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authorJosh Blum <josh@joshknows.com>2012-02-10 12:13:51 -0800
committerJosh Blum <josh@joshknows.com>2012-02-10 12:13:51 -0800
commit6d45600ada785cb50a01a17dcddf561d12501d22 (patch)
treec223f87aebf64f305b4bfe83e0ce799d01dad59a /usrp2
parent34db74740704ce2de2a71447b3d202e9c4be800b (diff)
downloaduhd-6d45600ada785cb50a01a17dcddf561d12501d22.tar.gz
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dsp rework: pass enables into glue, update power trig, parameterize, fix module inc
DSP enables now pass through the glue and custom modules so it can be user-controlled. Updated power trigger to current spec, and added comments Pass width from dsp into glue, and use width to parameterize wires Fix custom module includes so they will build
Diffstat (limited to 'usrp2')
-rw-r--r--usrp2/custom/custom_dsp_rx.v2
-rw-r--r--usrp2/custom/custom_dsp_tx.v2
-rw-r--r--usrp2/custom/power_trig.v83
-rw-r--r--usrp2/sdr_lib/ddc_chain.v94
-rw-r--r--usrp2/sdr_lib/dsp_rx_glue.v11
-rw-r--r--usrp2/sdr_lib/dsp_tx_glue.v11
-rw-r--r--usrp2/sdr_lib/duc_chain.v37
-rw-r--r--usrp2/vrt/vita_rx_engine_glue.v4
-rw-r--r--usrp2/vrt/vita_tx_engine_glue.v4
9 files changed, 145 insertions, 103 deletions
diff --git a/usrp2/custom/custom_dsp_rx.v b/usrp2/custom/custom_dsp_rx.v
index 2ceda7481..355adf008 100644
--- a/usrp2/custom/custom_dsp_rx.v
+++ b/usrp2/custom/custom_dsp_rx.v
@@ -55,6 +55,7 @@ module custom_dsp_rx
//strobed samples {I16,Q16} from the RX DDC chain
input [31:0] ddc_out_sample,
input ddc_out_strobe, //high on valid sample
+ output ddc_out_enable, //enables DDC module
//strobbed baseband samples {I16,Q16} from this module
output [31:0] bb_sample,
@@ -65,5 +66,6 @@ module custom_dsp_rx
assign ddc_in_q = frontend_q;
assign bb_sample = ddc_out_sample;
assign bb_strobe = ddc_out_strobe;
+ assign ddc_out_enable = enable;
endmodule //custom_dsp_rx
diff --git a/usrp2/custom/custom_dsp_tx.v b/usrp2/custom/custom_dsp_tx.v
index 5206a63a6..0848a187f 100644
--- a/usrp2/custom/custom_dsp_tx.v
+++ b/usrp2/custom/custom_dsp_tx.v
@@ -55,6 +55,7 @@ module custom_dsp_tx
//strobed samples {I16,Q16} to the TX DUC chain
output [31:0] duc_in_sample,
input duc_in_strobe, //this is a backpressure signal
+ output duc_in_enable, //enables DUC module
//strobbed baseband samples {I16,Q16} to this module
input [31:0] bb_sample,
@@ -65,5 +66,6 @@ module custom_dsp_tx
assign frontend_q = duc_out_q;
assign duc_in_sample = bb_sample;
assign bb_strobe = duc_in_strobe;
+ assign duc_in_enable = enable;
endmodule //custom_dsp_tx
diff --git a/usrp2/custom/power_trig.v b/usrp2/custom/power_trig.v
index ca213e901..b38059030 100644
--- a/usrp2/custom/power_trig.v
+++ b/usrp2/custom/power_trig.v
@@ -15,41 +15,56 @@
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
-//CUSTOMIZE ME!
+// This a power trigger module implemented on top of the custom dsp template.
+// Power triggering is implemented after the existing DDC chain.
+// Triggering is controlled via user settings registers.
-//The following module effects the IO of the DDC chain.
-//By default, this entire module is a simple pass-through.
-
-//To implement DSP logic before the DDC:
-//Implement custom DSP between frontend and ddc input.
-
-//To implement DSP logic after the DDC:
-//Implement custom DSP between ddc output and baseband.
-
-//To bypass the DDC with custom logic:
-//Implement custom DSP between frontend and baseband.
