pluto_hdl_adi/library/axi_ad9361/axi_ad9361_dev_if.v

// ***************************************************************************
// ***************************************************************************
// Copyright 2011(c) Analog Devices, Inc.
// 
// All rights reserved.
// 
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//     - Redistributions of source code must retain the above copyright
//       notice, this list of conditions and the following disclaimer.
//     - Redistributions in binary form must reproduce the above copyright
//       notice, this list of conditions and the following disclaimer in
//       the documentation and/or other materials provided with the
//       distribution.
//     - Neither the name of Analog Devices, Inc. nor the names of its
//       contributors may be used to endorse or promote products derived
//       from this software without specific prior written permission.
//     - The use of this software may or may not infringe the patent rights
//       of one or more patent holders.  This license does not release you
//       from the requirement that you obtain separate licenses from these
//       patent holders to use this software.
//     - Use of the software either in source or binary form, must be run
//       on or directly connected to an Analog Devices Inc. component.
//    
// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED.
//
// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR 
// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// ***************************************************************************
// ***************************************************************************
// ***************************************************************************
// ***************************************************************************
// This interface includes both the transmit and receive components -
// They both uses the same clock (sourced from the receiving side).

`timescale 1ns/100ps

module axi_ad9361_dev_if (

  // physical interface (receive)

  rx_clk_in_p,
  rx_clk_in_n,
  rx_frame_in_p,
  rx_frame_in_n,
  rx_data_in_p,
  rx_data_in_n,

  // physical interface (transmit)

  tx_clk_out_p,
  tx_clk_out_n,
  tx_frame_out_p,
  tx_frame_out_n,
  tx_data_out_p,
  tx_data_out_n,

  // clock (common to both receive and transmit)

  rst,
  clk,
  l_clk,

  // receive data path interface

  adc_valid,
  adc_data,
  adc_status,
  adc_r1_mode,

  // transmit data path interface

  dac_valid,
  dac_data,
  dac_r1_mode,

  // delay control signals

  delay_clk,
  delay_rst,
  delay_sel,
  delay_rwn,
  delay_addr,
  delay_wdata,
  delay_rdata,
  delay_ack_t,
  delay_locked,

  // chipscope signals

  dev_dbg_data,
  dev_l_dbg_data);

  // this parameter controls the buffer type based on the target device.

  parameter   PCORE_DEVICE_TYPE = 0;
  parameter   PCORE_IODELAY_GROUP = "dev_if_delay_group";
  localparam  PCORE_7SERIES = 0;
  localparam  PCORE_VIRTEX6 = 1;

  // physical interface (receive)

  input           rx_clk_in_p;
  input           rx_clk_in_n;
  input           rx_frame_in_p;
  input           rx_frame_in_n;
  input   [ 5:0]  rx_data_in_p;
  input   [ 5:0]  rx_data_in_n;

  // physical interface (transmit)

  output          tx_clk_out_p;
  output          tx_clk_out_n;
  output          tx_frame_out_p;
  output          tx_frame_out_n;
  output  [ 5:0]  tx_data_out_p;
  output  [ 5:0]  tx_data_out_n;

  // clock (common to both receive and transmit)

  input           rst;
  input           clk;
  output          l_clk;

  // receive data path interface

  output          adc_valid;
  output  [47:0]  adc_data;
  output          adc_status;
  input           adc_r1_mode;

  // transmit data path interface

  input           dac_valid;
  input   [47:0]  dac_data;
  input           dac_r1_mode;

  // delay control signals

  input           delay_clk;
  input           delay_rst;
  input           delay_sel;
  input           delay_rwn;
  input   [ 7:0]  delay_addr;
  input   [ 4:0]  delay_wdata;
  output  [ 4:0]  delay_rdata;
  output          delay_ack_t;
  output          delay_locked;

  // chipscope signals

  output [111:0]  dev_dbg_data;
  output [ 61:0]  dev_l_dbg_data;

