinp [7:0] = {dinp7 , dinp6 , dinp5 ,dinp4 , dinp3 , dinp2 , dinp1, dinp0};
wire signed [coef_width-1 :0] ab_pow_re [7:0] = {ab_pow7_re, ab_pow6_re, ab_pow5_re ,ab_pow4_re, ab_pow3_re, abb_re, ab_re, a_re };
wire signed [coef_width-1 :0] ab_pow_im [7:0] = {ab_pow7_im, ab_pow6_im, ab_pow5_im ,ab_pow4_im, ab_pow3_im, abb_im, ab_im, a_im };
wire signed [data_in_width-1 :0] dinp [7:0];
assign dinp[7] = dinp7;
assign dinp[6] = dinp6;
assign dinp[5] = dinp5;
assign dinp[4] = dinp4;
assign dinp[3] = dinp3;
assign dinp[2] = dinp2;
assign dinp[1] = dinp1;
assign dinp[0] = dinp0;
wire signed [coef_width-1 :0] ab_pow_re [7:0];
assign ab_pow_re[7] = ab_pow7_re;
assign ab_pow_re[6] = ab_pow6_re;
assign ab_pow_re[5] = ab_pow5_re;
assign ab_pow_re[4] = ab_pow4_re;
assign ab_pow_re[3] = ab_pow3_re;
assign ab_pow_re[2] = abb_re;
assign ab_pow_re[1] = ab_re;
assign ab_pow_re[0] = a_re;
wire signed [coef_width-1 :0] ab_pow_im [7:0];
assign ab_pow_im[7] = ab_pow7_im;
assign ab_pow_im[6] = ab_pow6_im;
assign ab_pow_im[5] = ab_pow5_im;
assign ab_pow_im[4] = ab_pow4_im;
assign ab_pow_im[3] = ab_pow3_im;
assign ab_pow_im[2] = abb_im;
assign ab_pow_im[1] = ab_im;
assign ab_pow_im[0] = a_im;
wire signed [temp_var_width-1 :0] x_re [0:7];
wire signed [temp_var_width-1 :0] x_im [0:7];
@ -88,8 +82,8 @@ reg signed [temp_var_width+3 :0] v1_im;
wire signed [temp_var_width+3 :0] y_re;
wire signed [temp_var_width+3 :0] y_im;
reg signed [temp_var_width+3 :0] y1_re;
reg signed [temp_var_width+3 :0] y1_im;
wire signed [temp_var_width+3 :0] y1_re;
wire signed [temp_var_width+3 :0] y1_im;
wire signed [data_out_width-1:0] y_re_trunc;
wire signed [data_out_width-1:0] y_im_trunc;

32
rtl/z_dsp/IIR_top.v
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@ -1,35 +1,3 @@
//+FHDR--------------------------------------------------------------------------------------------------------
// Company:
//-----------------------------------------------------------------------------------------------------------------
// File Name : TailCorr_top.v
// Department :
// Author : thfu
// Author's Tel :
//-----------------------------------------------------------------------------------------------------------------
// Relese History
// Version Date Author Description
// 0.3 2024-05-15 thfu
//-----------------------------------------------------------------------------------------------------------------
// Keywords :
//
//-----------------------------------------------------------------------------------------------------------------
// Parameter
//
//-----------------------------------------------------------------------------------------------------------------
// Purpose :
//
//-----------------------------------------------------------------------------------------------------------------
// Target Device:
// Tool versions:
//-----------------------------------------------------------------------------------------------------------------
// Reuse Issues
// Reset Strategy:
// Clock Domains:
// Critical Timing:
// Asynchronous I/F:
// Synthesizable (y/n):
// Other:
//-FHDR--------------------------------------------------------------------------------------------------------
module IIR_top #(
parameter data_out_width = 23

184
rtl/z_dsp/TailCorr_top.v
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@ -1,35 +1,3 @@
//+FHDR--------------------------------------------------------------------------------------------------------
// Company:
//-----------------------------------------------------------------------------------------------------------------
// File Name : TailCorr_top.v
// Department :
// Author : thfu
// Author's Tel :
//-----------------------------------------------------------------------------------------------------------------
