pluto_hdl_adi/library/axi_ad9434/axi_ad9434_if.v

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`timescale 1ns/100ps

module axi_ad9434_if (

  // device interface
  adc_clk_in_p,
  adc_clk_in_n,
  adc_data_in_p,
  adc_data_in_n,
  adc_or_in_p,
  adc_or_in_n,

  // interface outputs
  adc_data,
  adc_or,

  // internl reset and clocks
  adc_clk,
  adc_rst,
  adc_status,

  // delay interface (for IDELAY macros)
  up_clk,
  up_adc_dld,
  up_adc_dwdata,
  up_adc_drdata,
  delay_clk,
  delay_rst,
  delay_locked,

  // mmcm reset
  mmcm_rst,

  // drp interface for MMCM_OR_BUFR_N
  up_rstn,
  up_drp_sel,
  up_drp_wr,
  up_drp_addr,
  up_drp_wdata,
  up_drp_rdata,
  up_drp_ready,
  up_drp_locked);

  // parameters
  parameter DEVICE_TYPE = 0;  // 0 - 7Series / 1 - 6Series
  parameter IO_DELAY_GROUP = "dev_if_delay_group";

  // buffer type based on the target device.
  localparam SDR = 0;

  // adc interface (clk, data, over-range)
  input           adc_clk_in_p;
  input           adc_clk_in_n;
  input   [11:0]  adc_data_in_p;
  input   [11:0]  adc_data_in_n;
  input           adc_or_in_p;
  input           adc_or_in_n;

  // interface outputs
  output  [47:0]  adc_data;
  output          adc_or;

  // internal reset and clocks

  output          adc_clk;
  input           adc_rst;
  output          adc_status;

  // delay interface

  input           up_clk;
  input   [12:0]  up_adc_dld;
  input   [64:0]  up_adc_dwdata;
  output  [64:0]  up_adc_drdata;
  input           delay_clk;
  input           delay_rst;
  output          delay_locked;

  // mmcm reset
  input           mmcm_rst;

  // drp interface
  input           up_rstn;
  input           up_drp_sel;
  input           up_drp_wr;
  input   [11:0]  up_drp_addr;
  input   [15:0]  up_drp_wdata;
  output  [15:0]  up_drp_rdata;
  output          up_drp_ready;
  output          up_drp_locked;

  // internal registers

  reg             adc_status    = 'd0;
  reg             adc_status_m1 = 'd0;

  // internal signals

  wire    [3:0]   adc_or_s;

  wire            adc_clk_in;
  wire            adc_div_clk;

  genvar          l_inst;

  // output assignment for adc clock (1:4 of the sampling clock)
  assign  adc_clk = adc_div_clk;

  // data interface
  generate
  for (l_inst = 0; l_inst <= 11; l_inst = l_inst + 1) begin : g_adc_if
    ad_serdes_in #(
      .DEVICE_TYPE(DEVICE_TYPE),
      .IODELAY_CTRL(0),
      .IODELAY_GROUP(IO_DELAY_GROUP),
      .DDR_OR_SDR_N(SDR),
      .DATA_WIDTH(4))
    i_adc_data (
      .rst(adc_rst),
      .clk(adc_clk_in),
      .div_clk(adc_div_clk),
      .data_s0(adc_data[(3*12)+l_inst]),
      .data_s1(adc_data[(2*12)+l_inst]),
      .data_s2(adc_data[(1*12)+l_inst]),
      .data_s3(adc_data[(0*12)+l_inst]),
      .data_s4(),
      .data_s5(),
      .data_s6(),
      .data_s7(),
      .data_in_p(adc_data_in_p[l_inst]),
      .data_in_n(adc_data_in_n[l_inst]),
      .up_clk (up_clk),
      .up_dld (up_adc_dld[l_inst]),
      .up_dwdata (up_adc_dwdata[((l_inst*5)+4):(l_inst*5)]),
      .up_drdata (up_adc_drdata[((l_inst*5)+4):(l_inst*5)]),
      .delay_clk(delay_clk),
      .delay_rst(delay_rst),
      .delay_locked());
    end
  endgenerate

  // over-range interface
  ad_serdes_in #(
    .DEVICE_TYPE(DEVICE_TYPE),
    .IODELAY_CTRL(1),
    .IODELAY_GROUP(IO_DELAY_GROUP),
    .DDR_OR_SDR_N(SDR),
    .DATA_WIDTH(4))
  i_adc_data (
    .rst(adc_rst),
    .clk(adc_clk_in),
    .div_clk(adc_div_clk),
    .data_s0(adc_or_s[0]),
    .data_s1(adc_or_s[1]),
    .data_s2(adc_or_s[2]),
    .data_s3(adc_or_s[3]),
    .data_s4(),
    .data_s5(),
    .data_s6(),
    .data_s7(),
    .data_in_p(adc_or_in_p),
    .data_in_n(adc_or_in_n),
    .up_clk (up_clk),
    .up_dld (up_adc_dld[12]),
    .up_dwdata (up_adc_dwdata[64:60]),
    .up_drdata (up_adc_drdata[64:60]),
    .delay_clk(delay_clk),
    .delay_rst(delay_rst),
    .delay_locked(delay_locked));

  // clock input buffers and MMCM_OR_BUFR_N
  ad_serdes_clk #(
    .MMCM_DEVICE_TYPE (DEVICE_TYPE),
    .MMCM_CLKIN_PERIOD (2),
    .MMCM_VCO_DIV (6),
    .MMCM_VCO_MUL (12),
    .MMCM_CLK0_DIV (2),
    .MMCM_CLK1_DIV (8))
  i_serdes_clk (
    .mmcm_rst (mmcm_rst),
    .clk_in_p (adc_clk_in_p),
    .clk_in_n (adc_clk_in_n),
    .clk (adc_clk_in),
    .div_clk (adc_div_clk),
    .out_clk (),
    .up_clk (up_clk),
    .up_rstn (up_rstn),
    .up_drp_sel (up_drp_sel),
    .up_drp_wr (up_drp_wr),
    .up_drp_addr (up_drp_addr),
    .up_drp_wdata (up_drp_wdata),
    .up_drp_rdata (up_drp_rdata),
    .up_drp_ready (up_drp_ready),
    .up_drp_locked (up_drp_locked));

  // adc overange
  assign adc_or = adc_or_s[0] | adc_or_s[1] | adc_or_s[2] | adc_or_s[3];

  // adc status: adc is up, if both the MMCM_OR_BUFR_N and DELAY blocks are up
  always @(posedge adc_div_clk) begin
    if(adc_rst == 1'b1) begin
      adc_status_m1 <= 1'b0;
      adc_status <= 1'b0;
    end else begin
      adc_status_m1 <= up_drp_locked & delay_locked;
      adc_status <= adc_status_m1;
    end
  end

endmodule