  // internal registers

  reg     [11:0]  rx_data = 'd0;
  reg     [ 1:0]  rx_frame = 'd0;
  reg     [11:0]  rx_data_d = 'd0;
  reg     [ 1:0]  rx_frame_d = 'd0;
  reg             rx_error_r1 = 'd0;
  reg             rx_valid_r1 = 'd0;
  reg     [23:0]  rx_data_r1 = 'd0;
  reg             rx_error_r2 = 'd0;
  reg             rx_valid_r2 = 'd0;
  reg     [47:0]  rx_data_r2 = 'd0;
  reg             adc_p_valid = 'd0;
  reg     [47:0]  adc_p_data = 'd0;
  reg             adc_p_status = 'd0;
  reg             adc_n_valid = 'd0;
  reg     [47:0]  adc_n_data = 'd0;
  reg             adc_n_status = 'd0;
  reg             adc_valid_int = 'd0;
  reg     [47:0]  adc_data_int = 'd0;
  reg             adc_status_int = 'd0;
  reg             adc_valid = 'd0;
  reg     [47:0]  adc_data = 'd0;
  reg             adc_status = 'd0;
  reg     [ 2:0]  tx_data_cnt = 'd0;
  reg     [47:0]  tx_data = 'd0;
  reg             tx_frame = 'd0;
  reg     [ 5:0]  tx_data_p = 'd0;
  reg     [ 5:0]  tx_data_n = 'd0;
  reg             tx_n_frame = 'd0;
  reg     [ 5:0]  tx_n_data_p = 'd0;
  reg     [ 5:0]  tx_n_data_n = 'd0;
  reg             tx_p_frame = 'd0;
  reg     [ 5:0]  tx_p_data_p = 'd0;
  reg     [ 5:0]  tx_p_data_n = 'd0;
  reg     [ 6:0]  delay_ld = 'd0;
  reg     [ 4:0]  delay_rdata = 'd0;
  reg             delay_ack_t = 'd0;

  // internal signals

  wire    [ 3:0]  rx_frame_s;
  wire    [ 3:0]  tx_data_sel_s;
  wire    [ 4:0]  delay_rdata_s[6:0];
  wire    [ 5:0]  rx_data_p_s;
  wire    [ 5:0]  rx_data_n_s;
  wire            rx_frame_p_s;
  wire            rx_frame_n_s;

  genvar          l_inst;

  // device debug signals

  assign dev_dbg_data[  5:  0] = tx_data_n;
  assign dev_dbg_data[ 11:  6] = tx_data_p;
  assign dev_dbg_data[ 23: 12] = dac_data[11: 0];
  assign dev_dbg_data[ 35: 24] = dac_data[23:12];
  assign dev_dbg_data[ 47: 36] = dac_data[35:24];
  assign dev_dbg_data[ 59: 48] = dac_data[47:36];
  assign dev_dbg_data[ 71: 60] = adc_data[11: 0];
  assign dev_dbg_data[ 83: 72] = adc_data[23:12];
  assign dev_dbg_data[ 95: 84] = adc_data[35:24];
  assign dev_dbg_data[107: 96] = adc_data[47:36];
  assign dev_dbg_data[108:108] = tx_frame;
  assign dev_dbg_data[109:109] = dac_valid;
  assign dev_dbg_data[110:110] = adc_status;
  assign dev_dbg_data[111:111] = adc_valid;

  assign dev_l_dbg_data[  5:  0] = tx_p_data_n;
  assign dev_l_dbg_data[ 11:  6] = tx_p_data_p;
  assign dev_l_dbg_data[ 23: 12] = adc_p_data[11: 0];
  assign dev_l_dbg_data[ 35: 24] = adc_p_data[23:12];
  assign dev_l_dbg_data[ 47: 36] = adc_p_data[35:24];
  assign dev_l_dbg_data[ 59: 48] = adc_p_data[47:36];
  assign dev_l_dbg_data[ 60: 60] = tx_p_frame;
  assign dev_l_dbg_data[ 61: 61] = adc_p_valid;