// Relese History
// Version Date Author Description
// 0.3 2025-02-28 thfu
//-----------------------------------------------------------------------------------------------------------------
// Keywords :
//
//-----------------------------------------------------------------------------------------------------------------
// Parameter
//
//-----------------------------------------------------------------------------------------------------------------
// Purpose :
//
//-----------------------------------------------------------------------------------------------------------------
// Target Device:
// Tool versions:
//-----------------------------------------------------------------------------------------------------------------
// Reuse Issues
// Reset Strategy:
// Clock Domains:
// Critical Timing:
// Asynchronous I/F:
// Synthesizable (y/n):
// Other:
//-FHDR--------------------------------------------------------------------------------------------------------
module TailCorr_top #(
parameter temp_var_width = 22
@ -207,14 +175,14 @@ wire signed [temp_var_width+2:0] sum_IIRout_p4;
wire signed [temp_var_width+2:0] sum_IIRout_p5;
wire signed [temp_var_width+2:0] sum_IIRout_p6;
wire signed [temp_var_width+2:0] sum_IIRout_p7;
reg signed [15:0] din_p0_r [15:0];
reg signed [15:0] din_p1_r [15:0];
reg signed [15:0] din_p2_r [15:0];
reg signed [15:0] din_p3_r [15:0];
reg signed [15:0] din_p4_r [15:0];
reg signed [15:0] din_p5_r [15:0];
reg signed [15:0] din_p6_r [15:0];
reg signed [15:0] din_p7_r [15:0];
reg signed [15:0] din_p0_r [16:0];
reg signed [15:0] din_p1_r [16:0];
reg signed [15:0] din_p2_r [16:0];
reg signed [15:0] din_p3_r [16:0];
reg signed [15:0] din_p4_r [16:0];
reg signed [15:0] din_p5_r [16:0];
reg signed [15:0] din_p6_r [16:0];
reg signed [15:0] din_p7_r [16:0];
reg signed [15:0] IIRin_p0_r [1 :0]; // iirin_x(8n-7)
reg signed [15:0] IIRin_p1_r [3 :0]; // iirin_x(8n-22)
reg signed [15:0] IIRin_p2_r [5 :0]; // iirin_x(8n-37)
@ -270,7 +238,7 @@ diff_p inst_diff_p (
integer i;
always @(posedge clk or negedge rstn) begin
if (!rstn) begin
for (i = 0; i < 17; i = i + 1) begin
for (i = 0; i < 16; i = i + 1) begin
din_p0_r[i] <= 'h0;
din_p1_r[i] <= 'h0;
din_p2_r[i] <= 'h0;
@ -290,7 +258,7 @@ always @(posedge clk or negedge rstn) begin
din_p5_r[0] <= din_p5;
din_p6_r[0] <= din_p6;
din_p7_r[0] <= din_p7;
for (i = 0; i < 15; i = i + 1) begin
for (i = 0; i < 16; i = i + 1) begin
din_p0_r[i+1] <= din_p0_r[i];
din_p1_r[i+1] <= din_p1_r[i];
din_p2_r[i+1] <= din_p2_r[i];
@ -302,7 +270,121 @@ always @(posedge clk or negedge rstn) begin
end
end
end
/*
wire signed [15:0] din_p0_r1;
wire signed [15:0] din_p1_r1;
wire signed [15:0] din_p2_r1;
wire signed [15:0] din_p3_r1;
wire signed [15:0] din_p4_r1;
wire signed [15:0] din_p5_r1;
wire signed [15:0] din_p6_r1;
wire signed [15:0] din_p7_r1;
wire signed [15:0] din_p0_r2;
wire signed [15:0] din_p1_r2;
wire signed [15:0] din_p2_r2;
wire signed [15:0] din_p3_r2;
wire signed [15:0] din_p4_r2;
wire signed [15:0] din_p5_r2;
wire signed [15:0] din_p6_r2;
wire signed [15:0] din_p7_r2;
wire signed [15:0] din_p0_r3;
wire signed [15:0] din_p1_r3;
wire signed [15:0] din_p2_r3;
wire signed [15:0] din_p3_r3;
wire signed [15:0] din_p4_r3;
wire signed [15:0] din_p5_r3;
wire signed [15:0] din_p6_r3;
wire signed [15:0] din_p7_r3;
wire signed [15:0] din_p0_r4;
wire signed [15:0] din_p1_r4;
wire signed [15:0] din_p2_r4;
wire signed [15:0] din_p3_r4;
wire signed [15:0] din_p4_r4;
wire signed [15:0] din_p5_r4;
wire signed [15:0] din_p6_r4;
wire signed [15:0] din_p7_r4;
wire signed [15:0] din_p0_r5;
wire signed [15:0] din_p1_r5;
wire signed [15:0] din_p2_r5;