+// Register 0:
+// threshold for power trigger
+// 32 bit unsigned fixed-point number of some arbitrary scaling
module power_trig
- #(parameter BASE=0)
- (//control signals
- input clk, input reset, input enable,
-
- // Setting Bus
+#(
+ //frontend bus width
+ parameter WIDTH = 24,
+ parameter BASE = 0
+)
+(
+ //control signals
+ input clock, //dsp clock
+ input reset, //active high synchronous reset
+ input clear, //active high on packet control init
+ input enable, //active high when streaming enabled
+
+ //user settings bus, controlled through user setting regs API
input set_stb, input [7:0] set_addr, input [31:0] set_data,
- input run,
-
+ //full rate inputs directly from the RX frontend
+ input [WIDTH-1:0] frontend_i,
+ input [WIDTH-1:0] frontend_q,
+
+ //full rate outputs directly to the DDC chain
+ output [WIDTH-1:0] ddc_in_i,
+ output [WIDTH-1:0] ddc_in_q,
+
//strobed samples {I16,Q16} from the RX DDC chain
input [31:0] ddc_out_sample,
input ddc_out_strobe, //high on valid sample
+ output ddc_out_enable, //enables DDC module
- //strobed baseband samples {I16,Q16} from this module
+ //strobbed baseband samples {I16,Q16} from this module
output [31:0] bb_sample,
- output bb_strobe, //high on valid sample
+ output bb_strobe //high on valid sample
+);
+
+ //leave frontend tied to existing ddc chain
+ assign ddc_in_i = frontend_i;
+ assign ddc_in_q = frontend_q;
+
+ //ddc enable remains tied to global enable
+ assign ddc_out_enable = enable;
- //debug output (optional)
- output [31:0] debug
- );
+ //below we implement a power trigger between baseband samples and ddc output...
reg [8:0] wr_addr;
wire [8:0] rd_addr;
@@ -69,23 +84,23 @@ module power_trig
(.clka(clk),.ena(1),.wea(ddc_out_strobe),.addra(wr_addr),.dia(ddc_out_sample),.doa(),
.clkb(clk),.enb(ddc_out_strobe),.web(1'b0),.addrb(rd_addr),.dib(32'hFFFF),.dob(delayed_sample));
- always @(posedge clk)
- if(reset | ~run)
+ always @(posedge clock)
+ if(reset | ~enable)
wr_addr <= 0;
else
if(ddc_out_strobe)
wr_addr <= wr_addr + 1;
- always @(posedge clk)
- if(reset | ~run)
+ always @(posedge clock)
+ if(reset | ~enable)
triggerable <= 0;
else if(wr_addr == 9'h1FF) // Wait till we're nearly full
triggerable <= 1;
reg stb_d1, stb_d2;
- always @(posedge clk) stb_d1 <= ddc_out_strobe;
- always @(posedge clk) stb_d2 <= stb_d1;
+ always @(posedge clock) stb_d1 <= ddc_out_strobe;
+ always @(posedge clock) stb_d2 <= stb_d1;
assign bb_sample = delayed_sample;
assign bb_strobe = stb_d1 & triggered;
@@ -96,16 +111,16 @@ module power_trig
wire [35:0] prod;
reg [31:0] sum;
- MULT18X18S mult (.P(prod), .A(mult_in), .B(mult_in), .C(clk), .CE(ddc_out_strobe | stb_d1), .R(reset) );
+ MULT18X18S mult (.P(prod), .A(mult_in), .B(mult_in), .C(clock), .CE(ddc_out_strobe | stb_d1), .R(reset) );
- always @(posedge clk)
+ always @(posedge clock)
if(stb_d1)
sum <= prod[35:4];
else if(stb_d2)
sum <= sum + prod[35:4];
- always @(posedge clk)
- if(reset | ~run | ~triggerable)
+ always @(posedge clock)