  // receive data path interface

  assign rx_frame_s = {rx_frame_d, rx_frame};

  always @(posedge l_clk) begin
    rx_data <= {rx_data_n_s, rx_data_p_s};
    rx_frame <= {rx_frame_n_s, rx_frame_p_s};
    rx_data_d <= rx_data;
    rx_frame_d <= rx_frame;
  end

  // receive data path for single rf, frame is expected to qualify i/q msb only

  always @(posedge l_clk) begin
    rx_error_r1 <= ((rx_frame_s == 4'b1100) || (rx_frame_s == 4'b0011)) ? 1'b0 : 1'b1;
    rx_valid_r1 <= (rx_frame_s == 4'b1100) ? 1'b1 : 1'b0;
    if (rx_frame_s == 4'b1100) begin
      rx_data_r1[11: 0] <= {rx_data_d[11:6], rx_data[11:6]};
      rx_data_r1[23:12] <= {rx_data_d[ 5:0], rx_data[ 5:0]};
    end
  end

  // receive data path for dual rf, frame is expected to qualify i/q msb and lsb for rf-1 only

  always @(posedge l_clk) begin
    rx_error_r2 <= ((rx_frame_s == 4'b1111) || (rx_frame_s == 4'b1100) ||
      (rx_frame_s == 4'b0000) || (rx_frame_s == 4'b0011)) ? 1'b0 : 1'b1;
    rx_valid_r2 <= (rx_frame_s == 4'b0000) ? 1'b1 : 1'b0;
    if (rx_frame_s == 4'b1111) begin
      rx_data_r2[11: 0] <= {rx_data_d[11:6], rx_data[11:6]};
      rx_data_r2[23:12] <= {rx_data_d[ 5:0], rx_data[ 5:0]};
    end
    if (rx_frame_s == 4'b0000) begin
      rx_data_r2[35:24] <= {rx_data_d[11:6], rx_data[11:6]};
      rx_data_r2[47:36] <= {rx_data_d[ 5:0], rx_data[ 5:0]};
    end
  end

  // receive data path mux

  always @(posedge l_clk) begin
    if (adc_r1_mode == 1'b1) begin
      adc_p_valid <= rx_valid_r1;
      adc_p_data <= {24'd0, rx_data_r1};
      adc_p_status <= ~rx_error_r1;
    end else begin
      adc_p_valid <= rx_valid_r2;
      adc_p_data <= rx_data_r2;
      adc_p_status <= ~rx_error_r2;
    end
  end

  // transfer to a synchronous common clock

  always @(negedge l_clk) begin
    adc_n_valid <= adc_p_valid;
    adc_n_data <= adc_p_data;
    adc_n_status <= adc_p_status;
  end

  always @(posedge clk) begin
    adc_valid_int <= adc_n_valid;
    adc_data_int <= adc_n_data;
    adc_status_int <= adc_n_status;
    adc_valid <= adc_valid_int;
    if (adc_valid_int == 1'b1) begin
      adc_data <= adc_data_int;
    end
    adc_status <= adc_status_int;
  end

  // transmit data path mux (reverse of what receive does above)
  // the count simply selets the data muxing on the ddr outputs

  assign tx_data_sel_s = {tx_data_cnt[2], dac_r1_mode, tx_data_cnt[1:0]};

