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-rw-r--r--fpga/usrp2/sdr_lib/med_hb_int.v95
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diff --git a/fpga/usrp2/sdr_lib/med_hb_int.v b/fpga/usrp2/sdr_lib/med_hb_int.v
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+// Medium halfband decimator (intended to be followed by another stage)
+// Implements impulse responses of the form [A 0 B 0 C 0 D 0.5 D 0 C 0 B 0 A]
+//
+// These taps designed by halfgen_test:
+// 2 * 131072 * halfgen_test(.8/8,4,1)
+// -597, 0, 4283, 0, -17516, 0, 79365, 131072, 79365, 0, -17516, 0, 4283, 0, -597
+
+
+module med_hb_int
+ #(parameter WIDTH=18)
+ (input clk,
+ input rst,
+ input bypass,
+ input stb_in,
+ input [WIDTH-1:0] data_in,
+ input [7:0] output_rate,
+ input stb_out,
+ output reg [WIDTH-1:0] data_out);
+
+ localparam coeff_a = -597;
+ localparam coeff_b = 4283;
+ localparam coeff_c = -17516;
+ localparam coeff_d = 79365;
+
+ reg phase;
+ reg [WIDTH-1:0] d1, d2, d3, d4, d5, d6, d7, d8;
+
+ localparam MWIDTH = 36;
+ wire [MWIDTH-1:0] prod;
+
+ reg [6:0] stbin_d;
+
+ always @(posedge clk)
+ stbin_d <= {stbin_d[5:0],stb_in};
+
+ always @(posedge clk)
+ if(stb_in)
+ begin
+ d1 <= data_in;
+ d2 <= d1;
+ d3 <= d2;
+ d4 <= d3;
+ d5 <= d4;
+ d6 <= d5;
+ d7 <= d6;
+ d8 <= d7;
+ end
+
+ wire [WIDTH-1:0] sum_a, sum_b, sum_c, sum_d;
+ add2_and_round_reg #(.WIDTH(WIDTH)) add_a (.clk(clk),.in1(d1),.in2(d8),.sum(sum_a));
+ add2_and_round_reg #(.WIDTH(WIDTH)) add_b (.clk(clk),.in1(d2),.in2(d7),.sum(sum_b));
+ add2_and_round_reg #(.WIDTH(WIDTH)) add_c (.clk(clk),.in1(d3),.in2(d6),.sum(sum_c));
+ add2_and_round_reg #(.WIDTH(WIDTH)) add_d (.clk(clk),.in1(d4),.in2(d5),.sum(sum_d));
+
+ MULT18X18S mult1(.C(clk), .CE(1), .R(rst), .P(prod1), .A(stbin_d[1] ? coeff_a : coeff_b),
+ .B(stbin_d[1] ? sum_a : sum_b) );
+ MULT18X18S mult2(.C(clk), .CE(1), .R(rst), .P(prod2), .A(stbin_d[1] ? coeff_c : coeff_d),
+ .B(stbin_d[1] ? sum_c : sum_d) );
+
+ wire [MWIDTH:0] accum;
+ acc #(.IWIDTH(MWIDTH),.OWIDTH(MWIDTH+1))
+ acc (.clk(clk),.clear(stbin_d[2]),.acc(|stbin_d[3:2]),.in(prod),.out(accum));
+
+ wire [WIDTH+2:0] accum_rnd;
+ round_reg #(.bits_in(MWIDTH+1),.bits_out(WIDTH+3))
+ final_round (.clk(clk),.in(accum),.out(accum_rnd));
+
+ wire [WIDTH-1:0] clipped;
+ clip_reg #(.bits_in(WIDTH+3),.bits_out(WIDTH))
+ final_clip (.clk(clk),.in(accum_rnd),.out(clipped));
+
+ reg [WIDTH-1:0] saved, saved_d3;
+ always @(posedge clk)
+ if(stbin_d[6])
+ saved <= clipped;
+
+ always @(posedge clk)
+ if(stbin_d[3])
+ saved_d3 <= d3;
+
+ always @(posedge clk)
+ if(bypass)
+ data_out <= data_in;
+ else if(stb_in & stb_out)
+ case(output_rate)
+ 1 : data_out <= d6;
+ 2 : data_out <= d4;
+ 3, 4, 5, 6, 7 : data_out <= d3;
+ default : data_out <= d2;
+ endcase // case(output_rate)
+ else if(stb_out)
+ data_out <= saved;
+
+endmodule // small_hb_int
+