+ if(reset | ~enable | ~triggerable)
triggered <= 0;
else if(trigger)
triggered <= 1;
diff --git a/usrp2/sdr_lib/ddc_chain.v b/usrp2/sdr_lib/ddc_chain.v
index 800bb5b13..c32c9f491 100644
--- a/usrp2/sdr_lib/ddc_chain.v
+++ b/usrp2/sdr_lib/ddc_chain.v
@@ -18,14 +18,18 @@
//! The USRP digital down-conversion chain
module ddc_chain
- #(parameter BASE = 0, parameter DSPNO = 0)
+ #(
+ parameter BASE = 0,
+ parameter DSPNO = 0,
+ parameter WIDTH = 24
+ )
(input clk, input rst, input clr,
input set_stb, input [7:0] set_addr, input [31:0] set_data,
input set_stb_user, input [7:0] set_addr_user, input [31:0] set_data_user,
// From RX frontend
- input [23:0] rx_fe_i,
- input [23:0] rx_fe_q,
+ input [WIDTH-1:0] rx_fe_i,
+ input [WIDTH-1:0] rx_fe_q,
// To RX control
output [31:0] sample,
@@ -34,21 +38,25 @@ module ddc_chain
output [31:0] debug
);
+ localparam cwidth = 25;
+ localparam zwidth = 24;
+
+ wire ddc_enb;
wire [31:0] phase_inc;
reg [31:0] phase;
wire [17:0] scale_factor;
- wire [24:0] i_cordic, q_cordic;
- wire [23:0] i_cordic_clip, q_cordic_clip;
- wire [23:0] i_cic, q_cic;
- wire [23:0] i_hb1, q_hb1;
- wire [23:0] i_hb2, q_hb2;
+ wire [cwidth-1:0] i_cordic, q_cordic;
+ wire [WIDTH-1:0] i_cordic_clip, q_cordic_clip;
+ wire [WIDTH-1:0] i_cic, q_cic;
+ wire [WIDTH-1:0] i_hb1, q_hb1;
+ wire [WIDTH-1:0] i_hb2, q_hb2;
wire strobe_cic, strobe_hb1, strobe_hb2;
wire enable_hb1, enable_hb2;
wire [7:0] cic_decim_rate;
- reg [23:0] rx_fe_i_mux, rx_fe_q_mux;
+ reg [WIDTH-1:0] rx_fe_i_mux, rx_fe_q_mux;
wire realmode;
wire swap_iq;
@@ -74,103 +82,107 @@ module ddc_chain
if(swap_iq)
begin
rx_fe_i_mux <= rx_fe_q;
- rx_fe_q_mux <= realmode ? 24'd0 : rx_fe_i;
+ rx_fe_q_mux <= realmode ? 0 : rx_fe_i;
end
else
begin
rx_fe_i_mux <= rx_fe_i;
- rx_fe_q_mux <= realmode ? 24'd0 : rx_fe_q;
+ rx_fe_q_mux <= realmode ? 0 : rx_fe_q;
end
// NCO
always @(posedge clk)
if(rst)
phase <= 0;
- else if(~run)
+ else if(~ddc_enb)
phase <= 0;
else
phase <= phase + phase_inc;
- wire [23:0] to_cordic_i, to_cordic_q;
+ //sign extension of cordic input
+ wire [WIDTH-1:0] to_ddc_chain_i, to_ddc_chain_q;
+ wire [cwidth-1:0] to_cordic_i, to_cordic_q;
+ sign_extend #(.bits_in(WIDTH), .bits_out(cwidth)) sign_extend_cordic_i (.in(to_ddc_chain_i), .out(to_cordic_i));
+ sign_extend #(.bits_in(WIDTH), .bits_out(cwidth)) sign_extend_cordic_q (.in(to_ddc_chain_q), .out(to_cordic_q));
// CORDIC 24-bit I/O
- cordic_z24 #(.bitwidth(25))
- cordic(.clock(clk), .reset(rst), .enable(run),
- .xi({to_cordic_i[23],to_cordic_i}),. yi({to_cordic_q[23],to_cordic_q}), .zi(phase[31:8]),
+ cordic_z24 #(.bitwidth(cwidth))
+ cordic(.clock(clk), .reset(rst), .enable(ddc_enb),
+ .xi(to_cordic_i),. yi(to_cordic_q), .zi(phase[31:32-zwidth]),
.xo(i_cordic),.yo(q_cordic),.zo() );
- clip_reg #(.bits_in(25), .bits_out(24)) clip_i
+ clip_reg #(.bits_in(cwidth), .bits_out(WIDTH)) clip_i
(.clk(clk), .in(i_cordic), .strobe_in(1'b1), .out(i_cordic_clip));
- clip_reg #(.bits_in(25), .bits_out(24)) clip_q