  always @(posedge clk) begin
    if (dac_valid == 1'b1) begin
      tx_data_cnt <= 3'b100;
    end else if (tx_data_cnt[2] == 1'b1) begin
      tx_data_cnt <= tx_data_cnt + 1'b1;
    end
    if (dac_valid == 1'b1) begin
      tx_data <= dac_data;
    end
    case (tx_data_sel_s)
      4'b1111: begin
        tx_frame <= 1'b0;
        tx_data_p <= tx_data[ 5: 0];
        tx_data_n <= tx_data[17:12];
      end
      4'b1110: begin
        tx_frame <= 1'b1;
        tx_data_p <= tx_data[11: 6];
        tx_data_n <= tx_data[23:18];
      end
      4'b1101: begin
        tx_frame <= 1'b0;
        tx_data_p <= tx_data[ 5: 0];
        tx_data_n <= tx_data[17:12];
      end
      4'b1100: begin
        tx_frame <= 1'b1;
        tx_data_p <= tx_data[11: 6];
        tx_data_n <= tx_data[23:18];
      end
      4'b1011: begin
        tx_frame <= 1'b0;
        tx_data_p <= tx_data[29:24];
        tx_data_n <= tx_data[41:36];
      end
      4'b1010: begin
        tx_frame <= 1'b0;
        tx_data_p <= tx_data[35:30];
        tx_data_n <= tx_data[47:42];
      end
      4'b1001: begin
        tx_frame <= 1'b1;
        tx_data_p <= tx_data[ 5: 0];
        tx_data_n <= tx_data[17:12];
      end
      4'b1000: begin
        tx_frame <= 1'b1;
        tx_data_p <= tx_data[11: 6];
        tx_data_n <= tx_data[23:18];
      end
      default: begin
        tx_frame <= 1'b0;
        tx_data_p <= 6'd0;
        tx_data_n <= 6'd0;
      end
    endcase
  end

  // transfer data from a synchronous clock (skew less than 2ns)

  always @(negedge clk) begin
    tx_n_frame <= tx_frame;
    tx_n_data_p <= tx_data_p;
    tx_n_data_n <= tx_data_n;
  end

  always @(posedge l_clk) begin
    tx_p_frame <= tx_n_frame;
    tx_p_data_p <= tx_n_data_p;
    tx_p_data_n <= tx_n_data_n;
  end

  // delay write interface, each delay element can be individually
  // addressed, and a delay value can be directly loaded (no inc/dec stuff)

  always @(posedge delay_clk) begin
    if ((delay_sel == 1'b1) && (delay_rwn == 1'b0)) begin
      case (delay_addr)
        8'h06: delay_ld <= 7'h40;
        8'h05: delay_ld <= 7'h20;
        8'h04: delay_ld <= 7'h10;
        8'h03: delay_ld <= 7'h08;
        8'h02: delay_ld <= 7'h04;
        8'h01: delay_ld <= 7'h02;
        8'h00: delay_ld <= 7'h01;
        default: delay_ld <= 7'h00;
      endcase
    end else begin
      delay_ld <= 7'h00;
    end
  end

  // delay read interface, a delay ack toggle is used to transfer data to the
  // processor side- delay locked is independently transferred

  always @(posedge delay_clk) begin
    case (delay_addr)
      8'h06: delay_rdata <= delay_rdata_s[6];
      8'h05: delay_rdata <= delay_rdata_s[5];
      8'h04: delay_rdata <= delay_rdata_s[4];
      8'h03: delay_rdata <= delay_rdata_s[3];
      8'h02: delay_rdata <= delay_rdata_s[2];
      8'h01: delay_rdata <= delay_rdata_s[1];
      8'h00: delay_rdata <= delay_rdata_s[0];
      default: delay_rdata <= 5'd0;
    endcase
    if (delay_sel == 1'b1) begin
      delay_ack_t <= ~delay_ack_t;
    end
  end

  // receive data interface, ibuf -> idelay -> iddr

  generate
  for (l_inst = 0; l_inst <= 5; l_inst = l_inst + 1) begin: g_rx_data
  ad_lvds_in #(
    .BUFTYPE (PCORE_DEVICE_TYPE),
    .IODELAY_CTRL (0),
    .IODELAY_GROUP (PCORE_IODELAY_GROUP))
  i_rx_data (
    .rx_clk (l_clk),
    .rx_data_in_p (rx_data_in_p[l_inst]),
    .rx_data_in_n (rx_data_in_n[l_inst]),
    .rx_data_p (rx_data_p_s[l_inst]),
    .rx_data_n (rx_data_n_s[l_inst]),
    .delay_clk (delay_clk),
    .delay_rst (delay_rst),
    .delay_ld (delay_ld[l_inst]),
    .delay_wdata (delay_wdata),
    .delay_rdata (delay_rdata_s[l_inst]),
    .delay_locked ());
  end
  endgenerate