wire signed [15:0] din_p3_r5;
wire signed [15:0] din_p4_r5;
wire signed [15:0] din_p5_r5;
wire signed [15:0] din_p6_r5;
wire signed [15:0] din_p7_r5;
wire signed [15:0] din_p0_r6;
wire signed [15:0] din_p1_r6;
wire signed [15:0] din_p2_r6;
wire signed [15:0] din_p3_r6;
wire signed [15:0] din_p4_r6;
wire signed [15:0] din_p5_r6;
wire signed [15:0] din_p6_r6;
wire signed [15:0] din_p7_r6;
wire signed [15:0] din_p0_r7;
wire signed [15:0] din_p1_r7;
wire signed [15:0] din_p2_r7;
wire signed [15:0] din_p3_r7;
wire signed [15:0] din_p4_r7;
wire signed [15:0] din_p5_r7;
wire signed [15:0] din_p6_r7;
wire signed [15:0] din_p7_r7;
sirv_gnrl_dfflr #(16) dff_din_p0_1(en,din_p0, din_p0_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_1(en,din_p1, din_p1_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_1(en,din_p2, din_p2_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_1(en,din_p3, din_p3_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_1(en,din_p4, din_p4_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_1(en,din_p5, din_p5_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_1(en,din_p6, din_p6_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_1(en,din_p7, din_p7_r1 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_2(en,din_p0_r1, din_p0_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_2(en,din_p1_r1, din_p1_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_2(en,din_p2_r1, din_p2_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_2(en,din_p3_r1, din_p3_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_2(en,din_p4_r1, din_p4_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_2(en,din_p5_r1, din_p5_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_2(en,din_p6_r1, din_p6_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_2(en,din_p7_r1, din_p7_r2 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_3(en,din_p0_r2, din_p0_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_3(en,din_p1_r2, din_p1_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_3(en,din_p2_r2, din_p2_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_3(en,din_p3_r2, din_p3_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_3(en,din_p4_r2, din_p4_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_3(en,din_p5_r2, din_p5_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_3(en,din_p6_r2, din_p6_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_3(en,din_p7_r2, din_p7_r3 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_4(en,din_p0_r3, din_p0_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_4(en,din_p1_r3, din_p1_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_4(en,din_p2_r3, din_p2_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_4(en,din_p3_r3, din_p3_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_4(en,din_p4_r3, din_p4_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_4(en,din_p5_r3, din_p5_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_4(en,din_p6_r3, din_p6_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_4(en,din_p7_r3, din_p7_r4 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_5(en,din_p0_r4, din_p0_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_5(en,din_p1_r4, din_p1_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_5(en,din_p2_r4, din_p2_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_5(en,din_p3_r4, din_p3_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_5(en,din_p4_r4, din_p4_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_5(en,din_p5_r4, din_p5_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_5(en,din_p6_r4, din_p6_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_5(en,din_p7_r4, din_p7_r5 