+ clip_reg #(.bits_in(cwidth), .bits_out(WIDTH)) clip_q
(.clk(clk), .in(q_cordic), .strobe_in(1'b1), .out(q_cordic_clip));
// CIC decimator 24 bit I/O
- cic_strober cic_strober(.clock(clk),.reset(rst),.enable(run),.rate(cic_decim_rate),
+ cic_strober cic_strober(.clock(clk),.reset(rst),.enable(ddc_enb),.rate(cic_decim_rate),
.strobe_fast(1),.strobe_slow(strobe_cic) );
- cic_decim #(.bw(24))
- decim_i (.clock(clk),.reset(rst),.enable(run),
+ cic_decim #(.bw(WIDTH))
+ decim_i (.clock(clk),.reset(rst),.enable(ddc_enb),
.rate(cic_decim_rate),.strobe_in(1'b1),.strobe_out(strobe_cic),
.signal_in(i_cordic_clip),.signal_out(i_cic));
- cic_decim #(.bw(24))
- decim_q (.clock(clk),.reset(rst),.enable(run),
+ cic_decim #(.bw(WIDTH))
+ decim_q (.clock(clk),.reset(rst),.enable(ddc_enb),
.rate(cic_decim_rate),.strobe_in(1'b1),.strobe_out(strobe_cic),
.signal_in(q_cordic_clip),.signal_out(q_cic));
// First (small) halfband 24 bit I/O
- small_hb_dec #(.WIDTH(24)) small_hb_i
- (.clk(clk),.rst(rst),.bypass(~enable_hb1),.run(run),
+ small_hb_dec #(.WIDTH(WIDTH)) small_hb_i
+ (.clk(clk),.rst(rst),.bypass(~enable_hb1),.run(ddc_enb),
.stb_in(strobe_cic),.data_in(i_cic),.stb_out(strobe_hb1),.data_out(i_hb1));
- small_hb_dec #(.WIDTH(24)) small_hb_q
- (.clk(clk),.rst(rst),.bypass(~enable_hb1),.run(run),
+ small_hb_dec #(.WIDTH(WIDTH)) small_hb_q
+ (.clk(clk),.rst(rst),.bypass(~enable_hb1),.run(ddc_enb),
.stb_in(strobe_cic),.data_in(q_cic),.stb_out(),.data_out(q_hb1));
// Second (large) halfband 24 bit I/O
wire [8:0] cpi_hb = enable_hb1 ? {cic_decim_rate,1'b0} : {1'b0,cic_decim_rate};
- hb_dec #(.WIDTH(24)) hb_i
- (.clk(clk),.rst(rst),.bypass(~enable_hb2),.run(run),.cpi(cpi_hb),
+ hb_dec #(.WIDTH(WIDTH)) hb_i
+ (.clk(clk),.rst(rst),.bypass(~enable_hb2),.run(ddc_enb),.cpi(cpi_hb),
.stb_in(strobe_hb1),.data_in(i_hb1),.stb_out(strobe_hb2),.data_out(i_hb2));
- hb_dec #(.WIDTH(24)) hb_q
- (.clk(clk),.rst(rst),.bypass(~enable_hb2),.run(run),.cpi(cpi_hb),
+ hb_dec #(.WIDTH(WIDTH)) hb_q
+ (.clk(clk),.rst(rst),.bypass(~enable_hb2),.run(ddc_enb),.cpi(cpi_hb),
.stb_in(strobe_hb1),.data_in(q_hb1),.stb_out(),.data_out(q_hb2));
//scalar operation (gain of 6 bits)
wire [35:0] prod_i, prod_q;
MULT18X18S mult_i
- (.P(prod_i), .A(i_hb2[23:6]), .B(scale_factor), .C(clk), .CE(strobe_hb2), .R(rst) );
+ (.P(prod_i), .A(i_hb2[WIDTH-1:WIDTH-18]), .B(scale_factor), .C(clk), .CE(strobe_hb2), .R(rst) );
MULT18X18S mult_q
- (.P(prod_q), .A(q_hb2[23:6]), .B(scale_factor), .C(clk), .CE(strobe_hb2), .R(rst) );
+ (.P(prod_q), .A(q_hb2[WIDTH-1:WIDTH-18]), .B(scale_factor), .C(clk), .CE(strobe_hb2), .R(rst) );
//pipeline for the multiplier (gain of 10 bits)
- reg [23:0] prod_reg_i, prod_reg_q;
+ reg [WIDTH-1:0] prod_reg_i, prod_reg_q;
reg strobe_mult;
always @(posedge clk) begin
strobe_mult <= strobe_hb2;
- prod_reg_i <= prod_i[33:10];
- prod_reg_q <= prod_q[33:10];
+ prod_reg_i <= prod_i[33:34-WIDTH];
+ prod_reg_q <= prod_q[33:34-WIDTH];
end
// Round final answer to 16 bits