  // receive frame interface, ibuf -> idelay -> iddr

  ad_lvds_in #(
    .BUFTYPE (PCORE_DEVICE_TYPE),
    .IODELAY_CTRL (1),
    .IODELAY_GROUP (PCORE_IODELAY_GROUP))
  i_rx_frame (
    .rx_clk (l_clk),
    .rx_data_in_p (rx_frame_in_p),
    .rx_data_in_n (rx_frame_in_n),
    .rx_data_p (rx_frame_p_s),
    .rx_data_n (rx_frame_n_s),
    .delay_clk (delay_clk),
    .delay_rst (delay_rst),
    .delay_ld (delay_ld[6]),
    .delay_wdata (delay_wdata),
    .delay_rdata (delay_rdata_s[6]),
    .delay_locked (delay_locked));

  // transmit data interface, oddr -> obuf

  generate
  for (l_inst = 0; l_inst <= 5; l_inst = l_inst + 1) begin: g_tx_data
  ad_lvds_out #(
    .BUFTYPE (PCORE_DEVICE_TYPE))
  i_tx_data (
    .tx_clk (l_clk),
    .tx_data_p (tx_p_data_p[l_inst]),
    .tx_data_n (tx_p_data_n[l_inst]),
    .tx_data_out_p (tx_data_out_p[l_inst]),
    .tx_data_out_n (tx_data_out_n[l_inst]));
  end
  endgenerate

  // transmit frame interface, oddr -> obuf

  ad_lvds_out #(
    .BUFTYPE (PCORE_DEVICE_TYPE))
  i_tx_frame (
    .tx_clk (l_clk),
    .tx_data_p (tx_p_frame),
    .tx_data_n (tx_p_frame),
    .tx_data_out_p (tx_frame_out_p),
    .tx_data_out_n (tx_frame_out_n));

  // transmit clock interface, oddr -> obuf

  ad_lvds_out #(
    .BUFTYPE (PCORE_DEVICE_TYPE))
  i_tx_clk (
    .tx_clk (l_clk),
    .tx_data_p (1'b0),
    .tx_data_n (1'b1),
    .tx_data_out_p (tx_clk_out_p),
    .tx_data_out_n (tx_clk_out_n));

  // device clock interface (receive clock)

  ad_lvds_clk #(
    .BUFTYPE (PCORE_DEVICE_TYPE))
  i_clk (
    .clk_in_p (rx_clk_in_p),
    .clk_in_n (rx_clk_in_n),
    .clk (l_clk));

endmodule

// ***************************************************************************
// ***************************************************************************
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`// ***************************************************************************`
			`// ***************************************************************************`
			`// Copyright 2011(c) Analog Devices, Inc.`
			`//`
			`// All rights reserved.`
			`//`
			`// Redistribution and use in source and binary forms, with or without modification,`
			`// are permitted provided that the following conditions are met:`
			`// - Redistributions of source code must retain the above copyright`
			`// notice, this list of conditions and the following disclaimer.`
			`// - Redistributions in binary form must reproduce the above copyright`
			`// notice, this list of conditions and the following disclaimer in`
			`// the documentation and/or other materials provided with the`
			`// distribution.`
			`// - Neither the name of Analog Devices, Inc. nor the names of its`
			`// contributors may be used to endorse or promote products derived`
			`// from this software without specific prior written permission.`
			`// - The use of this software may or may not infringe the patent rights`
			`// of one or more patent holders. This license does not release you`
			`// from the requirement that you obtain separate licenses from these`
			`// patent holders to use this software.`
			`// - Use of the software either in source or binary form, must be run`
			`// on or directly connected to an Analog Devices Inc. component.`
			`//`
			`// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,`
			`// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A`
			`// PARTICULAR PURPOSE ARE DISCLAIMED.`
			`//`
			`// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,`
			`// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY`
			`// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR`
			`// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,`
			`// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF`
			`// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
			`// ***************************************************************************`
			`// ***************************************************************************`
			`// ***************************************************************************`
			`// ***************************************************************************`
			`// This interface includes both the transmit and receive components -`
			`// They both uses the same clock (sourced from the receiving side).`