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_6(en,din_p0_r5, din_p0_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_6(en,din_p1_r5, din_p1_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_6(en,din_p2_r5, din_p2_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_6(en,din_p3_r5, din_p3_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_6(en,din_p4_r5, din_p4_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_6(en,din_p5_r5, din_p5_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_6(en,din_p6_r5, din_p6_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_6(en,din_p7_r5, din_p7_r6 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p0_7(en,din_p0_r6, din_p0_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p1_7(en,din_p1_r6, din_p1_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p2_7(en,din_p2_r6, din_p2_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p3_7(en,din_p3_r6, din_p3_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p4_7(en,din_p4_r6, din_p4_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p5_7(en,din_p5_r6, din_p5_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p6_7(en,din_p6_r6, din_p6_r7 ,clk,rstn);
sirv_gnrl_dfflr #(16) dff_din_p7_7(en,din_p7_r6, din_p7_r7 ,clk,rstn);
*/
always @(posedge clk or negedge rstn) begin
if (!rstn) begin
@ -745,14 +827,14 @@ always @(posedge clk or negedge rstn) begin
end
end
assign dout_p0_r0 = {{3{din_p0_r[15][15]}},din_p0_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p1_r[11]; // y(8n-119)
assign dout_p1_r0 = {{3{din_p1_r[15][15]}},din_p1_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p2_r[9]; // y(8n-118)
assign dout_p2_r0 = {{3{din_p2_r[15][15]}},din_p2_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p3_r[7]; // y(8n-117)
assign dout_p3_r0 = {{3{din_p3_r[15][15]}},din_p3_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p4_r[5]; // y(8n-116)
assign dout_p4_r0 = {{3{din_p4_r[15][15]}},din_p4_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p5_r[3]; // y(8n-115)
assign dout_p5_r0 = {{3{din_p5_r[15][15]}},din_p5_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p6_r[1]; // y(8n-114)
assign dout_p6_r0 = {{3{din_p6_r[15][15]}},din_p6_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p7; // y(8n-113)
assign dout_p7_r0 = {{3{din_p7_r[15][15]}},din_p7_r[15],{(temp_var_width-16){1'b0}}} + sum_IIRout_p0_r[12]; // y(8n-112)
assign dout_p0_r0 = {{3{din_p0_r[16][15]}},din_p0_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p1_r[11]; // y(8n-119)
assign dout_p1_r0 = {{3{din_p1_r[16][15]}},din_p1_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p2_r[9]; // y(8n-118)
assign dout_p2_r0 = {{3{din_p2_r[16][15]}},din_p2_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p3_r[7]; // y(8n-117)
assign dout_p3_r0 = {{3{din_p3_r[16][15]}},din_p3_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p4_r[5]; // y(8n-116)
assign dout_p4_r0 = {{3{din_p4_r[16][15]}},din_p4_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p5_r[3]; // y(8n-116)
assign dout_p5_r0 = {{3{din_p5_r[16][15]}},din_p5_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p6_r[1]; // y(8n-114)
assign dout_p6_r0 = {{3{din_p6_r[16][15]}},din_p6_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p7; // y(8n-113)
assign dout_p7_r0 = {{3{din_p7_r[16][15]}},din_p7_r[16],{(temp_var_width-16){1'b0}}} + sum_IIRout_p0_r[12]; // y(8n-112)
trunc #(temp_var_width+3,temp_var_width-1,temp_var_width-16,1) round_u0 (clk, rstn, en, dout_p0_r0, dout_p0);
trunc #(temp_var_width+3,temp_var_width-1,temp_var_width-16,1) round_u1 (clk, rstn, en, dout_p1_r0, dout_p1);
@ -828,7 +910,7 @@ always @(posedge clk or negedge rstn)begin
end
end
assign vldo_r0_l = (dout_p0_r0 == 0 && dout_p0 == 0 && dout_p0_r2 == 0 && dout_p0_r3 == 0 && dout_p0_r4 == 0 && dout_p0_r5 == 0&& dout_p0_r6 == 0);