wire [31:0] ddc_chain_out;
wire ddc_chain_stb;
- round_sd #(.WIDTH_IN(24),.WIDTH_OUT(16)) round_i
+ round_sd #(.WIDTH_IN(WIDTH),.WIDTH_OUT(16)) round_i
(.clk(clk),.reset(rst), .in(prod_reg_i),.strobe_in(strobe_mult), .out(ddc_chain_out[31:16]), .strobe_out(ddc_chain_stb));
- round_sd #(.WIDTH_IN(24),.WIDTH_OUT(16)) round_q
+ round_sd #(.WIDTH_IN(WIDTH),.WIDTH_OUT(16)) round_q
(.clk(clk),.reset(rst), .in(prod_reg_q),.strobe_in(strobe_mult), .out(ddc_chain_out[15:0]), .strobe_out());
- dsp_rx_glue #(.DSPNO(DSPNO)) custom(
+ dsp_rx_glue #(.DSPNO(DSPNO), .WIDTH(WIDTH)) custom(
.clock(clk), .reset(rst), .clear(clr), .enable(run),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.frontend_i(rx_fe_i_mux), .frontend_q(rx_fe_q_mux),
- .ddc_in_i(to_cordic_i), .ddc_in_q(to_cordic_q),
- .ddc_out_sample(ddc_chain_out), .ddc_out_strobe(ddc_chain_stb),
+ .ddc_in_i(to_ddc_chain_i), .ddc_in_q(to_ddc_chain_q),
+ .ddc_out_sample(ddc_chain_out), .ddc_out_strobe(ddc_chain_stb), .ddc_out_enable(ddc_enb),
.bb_sample(sample), .bb_strobe(strobe));
assign debug = {enable_hb1, enable_hb2, run, strobe, strobe_cic, strobe_hb1, strobe_hb2};
diff --git a/usrp2/sdr_lib/dsp_rx_glue.v b/usrp2/sdr_lib/dsp_rx_glue.v
index e2a1d52b1..038a67a29 100644
--- a/usrp2/sdr_lib/dsp_rx_glue.v
+++ b/usrp2/sdr_lib/dsp_rx_glue.v
@@ -44,6 +44,7 @@ module dsp_rx_glue
//strobed samples {I16,Q16} from the RX DDC chain
input [31:0] ddc_out_sample,
input ddc_out_strobe, //high on valid sample
+ output ddc_out_enable, //enables DDC module
//strobbed baseband samples {I16,Q16} from this module
output [31:0] bb_sample,
@@ -60,14 +61,15 @@ module dsp_rx_glue
assign ddc_in_q = frontend_q;
assign bb_sample = ddc_out_sample;
assign bb_strobe = ddc_out_strobe;
+ assign ddc_out_enable = enable;
`else
- RX_DSP0_MODULE rx_dsp0_custom
+ `RX_DSP0_MODULE #(.WIDTH(WIDTH)) rx_dsp0_custom
(
.clock(clock), .reset(reset), .clear(clear), .enable(enable),
.set_stb(set_stb), .set_addr(set_addr), .set_data(set_data),
.frontend_i(frontend_i), .frontend_q(frontend_q),
.ddc_in_i(ddc_in_i), .ddc_in_q(ddc_in_q),
- .ddc_out_sample(ddc_out_sample), .ddc_out_strobe(ddc_out_strobe),
+ .ddc_out_sample(ddc_out_sample), .ddc_out_strobe(ddc_out_strobe), .ddc_out_enable(ddc_out_enable),
.bb_sample(bb_sample), .bb_strobe(bb_strobe)
);
`endif
@@ -78,14 +80,15 @@ module dsp_rx_glue
assign ddc_in_q = frontend_q;
assign bb_sample = ddc_out_sample;
assign bb_strobe = ddc_out_strobe;
+ assign ddc_out_enable = enable;
`else
- RX_DSP1_MODULE rx_dsp1_custom
+ `RX_DSP1_MODULE #(.WIDTH(WIDTH)) rx_dsp1_custom
(
.clock(clock), .reset(reset), .clear(clear), .enable(enable),
.set_stb(set_stb), .set_addr(set_addr), .set_data(set_data),
.frontend_i(frontend_i), .frontend_q(frontend_q),
.ddc_in_i(ddc_in_i), .ddc_in_q(ddc_in_q),
- .ddc_out_sample(ddc_out_sample), .ddc_out_strobe(ddc_out_strobe),
+ .ddc_out_sample(ddc_out_sample), .ddc_out_strobe(ddc_out_strobe), .ddc_out_enable(ddc_out_enable),
