163 lines
4.6 KiB
Coq
163 lines
4.6 KiB
Coq
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///////////////////////////////////////////////////////////////////////////////
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// LTC2195.v
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//
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// 8/03/21
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// Jakub Matyas
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//
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// LTC2195 controller.
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//
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//
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///////////////////////////////////////////////////////////////////////////////
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// `include "timescale.v"
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`timescale 1ns/1ps // this was in the SelectIO design
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module LTC2195(
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input rst_in,
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input clk200,
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input DCO,
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input DCO_2D,
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input FR_in_p,
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input FR_in_n,
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input [3:0] D0_in_p,
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input [3:0] D0_in_n,
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input [3:0] D1_in_p,
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input [3:0] D1_in_n,
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input bitslip,
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input [4:0] delay_val,
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output reg [15:0] ADC0_out,
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output reg [15:0] ADC1_out,
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output reg [3:0] FR_out,
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output wire [8:0] o_data_from_pins,
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output idelay_rdy
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);
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// ///////////////////////////////////////////////////////////////////////////////
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// // LVDS inputs
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localparam N_BITS = 4;
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localparam N_LANES = 9; // for each channel 4 lanes + 1 lane for FRAME
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wire [N_LANES-1:0] data_in_p, data_in_n, data_in_from_pins, data_in_from_pins_delay;
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assign data_in_p = {FR_in_p, D1_in_p, D0_in_p};
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assign data_in_n = {FR_in_n, D1_in_n, D0_in_n};
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assign o_data_from_pins = data_in_from_pins_delay;
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wire [N_LANES*4 -1:0] data_out;
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wire [35:0 ]data_out_mod;
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assign data_out_mod = {~data_out[35:24], data_out[23:20], ~data_out[19:16], data_out[15:0]};
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always @(posedge DCO_2D) begin
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ADC0_out <= {
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data_out_mod[0], data_out_mod[4], data_out_mod[1], data_out_mod[5],
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data_out_mod[2], data_out_mod[6], data_out_mod[3], data_out_mod[7],
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data_out_mod[8], data_out_mod[12], data_out_mod[9], data_out_mod[13],
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data_out_mod[10], data_out_mod[14], data_out_mod[11], data_out_mod[15]
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};
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ADC1_out <= {
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data_out_mod[16 + 0], data_out_mod[16 + 4], data_out_mod[16 + 1], data_out_mod[16 + 5],
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data_out_mod[16 + 2], data_out_mod[16 + 6], data_out_mod[16 + 3], data_out_mod[16 + 7],
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data_out_mod[16 + 8], data_out_mod[16 + 12], data_out_mod[16 + 9], data_out_mod[16 + 13],
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data_out_mod[16 + 10], data_out_mod[16 + 14], data_out_mod[16 + 11], data_out_mod[16 + 15]
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};
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FR_out <= {data_out_mod[32], data_out_mod[33], data_out_mod[34], data_out_mod[35]}; // value that arrived first is LSB, therefore reversing order
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end
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wire s_idelay_rdy;
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IDELAYCTRL IDELAYCTRL_inst (
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.RDY(s_idelay_rdy), // 1-bit output: Ready output
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.REFCLK(clk200), // 1-bit input: Reference clock input
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.RST(s_rst) // 1-bit input: Active high reset input
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);
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assign idelay_rdy = s_idelay_rdy;
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reg s_rst;
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reg [5:0] rst_cnt;
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wire serdes_o;
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always @(posedge DCO_2D) begin
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if (rst_in) begin
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s_rst <= 1'b1;
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rst_cnt <= 'b0;
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end else begin
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if (rst_cnt == 22)
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s_rst <= 'b0;
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else
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rst_cnt <= rst_cnt + 1;
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end
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end
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genvar lane;
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generate for (lane=0; lane<N_LANES; lane=lane+1) begin
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IBUFDS #(
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.DIFF_TERM("TRUE")
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)
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ibufds_inst (
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.I(data_in_p[lane]),
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.IB(data_in_n[lane]),
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.O(data_in_from_pins[lane])
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);
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IDELAYE2 #(
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.CINVCTRL_SEL("FALSE"), // Enable dynamic clock inversion (FALSE, TRUE)
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.DELAY_SRC("IDATAIN"), // Delay input (IDATAIN, DATAIN)
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.HIGH_PERFORMANCE_MODE("TRUE"), // Reduced jitter ("TRUE"), Reduced power ("FALSE")
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.IDELAY_TYPE("VAR_LOAD"), // FIXED, VARIABLE, VAR_LOAD, VAR_LOAD_PIPE
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.IDELAY_VALUE(0), // Input delay tap setting (0-31)
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.PIPE_SEL("FALSE"), // Select pipelined mode, FALSE, TRUE
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.REFCLK_FREQUENCY(200.0), // IDELAYCTRL clock input frequency in MHz (190.0-210.0, 290.0-310.0).
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.SIGNAL_PATTERN("DATA") // DATA, CLOCK input signal
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)
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IDELAYE2_inst (
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.C(clk200),
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.CE('b0),
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.CNTVALUEIN(delay_val),
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.LD(1'b1),
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.DATAOUT(data_in_from_pins_delay[lane]), // 1-bit output: Delayed data output
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.IDATAIN(data_in_from_pins[lane]), // 1-bit input: Data input from the I/O
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.LDPIPEEN (1'b0),
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.REGRST (1'b0),
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.CINVCTRL (1'b0)
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);
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ISERDESE2 #(
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.DATA_RATE("DDR"),
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.DATA_WIDTH(3'd4),
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.INTERFACE_TYPE("NETWORKING"),
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.IOBDELAY("BOTH"),
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.SERDES_MODE("MASTER"),
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.NUM_CE(2'd2)
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)
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iserdes_inst (
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.CE1(1'd1),
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.CE2(1'd1),
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.DYNCLKDIVSEL('b0),
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.DYNCLKSEL('b0),
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.CLK(DCO),
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.CLKB(!DCO),
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.CLKDIV(DCO_2D),
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// .D(data_in_from_pins[lane]),
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.DDLY(data_in_from_pins_delay[lane]),
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.RST(s_rst),
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.BITSLIP(bitslip),
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// DATA is MSB first and OUTA is LANE0, so in case of OUTA:
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// Q1 = D9
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// Q2 = D11
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// Q3 = D13
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// Q4 = D15
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.Q1(data_out[lane*N_BITS + 3]),
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.Q2(data_out[lane*N_BITS + 2]),
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.Q3(data_out[lane*N_BITS + 1]),
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.Q4(data_out[lane*N_BITS + 0])
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);
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end
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endgenerate
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endmodule
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