assign vldo_r0_h = vldo_diff_r[18] == 0 && vldo_diff_r[17] == 1 ;
assign vldo_r0_h = vldo_diff_r[16] == 0 && vldo_diff_r[15] == 1 ;
assign vldo = vldo_r0;
endmodule

247
rtl/z_dsp/diff_p.v
View File

@ -1,48 +1,16 @@
//+FHDR--------------------------------------------------------------------------------------------------------
// Company:
//-----------------------------------------------------------------------------------------------------------------
// File Name : TailCorr_top.v
// Department :
// Author : thfu
// Author's Tel :
//-----------------------------------------------------------------------------------------------------------------
// Relese History
// Version Date Author Description
// 0.3 2024-05-15 thfu
//-----------------------------------------------------------------------------------------------------------------
// Keywords :
//
//-----------------------------------------------------------------------------------------------------------------
// Parameter
//
//-----------------------------------------------------------------------------------------------------------------
// Purpose :
//
//-----------------------------------------------------------------------------------------------------------------
// Target Device:
// Tool versions:
//-----------------------------------------------------------------------------------------------------------------
// Reuse Issues
// Reset Strategy:
// Clock Domains:
// Critical Timing:
// Asynchronous I/F:
// Synthesizable (y/n):
// Other:
//-FHDR--------------------------------------------------------------------------------------------------------
module diff_p
(
input rstn
,input clk
,input en
,input vldi
,input signed [15:0] din0
,input signed [15:0] din1
,input signed [15:0] din2
,input signed [15:0] din3
,output vldo
input rstn
,input clk
,input en
,input vldi
,input signed [15:0] din0
,input signed [15:0] din1
,input signed [15:0] din2
,input signed [15:0] din3
,output vldo
,output signed [15:0] dout_p0
,output signed [15:0] dout_p1
,output signed [15:0] dout_p2
@ -62,89 +30,130 @@ module diff_p
);
wire [15:0] din_wire [0:3];
assign din_wire[0] = din0;
assign din_wire[1] = din1;
assign din_wire[2] = din2;
assign din_wire[3] = din3;
wire signed [15:0] din_p0_r0;
wire signed [15:0] din_p1_r0;
wire signed [15:0] din_p2_r0;
wire signed [15:0] din_p3_r0;
wire signed [15:0] din_p4_r0;
wire signed [15:0] din_p5_r0;
wire signed [15:0] din_p6_r0;
wire signed [15:0] din_p7_r0;
wire vldo_0;
wire vldo_1;
wire vldo_2;
wire vldo_3;
wire vldo_r0;
assign vldo_r0 = vldo_0 || vldo_1 || vldo_2 || vldo_3;
sirv_gnrl_dffr #(1) dff_vldo_1(vldo_r0, vldo ,clk,rstn);
s2p_2 inst1_s2p_2 (
.clk (clk),
.rst_n (rstn),
.din (din0),
.en (vldi),
.dout0 (din_p0_r0),
.dout1 (din_p4_r0)
,.vldo( vldo_0)
);
s2p_2 inst2_s2p_2 (
.clk (clk),
.rst_n (rstn),
.din (din1),
.en (vldi),
.dout0 (din_p1_r0),
.dout1 (din_p5_r0)
,.vldo( vldo_1)
);
s2p_2 inst3_s2p_2 (
.clk (clk),
.rst_n (rstn),
.din (din2),
.en (vldi),
.dout0 (din_p2_r0),
.dout1 (din_p6_r0)
,.vldo( vldo_2)
);
s2p_2 inst4_s2p_2 (
.clk (clk),
.rst_n (rstn),
.din (din3),
.en (vldi),
.dout0 (din_p3_r0),
.dout1 (din_p7_r0)
,.vldo( vldo_3)
);
wire [3:0] vldo_temp;
wire signed [15:0] dinp_r0 [7:0];
genvar i;
generate
for (i = 0; i < 4; i = i + 1) begin: s2p_inst
s2p_2 inst_s2p_2 (
.clk (clk),
.rst_n (rstn),
.din (din_wire[i]),
.en (vldi),
.dout0 (dinp_r0[i]),
.dout1 (dinp_r0[i+4]),
.vldo (vldo_temp[i])
);
end
endgenerate
assign vldo = vldo_temp[0];
wire signed [15:0] din_p0_r1;
wire signed [15:0] din_p1_r1;
wire signed [15:0] din_p2_r1;
wire signed [15:0] din_p3_r1;
wire signed [15:0] din_p4_r1;