.bb_sample(bb_sample), .bb_strobe(bb_strobe)
);
`endif
diff --git a/usrp2/sdr_lib/dsp_tx_glue.v b/usrp2/sdr_lib/dsp_tx_glue.v
index 9af13c6c1..46f6789ee 100644
--- a/usrp2/sdr_lib/dsp_tx_glue.v
+++ b/usrp2/sdr_lib/dsp_tx_glue.v
@@ -44,6 +44,7 @@ module dsp_tx_glue
//strobed samples {I16,Q16} to the TX DUC chain
output [31:0] duc_in_sample,
input duc_in_strobe, //this is a backpressure signal
+ output duc_in_enable, //enables DUC module
//strobbed baseband samples {I16,Q16} to this module
input [31:0] bb_sample,
@@ -60,14 +61,15 @@ module dsp_tx_glue
assign frontend_q = duc_out_q;
assign duc_in_sample = bb_sample;
assign bb_strobe = duc_in_strobe;
+ assign duc_in_enable = enable;
`else
- TX_DSP0_MODULE tx_dsp0_custom
+ `TX_DSP0_MODULE #(.WIDTH(WIDTH)) tx_dsp0_custom
(
.clock(clock), .reset(reset), .clear(clear), .enable(enable),
.set_stb(set_stb), .set_addr(set_addr), .set_data(set_data),
.frontend_i(frontend_i), .frontend_q(frontend_q),
.duc_out_i(duc_out_i), .duc_out_q(duc_out_q),
- .duc_in_sample(duc_in_sample), .duc_in_strobe(duc_in_strobe),
+ .duc_in_sample(duc_in_sample), .duc_in_strobe(duc_in_strobe), .duc_in_enable(duc_in_enable),
.bb_sample(bb_sample), .bb_strobe(bb_strobe)
);
`endif
@@ -78,14 +80,15 @@ module dsp_tx_glue
assign frontend_q = duc_out_q;
assign duc_in_sample = bb_sample;
assign bb_strobe = duc_in_strobe;
+ assign duc_in_enable = enable;
`else
- TX_DSP1_MODULE tx_dsp1_custom
+ `TX_DSP1_MODULE #(.WIDTH(WIDTH)) tx_dsp1_custom
(
.clock(clock), .reset(reset), .clear(clear), .enable(enable),
.set_stb(set_stb), .set_addr(set_addr), .set_data(set_data),
.frontend_i(frontend_i), .frontend_q(frontend_q),
.duc_out_i(duc_out_i), .duc_out_q(duc_out_q),
- .duc_in_sample(duc_in_sample), .duc_in_strobe(duc_in_strobe),
+ .duc_in_sample(duc_in_sample), .duc_in_strobe(duc_in_strobe), .duc_in_enable(duc_in_enable),
.bb_sample(bb_sample), .bb_strobe(bb_strobe)
);
`endif
diff --git a/usrp2/sdr_lib/duc_chain.v b/usrp2/sdr_lib/duc_chain.v
index 7a72903a6..bd3402a1f 100644
--- a/usrp2/sdr_lib/duc_chain.v
+++ b/usrp2/sdr_lib/duc_chain.v
@@ -18,14 +18,18 @@
//! The USRP digital up-conversion chain
module duc_chain
- #(parameter BASE = 0, parameter DSPNO = 0)
+ #(
+ parameter BASE = 0,
+ parameter DSPNO = 0,
+ parameter WIDTH = 24
+ )
(input clk, input rst, input clr,
input set_stb, input [7:0] set_addr, input [31:0] set_data,
input set_stb_user, input [7:0] set_addr_user, input [31:0] set_data_user,
// To TX frontend
- output [23:0] tx_fe_i,
- output [23:0] tx_fe_q,
+ output [WIDTH-1:0] tx_fe_i,
+ output [WIDTH-1:0] tx_fe_q,
// From TX control
input [31:0] sample,
@@ -34,6 +38,7 @@ module duc_chain
output [31:0] debug
);
+ wire duc_enb;
wire [17:0] scale_factor;
wire [31:0] phase_inc;
reg [31:0] phase;
@@ -61,13 +66,13 @@ module duc_chain
reg strobe_hb2 = 1;
cic_strober #(.WIDTH(8))
- cic_strober(.clock(clk),.reset(rst),.enable(run & ~rate_change),.rate(interp_rate),
+ cic_strober(.clock(clk),.reset(rst),.enable(duc_enb & ~rate_change),.rate(interp_rate),
