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-rw-r--r--usrp2/sdr_lib/dsp_core_rx_tb.v8
-rw-r--r--usrp2/sdr_lib/small_hb_dec.v69
2 files changed, 38 insertions, 39 deletions
diff --git a/usrp2/sdr_lib/dsp_core_rx_tb.v b/usrp2/sdr_lib/dsp_core_rx_tb.v
index c3d9882bc..271db8cef 100644
--- a/usrp2/sdr_lib/dsp_core_rx_tb.v
+++ b/usrp2/sdr_lib/dsp_core_rx_tb.v
@@ -31,7 +31,7 @@ module dsp_core_rx_tb();
(.clk(clk),.rst(rst),
.set_stb(set_stb),.set_addr(set_addr),.set_data(set_data),
.adc_i(adc_in), .adc_ovf_i(0),
- .adc_q(adc_in), .adc_ovf_q(0),
+ .adc_q(0), .adc_ovf_q(0),
.sample({adc_out_i,adc_out_q}),
.run(run), .strobe(), .debug());
@@ -49,7 +49,7 @@ module dsp_core_rx_tb();
set_stb <= 1;
@(posedge clk);
set_addr <= 0;
- //set_data <= {32'h000F_7FF9};
+ //set_data <= {32'h0000_0000};
set_data <= {32'h01CA_C083}; // 700 kHz
set_stb <= 1;
@(posedge clk);
@@ -59,8 +59,8 @@ module dsp_core_rx_tb();
end
always @(posedge clk)
- //adc_in <= 18'h1FFFF;
- adc_in <= 18'h20000;
+ //adc_in <= 24'd1000000;
+ adc_in <= 24'h80_0000;
/*
always @(posedge clk)
diff --git a/usrp2/sdr_lib/small_hb_dec.v b/usrp2/sdr_lib/small_hb_dec.v
index 41ecd3e41..a7f93e056 100644
--- a/usrp2/sdr_lib/small_hb_dec.v
+++ b/usrp2/sdr_lib/small_hb_dec.v
@@ -29,21 +29,30 @@ module small_hb_dec
input stb_in,
input [WIDTH-1:0] data_in,
output reg stb_out,
- output [WIDTH-1:0] data_out);
+ output reg [WIDTH-1:0] data_out);
- reg stb_in_d1;
- reg [WIDTH-1:0] data_in_d1;
- always @(posedge clk) stb_in_d1 <= stb_in;
- always @(posedge clk) data_in_d1 <= data_in;
+ // Round off inputs to 17 bits because of 18 bit multipliers
+ localparam INTWIDTH = 17;
+ wire [INTWIDTH-1:0] data_rnd;
+ wire stb_rnd;
+
+ round_sd #(.WIDTH_IN(WIDTH),.WIDTH_OUT(INTWIDTH)) round_in
+ (.clk(clk),.reset(rst),.in(data_in),.strobe_in(stb_in),.out(data_rnd),.strobe_out(stb_rnd));
+
+
+ reg stb_rnd_d1;
+ reg [INTWIDTH-1:0] data_rnd_d1;
+ always @(posedge clk) stb_rnd_d1 <= stb_rnd;
+ always @(posedge clk) data_rnd_d1 <= data_rnd;
wire go;
reg phase, go_d1, go_d2, go_d3, go_d4;
always @(posedge clk)
if(rst | ~run)
phase <= 0;
- else if(stb_in_d1)
+ else if(stb_rnd_d1)
phase <= ~phase;
- assign go = stb_in_d1 & phase;
+ assign go = stb_rnd_d1 & phase;
always @(posedge clk)
if(rst | ~run)
begin
@@ -63,11 +72,11 @@ module small_hb_dec
wire [17:0] coeff_a = -10690;
wire [17:0] coeff_b = 75809;
- reg [WIDTH-1:0] d1, d2, d3, d4 , d5, d6;
+ reg [INTWIDTH-1:0] d1, d2, d3, d4 , d5, d6;
always @(posedge clk)
- if(stb_in_d1 | rst)
+ if(stb_rnd_d1 | rst)
begin
- d1 <= data_in_d1;
+ d1 <= data_rnd_d1;
d2 <= d1;
d3 <= d2;
d4 <= d3;
@@ -76,16 +85,14 @@ module small_hb_dec
end
reg [17:0] sum_a, sum_b, middle, middle_d1;
- wire [17:0] sum_a_unreg, sum_b_unreg;
- add2 #(.WIDTH(18)) add2_a (.in1(data_in_d1),.in2(d6),.sum(sum_a_unreg));
- add2 #(.WIDTH(18)) add2_b (.in1(d2),.in2(d4),.sum(sum_b_unreg));
-
+
always @(posedge clk)
if(go)
begin
- sum_a <= sum_a_unreg;
- sum_b <= sum_b_unreg;
- middle <= d3;
+ sum_a <= {data_rnd_d1[INTWIDTH-1],data_rnd_d1} + {d6[INTWIDTH-1],d6};
+ sum_b <= {d2[INTWIDTH-1],d2} + {d4[INTWIDTH-1],d4};
+ //middle <= {d3[INTWIDTH-1],d3};
+ middle <= {d3,1'b0};
end
always @(posedge clk)
@@ -106,30 +113,22 @@ module small_hb_dec
else if(go_d3)
accum <= accum + {prod};
- wire [18:0] accum_rnd;
- wire [17:0] accum_rnd_clip;
+ wire [WIDTH:0] accum_rnd;
+ wire [WIDTH-1:0] accum_rnd_clip;
wire stb_round;
- round_sd #(.WIDTH_IN(25),.WIDTH_OUT(19)) round_acc
- (.clk(clk), .reset(rst), .in(accum[35:11]), .strobe_in(go_d4), .out(accum_rnd), .strobe_out(stb_round));
+ round_sd #(.WIDTH_IN(36),.WIDTH_OUT(WIDTH+1)) round_acc
+ (.clk(clk), .reset(rst), .in(accum), .strobe_in(go_d4), .out(accum_rnd), .strobe_out(stb_round));
- clip #(.bits_in(19),.bits_out(18)) clip (.in(accum_rnd), .out(accum_rnd_clip));
+ clip #(.bits_in(WIDTH+1),.bits_out(WIDTH)) clip (.in(accum_rnd), .out(accum_rnd_clip));
- reg [17:0] final_sum;
+ // Output
always @(posedge clk)
- if(bypass)
- final_sum <= data_in_d1;
- else if(stb_round)
- final_sum <= accum_rnd_clip;
+ begin
+ stb_out <= bypass ? stb_in : stb_round;
+ data_out <= bypass ? data_in : accum_rnd_clip;
+ end
- assign data_out = final_sum;
- always @(posedge clk)
- if(rst)
- stb_out <= 0;
- else if(bypass)
- stb_out <= stb_in_d1;
- else
- stb_out <= stb_round;
endmodule // small_hb_dec