wire signed [15:0] din_p5_r1;
wire signed [15:0] din_p6_r1;
wire signed [15:0] din_p7_r1;
reg signed [15:0] dinp_r1 [0:7];
integer j;
always @(posedge clk or negedge rstn) begin
if (!rstn) begin
for (j = 0; j < 8; j = j + 1) begin
dinp_r1[j] <= 'h0;
end
end
else if (en) begin
for (j = 0; j < 8; j = j + 1) begin
dinp_r1[j] <= dinp_r0[j];
end
end
sirv_gnrl_dfflr #(16) din_p7_1(en,din_p7_r0, din_p7_r1 ,clk,rstn);
assign dout_p0 = din_p0_r0;
assign dout_p1 = din_p1_r0;
assign dout_p2 = din_p2_r0;
assign dout_p3 = din_p3_r0;
assign dout_p4 = din_p4_r0;
assign dout_p5 = din_p5_r0;
assign dout_p6 = din_p6_r0;
assign dout_p7 = din_p7_r0;
reg signed [15:0] diff_p0_r1;
reg signed [15:0] diff_p1_r1;
reg signed [15:0] diff_p2_r1;
reg signed [15:0] diff_p3_r1;
reg signed [15:0] diff_p4_r1;
reg signed [15:0] diff_p5_r1;
reg signed [15:0] diff_p6_r1;
reg signed [15:0] diff_p7_r1;
always @(posedge clk or negedge rstn)begin
if(rstn==1'b0)begin
diff_p0_r1 <= 0;
diff_p1_r1 <= 0;
diff_p2_r1 <= 0;
diff_p3_r1 <= 0;
diff_p4_r1 <= 0;
diff_p5_r1 <= 0;
diff_p6_r1 <= 0;
diff_p7_r1 <= 0;
end
else if(en)begin
diff_p0_r1 <= din_p0_r0 - din_p7_r1;
diff_p1_r1 <= din_p1_r0 - din_p0_r0;
diff_p2_r1 <= din_p2_r0 - din_p1_r0;
diff_p3_r1 <= din_p3_r0 - din_p2_r0;
diff_p4_r1 <= din_p4_r0 - din_p3_r0;
diff_p5_r1 <= din_p5_r0 - din_p4_r0;
diff_p6_r1 <= din_p6_r0 - din_p5_r0;
diff_p7_r1 <= din_p7_r0 - din_p6_r0;
end
else begin
diff_p0_r1 <= diff_p0_r1;
diff_p1_r1 <= diff_p1_r1;
diff_p2_r1 <= diff_p2_r1;
diff_p3_r1 <= diff_p3_r1;
diff_p4_r1 <= diff_p4_r1;
diff_p5_r1 <= diff_p5_r1;
diff_p6_r1 <= diff_p6_r1;
diff_p7_r1 <= diff_p7_r1;
end
end
wire signed [15:0] diffp_r0 [0:7];
generate
for (i = 0; i < 8; i = i + 1) begin: diff_assign
if (i == 0)
assign diffp_r0[i] = dinp_r0[i] - dinp_r1[7];
else
assign diffp_r0[i] = dinp_r0[i] - dinp_r0[i-1];
end
endgenerate
assign dout_p0 = dinp_r1[0];
assign dout_p1 = dinp_r1[1];
assign dout_p2 = dinp_r1[2];
assign dout_p3 = dinp_r1[3];
assign dout_p4 = dinp_r1[4];
assign dout_p5 = dinp_r1[5];
assign dout_p6 = dinp_r1[6];
assign dout_p7 = dinp_r1[7];
reg signed [15:0] diffp_r1 [0:7];
always @(posedge clk or negedge rstn) begin
if (!rstn) begin
for (j = 0; j < 8; j = j + 1) begin
diffp_r1[j] <= 0;
end
end
else if (en) begin
for (j = 0; j < 8; j = j + 1) begin
diffp_r1[j] <= diffp_r0[j];
end
end
end
assign diff_p0 = diffp_r1[0];
assign diff_p1 = diffp_r1[1];
assign diff_p2 = diffp_r1[2];
assign diff_p3 = diffp_r1[3];
assign diff_p4 = diffp_r1[4];
assign diff_p5 = diffp_r1[5];
assign diff_p6 = diffp_r1[6];
assign diff_p7 = diffp_r1[7];
assign diff_p0 = diff_p0_r1;
assign diff_p1 = diff_p1_r1;
assign diff_p2 = diff_p2_r1;
assign diff_p3 = diff_p3_r1;
assign diff_p4 = diff_p4_r1;
assign diff_p5 = diff_p5_r1;
assign diff_p6 = diff_p6_r1;
assign diff_p7 = diff_p7_r1;
endmodule

85
rtl/z_dsp/s2p_2.v
View File

@ -8,21 +8,6 @@ module s2p_2 (
output vldo
);
reg en_r1;
reg en_r2;
always @(posedge clk or negedge rst_n)begin
if(rst_n==1'b0)begin
en_r1 <= 0;
en_r2 <= 0;
end
else begin
en_r1 <= en;
en_r2 <= en_r1;
end
end
assign vldo = en_r2;
reg cnt;
wire add_cnt;
wire end_cnt;
@ -45,7 +30,8 @@ end
assign add_cnt = en == 1'b1;
assign end_cnt = add_cnt && cnt== 2 - 1 ;
wire en_r1;
wire en_r2;
reg [ 15: 0] dout0_r0;
reg [ 15: 0] dout1_r0;
wire dout0_en;
@ -53,66 +39,45 @@ wire dout1_en;
wire dout0_hold;
wire dout1_hold;
always @(*)begin
if(rst_n==1'b0)begin
dout0_r0 = 16'd0;
dout1_r0 = 16'd0;
always @(posedge clk or negedge rst_n)begin
if(!rst_n)begin
dout0_r0 <= 16'b0;
dout1_r0 <= 16'b0;
end
else if(dout0_en)begin
dout0_r0 = din;
dout0_r0 <= din;
end
else if(dout1_en)begin
dout1_r0 = din;
end
else begin
dout0_r0 = 16'd0;
dout1_r0 = 16'd0;
end
end
assign dout0_en = add_cnt && cnt == 0;