.strobe_fast(1),.strobe_slow(strobe_cic_pre) );
cic_strober #(.WIDTH(2))
- hb2_strober(.clock(clk),.reset(rst),.enable(run & ~rate_change),.rate(enable_hb2 ? 2 : 1),
+ hb2_strober(.clock(clk),.reset(rst),.enable(duc_enb & ~rate_change),.rate(enable_hb2 ? 2 : 1),
.strobe_fast(strobe_cic_pre),.strobe_slow(strobe_hb2_pre) );
cic_strober #(.WIDTH(2))
- hb1_strober(.clock(clk),.reset(rst),.enable(run & ~rate_change),.rate(enable_hb1 ? 2 : 1),
+ hb1_strober(.clock(clk),.reset(rst),.enable(duc_enb & ~rate_change),.rate(enable_hb1 ? 2 : 1),
.strobe_fast(strobe_hb2_pre),.strobe_slow(strobe_hb1_pre) );
always @(posedge clk) strobe_hb1 <= strobe_hb1_pre;
@@ -78,7 +83,7 @@ module duc_chain
always @(posedge clk)
if(rst)
phase <= 0;
- else if(~run)
+ else if(~duc_enb)
phase <= 0;
else
phase <= phase + phase_inc;
@@ -96,9 +101,9 @@ module duc_chain
// Note that max CIC rate is 128, which would give an overflow on cpo if enable_hb2 is true,
// but the default case inside hb_interp handles this
- hb_interp #(.IWIDTH(18),.OWIDTH(18),.ACCWIDTH(24)) hb_interp_i
+ hb_interp #(.IWIDTH(18),.OWIDTH(18),.ACCWIDTH(WIDTH)) hb_interp_i
(.clk(clk),.rst(rst),.bypass(~enable_hb1),.cpo(cpo),.stb_in(strobe_hb1),.data_in({bb_i, 2'b0}),.stb_out(strobe_hb2),.data_out(hb1_i));
- hb_interp #(.IWIDTH(18),.OWIDTH(18),.ACCWIDTH(24)) hb_interp_q
+ hb_interp #(.IWIDTH(18),.OWIDTH(18),.ACCWIDTH(WIDTH)) hb_interp_q
(.clk(clk),.rst(rst),.bypass(~enable_hb1),.cpo(cpo),.stb_in(strobe_hb1),.data_in({bb_q, 2'b0}),.stb_out(strobe_hb2),.data_out(hb1_q));
small_hb_int #(.WIDTH(18)) small_hb_interp_i
@@ -109,22 +114,22 @@ module duc_chain
.output_rate(interp_rate),.stb_out(strobe_cic),.data_out(hb2_q));
cic_interp #(.bw(18),.N(4),.log2_of_max_rate(7))
- cic_interp_i(.clock(clk),.reset(rst),.enable(run & ~rate_change),.rate(interp_rate),
+ cic_interp_i(.clock(clk),.reset(rst),.enable(duc_enb & ~rate_change),.rate(interp_rate),
.strobe_in(strobe_cic),.strobe_out(1),
.signal_in(hb2_i),.signal_out(i_interp));
cic_interp #(.bw(18),.N(4),.log2_of_max_rate(7))
- cic_interp_q(.clock(clk),.reset(rst),.enable(run & ~rate_change),.rate(interp_rate),
+ cic_interp_q(.clock(clk),.reset(rst),.enable(duc_enb & ~rate_change),.rate(interp_rate),
.strobe_in(strobe_cic),.strobe_out(1),
.signal_in(hb2_q),.signal_out(q_interp));
- localparam cwidth = 24; // was 18
+ localparam cwidth = WIDTH; // was 18
localparam zwidth = 24; // was 16
wire [cwidth-1:0] da_c, db_c;
cordic_z24 #(.bitwidth(cwidth))
- cordic(.clock(clk), .reset(rst), .enable(run),
+ cordic(.clock(clk), .reset(rst), .enable(duc_enb),
.xi({i_interp,{(cwidth-18){1'b0}}}),.yi({q_interp,{(cwidth-18){1'b0}}}),
.zi(phase[31:32-zwidth]),
.xo(da_c),.yo(db_c),.zo() );
@@ -147,12 +152,12 @@ module duc_chain
.R(rst) // Synchronous reset input
);
- dsp_tx_glue #(.DSPNO(DSPNO)) dsp_tx_glue(
+ dsp_tx_glue #(.DSPNO(DSPNO), .WIDTH(WIDTH)) dsp_tx_glue(
.clock(clk), .reset(rst), .clear(clr), .enable(run),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.frontend_i(tx_fe_i), .frontend_q(tx_fe_q),