			`timescale 1ns/100ps

			`module axi_ad9361_dev_if (`

			`// physical interface (receive)`

			`rx_clk_in_p,`
			`rx_clk_in_n,`
			`rx_frame_in_p,`
			`rx_frame_in_n,`
			`rx_data_in_p,`
			`rx_data_in_n,`

			`// physical interface (transmit)`

			`tx_clk_out_p,`
			`tx_clk_out_n,`
			`tx_frame_out_p,`
			`tx_frame_out_n,`
			`tx_data_out_p,`
			`tx_data_out_n,`

			`// clock (common to both receive and transmit)`

daq2: latest hardware 2014-07-21 13:06:10 +00:00			`rst,`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`clk,`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`l_clk,`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// receive data path interface`

			`adc_valid,`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`adc_data,`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`adc_status,`
			`adc_r1_mode,`

			`// transmit data path interface`

			`dac_valid,`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`dac_data,`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`dac_r1_mode,`

			`// delay control signals`

			`delay_clk,`
			`delay_rst,`
			`delay_sel,`
			`delay_rwn,`
			`delay_addr,`
			`delay_wdata,`
			`delay_rdata,`
			`delay_ack_t,`
			`delay_locked,`

			`// chipscope signals`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`dev_dbg_data,`
			`dev_l_dbg_data);`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// this parameter controls the buffer type based on the target device.`

ad9361: altera wrapper updates 2014-06-25 19:26:06 +00:00			`parameter PCORE_DEVICE_TYPE = 0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`parameter PCORE_IODELAY_GROUP = "dev_if_delay_group";`
			`localparam PCORE_7SERIES = 0;`
			`localparam PCORE_VIRTEX6 = 1;`

			`// physical interface (receive)`

			`input rx_clk_in_p;`
			`input rx_clk_in_n;`
			`input rx_frame_in_p;`
			`input rx_frame_in_n;`
			`input [ 5:0] rx_data_in_p;`
			`input [ 5:0] rx_data_in_n;`

			`// physical interface (transmit)`

			`output tx_clk_out_p;`
			`output tx_clk_out_n;`
			`output tx_frame_out_p;`
			`output tx_frame_out_n;`
			`output [ 5:0] tx_data_out_p;`
			`output [ 5:0] tx_data_out_n;`

			`// clock (common to both receive and transmit)`

daq2: latest hardware 2014-07-21 13:06:10 +00:00			`input rst;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`input clk;`
			`output l_clk;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// receive data path interface`

			`output adc_valid;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`output [47:0] adc_data;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`output adc_status;`
			`input adc_r1_mode;`

			`// transmit data path interface`

			`input dac_valid;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`input [47:0] dac_data;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`input dac_r1_mode;`

			`// delay control signals`

			`input delay_clk;`
			`input delay_rst;`
			`input delay_sel;`
			`input delay_rwn;`
			`input [ 7:0] delay_addr;`
			`input [ 4:0] delay_wdata;`
			`output [ 4:0] delay_rdata;`
			`output delay_ack_t;`
			`output delay_locked;`

			`// chipscope signals`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`output [111:0] dev_dbg_data;`
			`output [ 61:0] dev_l_dbg_data;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// internal registers`