assign dout1_en = add_cnt && cnt == 1;
reg [ 15: 0] dout0_r1;
reg [ 15: 0] dout1_r1;
always @(posedge clk or negedge rst_n)begin
if(rst_n==1'b0)begin
dout0_r1 <= 16'd0;
dout1_r1 <= 16'd0;
end
else if(en)begin
dout0_r1 <= dout0_r0;
dout1_r1 <= dout1_r0;
dout1_r0 <= din;
end
else if(dout0_hold)begin
dout0_r1 <= dout0_r1;
dout1_r1 <= 16'd0;
dout0_r0 <= dout0_r0;
dout1_r0 <= 16'd0;
end
else if(dout1_hold)begin
dout0_r1 <= 16'd0;
dout1_r1 <= dout1_r1;
dout0_r0 <= 16'd0;
dout1_r0 <= dout1_r0;
end
else begin
dout0_r1 <= 16'd0;
dout1_r1 <= 16'd0;
dout0_r0 <= 16'd0;
dout1_r0 <= 16'd0;
end
end
assign dout0_en = add_cnt && cnt == 0;
assign dout1_en = add_cnt && cnt == 1;
assign dout0_hold = en == 0 && en_r1 == 1 && cnt == 1;
assign dout1_hold = en == 0 && en_r1 == 1 && cnt == 0;
reg [ 15: 0] dout0_r2;
always @(posedge clk or negedge rst_n)begin
if(rst_n==1'b0)begin
dout0_r2 <= 16'd0;
end
else begin
dout0_r2 <= dout0_r1;
end
end
sirv_gnrl_dffr #(1) dff_en_1(en , en_r1 ,clk,rst_n);
sirv_gnrl_dffr #(1) dff_en_2(en_r1, en_r2 ,clk,rst_n);
assign vldo = en_r2;
assign dout0 = dout0_r2;
assign dout1 = dout1_r1;
wire [ 15: 0] dout0_r1;
sirv_gnrl_dfflr #(16) dff_dout0_1(1'b1,dout0_r0, dout0_r1 ,clk,rst_n);
assign dout0 = dout0_r1;
assign dout1 = dout1_r0;
endmodule

326
rtl/z_dsp/sirv_gnrl_dffs.v Normal file
View File

@ -0,0 +1,326 @@
/*
Copyright 2018-2020 Nuclei System Technology, Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
//=====================================================================
//
// Designer : Bob Hu
//
// Description:
// All of the general DFF and Latch modules
//
// ====================================================================
//
//
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Load-enable and Reset
// Default reset value is 1
//
// ===========================================================================
`define DISABLE_SV_ASSERTION
`define dly #0.2
module sirv_gnrl_dfflrs # (
parameter DW = 32
) (
input lden,
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk,
input rst_n
);
reg [DW-1:0] qout_r;
always @(posedge clk or negedge rst_n)
begin : DFFLRS_PROC
if (rst_n == 1'b0)
qout_r <= {DW{1'b1}};
else if (lden == 1'b1)
qout_r <= `dly dnxt;
end
assign qout = qout_r;
`ifndef FPGA_SOURCE//{
`ifndef DISABLE_SV_ASSERTION//{
//synopsys translate_off
sirv_gnrl_xchecker # (
.DW(1)
) sirv_gnrl_xchecker(
.i_dat(lden),
.clk (clk)
);
//synopsys translate_on
`endif//}
`endif//}
endmodule
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Load-enable and Reset
// Default reset value is 0
//
// ===========================================================================
module sirv_gnrl_dfflr # (
parameter DW = 32
) (
input lden,
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk,
input rst_n
);
reg [DW-1:0] qout_r;
always @(posedge clk or negedge rst_n)
begin : DFFLR_PROC
if (rst_n == 1'b0)
qout_r <= {DW{1'b0}};
else if (lden == 1'b1)
qout_r <= `dly dnxt;
end
assign qout = qout_r;
`ifndef FPGA_SOURCE//{
`ifndef DISABLE_SV_ASSERTION//{
//synopsys translate_off
sirv_gnrl_xchecker # (
.DW(1)
) sirv_gnrl_xchecker(
.i_dat(lden),
.clk (clk)
);
//synopsys translate_on
`endif//}
`endif//}
endmodule
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Load-enable and Reset
// Default reset value is input
//
// ===========================================================================
module sirv_gnrl_dfflrd # (
parameter DW = 32
) (
input [DW-1:0] init,
input lden,
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk,
input rst_n
);
reg [DW-1:0] qout_r;
always @(posedge clk or negedge rst_n)
begin : DFFLR_PROC
if (rst_n == 1'b0)
qout_r <= init;
else if (lden == 1'b1)
qout_r <= `dly dnxt;
end
assign qout = qout_r;