- .duc_out_i(prod_i[33:10]), .duc_out_q(prod_q[33:10]),
- .duc_in_sample({bb_i, bb_q}), .duc_in_strobe(strobe_hb1),
+ .duc_out_i(prod_i[33:34-WIDTH]), .duc_out_q(prod_q[33:34-WIDTH]),
+ .duc_in_sample({bb_i, bb_q}), .duc_in_strobe(strobe_hb1), .duc_in_enable(duc_enb),
.bb_sample(sample), .bb_strobe(strobe));
assign debug = {strobe_cic, strobe_hb1, strobe_hb2,run};
diff --git a/usrp2/vrt/vita_rx_engine_glue.v b/usrp2/vrt/vita_rx_engine_glue.v
index 86e3d1114..56447a7aa 100644
--- a/usrp2/vrt/vita_rx_engine_glue.v
+++ b/usrp2/vrt/vita_rx_engine_glue.v
@@ -65,7 +65,7 @@ module vita_rx_engine_glue
.access_skip_read(access_skip_read), .access_adr(access_adr), .access_len(access_len),
.access_dat_i(access_dat_i), .access_dat_o(access_dat_o));
`else
- RX_ENG0_MODULE #(.BUF_SIZE(BUF_SIZE)) rx_eng0_custom
+ `RX_ENG0_MODULE #(.BUF_SIZE(BUF_SIZE)) rx_eng0_custom
(.clock(clock),.reset(reset),.clear(clear),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.access_we(access_we), .access_stb(access_stb), .access_ok(access_ok), .access_done(access_done),
@@ -82,7 +82,7 @@ module vita_rx_engine_glue
.access_skip_read(access_skip_read), .access_adr(access_adr), .access_len(access_len),
.access_dat_i(access_dat_i), .access_dat_o(access_dat_o));
`else
- RX_ENG1_MODULE #(.BUF_SIZE(BUF_SIZE)) rx_eng1_custom
+ `RX_ENG1_MODULE #(.BUF_SIZE(BUF_SIZE)) rx_eng1_custom
(.clock(clock),.reset(reset),.clear(clear),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.access_we(access_we), .access_stb(access_stb), .access_ok(access_ok), .access_done(access_done),
diff --git a/usrp2/vrt/vita_tx_engine_glue.v b/usrp2/vrt/vita_tx_engine_glue.v
index b0a81c3e9..db0d55dee 100644
--- a/usrp2/vrt/vita_tx_engine_glue.v
+++ b/usrp2/vrt/vita_tx_engine_glue.v
@@ -69,7 +69,7 @@ module vita_tx_engine_glue
.access_skip_read(access_skip_read), .access_adr(access_adr), .access_len(access_len),
.access_dat_i(access_dat_i), .access_dat_o(access_dat_o));
`else
- TX_ENG0_MODULE #(.BUF_SIZE(BUF_SIZE), .HEADER_OFFSET(HEADER_OFFSET)) tx_eng0_custom
+ `TX_ENG0_MODULE #(.BUF_SIZE(BUF_SIZE), .HEADER_OFFSET(HEADER_OFFSET)) tx_eng0_custom
(.clock(clock),.reset(reset),.clear(clear),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.access_we(access_we), .access_stb(access_stb), .access_ok(access_ok), .access_done(access_done),
@@ -86,7 +86,7 @@ module vita_tx_engine_glue
.access_skip_read(access_skip_read), .access_adr(access_adr), .access_len(access_len),
.access_dat_i(access_dat_i), .access_dat_o(access_dat_o));
`else
- TX_ENG1_MODULE #(.BUF_SIZE(BUF_SIZE), .HEADER_OFFSET(HEADER_OFFSET)) tx_eng1_custom
+ `TX_ENG1_MODULE #(.BUF_SIZE(BUF_SIZE), .HEADER_OFFSET(HEADER_OFFSET)) tx_eng1_custom
(.clock(clock),.reset(reset),.clear(clear),
.set_stb(set_stb_user), .set_addr(set_addr_user), .set_data(set_data_user),
.access_we(access_we), .access_stb(access_stb), .access_ok(access_ok), .access_done(access_done),