			`reg [11:0] rx_data = 'd0;`
			`reg [ 1:0] rx_frame = 'd0;`
			`reg [11:0] rx_data_d = 'd0;`
			`reg [ 1:0] rx_frame_d = 'd0;`
			`reg rx_error_r1 = 'd0;`
			`reg rx_valid_r1 = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [23:0] rx_data_r1 = 'd0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`reg rx_error_r2 = 'd0;`
			`reg rx_valid_r2 = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [47:0] rx_data_r2 = 'd0;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`reg adc_p_valid = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [47:0] adc_p_data = 'd0;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`reg adc_p_status = 'd0;`
			`reg adc_n_valid = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [47:0] adc_n_data = 'd0;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`reg adc_n_status = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg adc_valid_int = 'd0;`
			`reg [47:0] adc_data_int = 'd0;`
			`reg adc_status_int = 'd0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`reg adc_valid = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [47:0] adc_data = 'd0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`reg adc_status = 'd0;`
			`reg [ 2:0] tx_data_cnt = 'd0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`reg [47:0] tx_data = 'd0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`reg tx_frame = 'd0;`
			`reg [ 5:0] tx_data_p = 'd0;`
			`reg [ 5:0] tx_data_n = 'd0;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`reg tx_n_frame = 'd0;`
			`reg [ 5:0] tx_n_data_p = 'd0;`
			`reg [ 5:0] tx_n_data_n = 'd0;`
			`reg tx_p_frame = 'd0;`
			`reg [ 5:0] tx_p_data_p = 'd0;`
			`reg [ 5:0] tx_p_data_n = 'd0;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`reg [ 6:0] delay_ld = 'd0;`
			`reg [ 4:0] delay_rdata = 'd0;`
			`reg delay_ack_t = 'd0;`

			`// internal signals`

			`wire [ 3:0] rx_frame_s;`
			`wire [ 3:0] tx_data_sel_s;`
			`wire [ 4:0] delay_rdata_s[6:0];`
			`wire [ 5:0] rx_data_p_s;`
			`wire [ 5:0] rx_data_n_s;`
			`wire rx_frame_p_s;`
			`wire rx_frame_n_s;`

			`genvar l_inst;`

			`// device debug signals`

			`assign dev_dbg_data[ 5: 0] = tx_data_n;`
			`assign dev_dbg_data[ 11: 6] = tx_data_p;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`assign dev_dbg_data[ 23: 12] = dac_data[11: 0];`
			`assign dev_dbg_data[ 35: 24] = dac_data[23:12];`
			`assign dev_dbg_data[ 47: 36] = dac_data[35:24];`
			`assign dev_dbg_data[ 59: 48] = dac_data[47:36];`
			`assign dev_dbg_data[ 71: 60] = adc_data[11: 0];`
			`assign dev_dbg_data[ 83: 72] = adc_data[23:12];`
			`assign dev_dbg_data[ 95: 84] = adc_data[35:24];`
			`assign dev_dbg_data[107: 96] = adc_data[47:36];`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`assign dev_dbg_data[108:108] = tx_frame;`
			`assign dev_dbg_data[109:109] = dac_valid;`
			`assign dev_dbg_data[110:110] = adc_status;`
			`assign dev_dbg_data[111:111] = adc_valid;`

			`assign dev_l_dbg_data[ 5: 0] = tx_p_data_n;`
			`assign dev_l_dbg_data[ 11: 6] = tx_p_data_p;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`assign dev_l_dbg_data[ 23: 12] = adc_p_data[11: 0];`
			`assign dev_l_dbg_data[ 35: 24] = adc_p_data[23:12];`
			`assign dev_l_dbg_data[ 47: 36] = adc_p_data[35:24];`
			`assign dev_l_dbg_data[ 59: 48] = adc_p_data[47:36];`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`assign dev_l_dbg_data[ 60: 60] = tx_p_frame;`
			`assign dev_l_dbg_data[ 61: 61] = adc_p_valid;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// receive data path interface`

			`assign rx_frame_s = {rx_frame_d, rx_frame};`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`always @(posedge l_clk) begin`
fifo2s: flush if no request, c5soc: 14.0 2014-07-15 20:24:26 +00:00			`rx_data <= {rx_data_n_s, rx_data_p_s};`
			`rx_frame <= {rx_frame_n_s, rx_frame_p_s};`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`rx_data_d <= rx_data;`
			`rx_frame_d <= rx_frame;`
			`end`