`ifndef FPGA_SOURCE//{
`ifndef DISABLE_SV_ASSERTION//{
//synopsys translate_off
sirv_gnrl_xchecker # (
.DW(1)
) sirv_gnrl_xchecker(
.i_dat(lden),
.clk (clk)
);
//synopsys translate_on
`endif//}
`endif//}
endmodule
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Load-enable, no reset
//
// ===========================================================================
module sirv_gnrl_dffl # (
parameter DW = 32
) (
input lden,
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk
);
reg [DW-1:0] qout_r;
always @(posedge clk)
begin : DFFL_PROC
if (lden == 1'b1)
qout_r <= `dly dnxt;
end
assign qout = qout_r;
`ifndef FPGA_SOURCE//{
`ifndef DISABLE_SV_ASSERTION//{
//synopsys translate_off
sirv_gnrl_xchecker # (
.DW(1)
) sirv_gnrl_xchecker(
.i_dat(lden),
.clk (clk)
);
//synopsys translate_on
`endif//}
`endif//}
endmodule
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Reset, no load-enable
// Default reset value is 1
//
// ===========================================================================
module sirv_gnrl_dffrs # (
parameter DW = 32
) (
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk,
input rst_n
);
reg [DW-1:0] qout_r;
always @(posedge clk or negedge rst_n)
begin : DFFRS_PROC
if (rst_n == 1'b0)
qout_r <= {DW{1'b1}};
else
qout_r <= `dly dnxt;
end
assign qout = qout_r;
endmodule
// ===========================================================================
//
// Description:
// Verilog module sirv_gnrl DFF with Reset, no load-enable
// Default reset value is 0
//
// ===========================================================================
module sirv_gnrl_dffr # (
parameter DW = 32
) (
input [DW-1:0] dnxt,
output [DW-1:0] qout,
input clk,
input rst_n
);
reg [DW-1:0] qout_r;
always @(posedge clk or negedge rst_n)
begin : DFFR_PROC
if (rst_n == 1'b0)
qout_r <= {DW{1'b0}};
else
qout_r <= `dly dnxt;
end
assign qout = qout_r;
endmodule
// ===========================================================================
//
// Description:
// Verilog module for general latch
//
// ===========================================================================
module sirv_gnrl_ltch # (
parameter DW = 32
) (
//input test_mode,
input lden,
input [DW-1:0] dnxt,
output [DW-1:0] qout
);
reg [DW-1:0] qout_r;
always @ *
begin : LTCH_PROC
if (lden == 1'b1)
qout_r <= dnxt;
end
//assign qout = test_mode ? dnxt : qout_r;
assign qout = qout_r;
`ifndef FPGA_SOURCE//{
`ifndef DISABLE_SV_ASSERTION//{
//synopsys translate_off
always_comb
begin
CHECK_THE_X_VALUE:
assert (lden !== 1'bx)
else $fatal ("\n Error: Oops, detected a X value!!! This should never happen. \n");
end
//synopsys translate_on
`endif//}
`endif//}
endmodule

10
script_m/TailCorr_Test_Verdi.m
View File

@ -2,11 +2,11 @@
clc;clear;close all
% addpath("/data/work/thfu/TailCorr/script_m");
data_source = 'matlab';
file_path = "/home/thfu/work/TailCorr/sim/z_dsp/";
file_path = "/home/thfu/work/TailCorr/sim/";
rng('shuffle');
if strcmp(data_source, 'matlab')
in = floor(cat(1,0,3000*randn(4*2579+4,1)));
in = floor(cat(1,0,30000*ones(4*2579+4,1)));
for i = 0:3
filename = strcat(file_path, "in", num2str(i), "_matlab.dat");
subset = in(i+1:4:end);
@ -33,14 +33,14 @@ end
cs_wave = [];
for i = 0:3
for i = 0:7
filename = strcat(file_path, "dout", num2str(i), ".dat");
dout_data = importdata(filename);
if isempty(cs_wave)
N = length(dout_data);
cs_wave = zeros(4*N, 1);
cs_wave = zeros(8*N, 1);
end
cs_wave(i+1:4:end) = dout_data;
cs_wave(i+1:8:end) = dout_data;
end
A = [0.025 0.015*1 0.0002*1 0];

1
sim/files.f
View File

@ -7,6 +7,7 @@
../rtl/z_dsp/s2p_2.v
../rtl/z_dsp/IIR_Filter_p8.v
../rtl/z_dsp/IIR_Filter_p1.v
../rtl/z_dsp/sirv_gnrl_dffs.v
../rtl/ref/mult_C.v
../rtl/ref/FixRound.v
../rtl/ref/TailCorr_top.v