			`// receive data path for single rf, frame is expected to qualify i/q msb only`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`always @(posedge l_clk) begin`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`rx_error_r1 <= ((rx_frame_s == 4'b1100) \|\| (rx_frame_s == 4'b0011)) ? 1'b0 : 1'b1;`
			`rx_valid_r1 <= (rx_frame_s == 4'b1100) ? 1'b1 : 1'b0;`
			`if (rx_frame_s == 4'b1100) begin`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`rx_data_r1[11: 0] <= {rx_data_d[11:6], rx_data[11:6]};`
			`rx_data_r1[23:12] <= {rx_data_d[ 5:0], rx_data[ 5:0]};`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`end`

			`// receive data path for dual rf, frame is expected to qualify i/q msb and lsb for rf-1 only`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`always @(posedge l_clk) begin`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`rx_error_r2 <= ((rx_frame_s == 4'b1111) \|\| (rx_frame_s == 4'b1100) \|\|`
			`(rx_frame_s == 4'b0000) \|\| (rx_frame_s == 4'b0011)) ? 1'b0 : 1'b1;`
			`rx_valid_r2 <= (rx_frame_s == 4'b0000) ? 1'b1 : 1'b0;`
			`if (rx_frame_s == 4'b1111) begin`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`rx_data_r2[11: 0] <= {rx_data_d[11:6], rx_data[11:6]};`
			`rx_data_r2[23:12] <= {rx_data_d[ 5:0], rx_data[ 5:0]};`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`if (rx_frame_s == 4'b0000) begin`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`rx_data_r2[35:24] <= {rx_data_d[11:6], rx_data[11:6]};`
			`rx_data_r2[47:36] <= {rx_data_d[ 5:0], rx_data[ 5:0]};`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`end`

			`// receive data path mux`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`always @(posedge l_clk) begin`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`if (adc_r1_mode == 1'b1) begin`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`adc_p_valid <= rx_valid_r1;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`adc_p_data <= {24'd0, rx_data_r1};`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`adc_p_status <= ~rx_error_r1;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end else begin`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`adc_p_valid <= rx_valid_r2;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`adc_p_data <= rx_data_r2;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`adc_p_status <= ~rx_error_r2;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`end`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`// transfer to a synchronous common clock`

			`always @(negedge l_clk) begin`
			`adc_n_valid <= adc_p_valid;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`adc_n_data <= adc_p_data;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`adc_n_status <= adc_p_status;`
			`end`

			`always @(posedge clk) begin`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`adc_valid_int <= adc_n_valid;`
			`adc_data_int <= adc_n_data;`
			`adc_status_int <= adc_n_status;`
			`adc_valid <= adc_valid_int;`
			`if (adc_valid_int == 1'b1) begin`
			`adc_data <= adc_data_int;`
			`end`
			`adc_status <= adc_status_int;`
axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`end`

axi_ad9361: added 2014-03-12 00:01:55 +00:00			`// transmit data path mux (reverse of what receive does above)`
			`// the count simply selets the data muxing on the ddr outputs`

			`assign tx_data_sel_s = {tx_data_cnt[2], dac_r1_mode, tx_data_cnt[1:0]};`

			`always @(posedge clk) begin`
			`if (dac_valid == 1'b1) begin`
			`tx_data_cnt <= 3'b100;`
			`end else if (tx_data_cnt[2] == 1'b1) begin`
			`tx_data_cnt <= tx_data_cnt + 1'b1;`
			`end`
			`if (dac_valid == 1'b1) begin`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data <= dac_data;`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`case (tx_data_sel_s)`
			`4'b1111: begin`
			`tx_frame <= 1'b0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[ 5: 0];`
			`tx_data_n <= tx_data[17:12];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1110: begin`
			`tx_frame <= 1'b1;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[11: 6];`
			`tx_data_n <= tx_data[23:18];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1101: begin`
			`tx_frame <= 1'b0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[ 5: 0];`
			`tx_data_n <= tx_data[17:12];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1100: begin`
			`tx_frame <= 1'b1;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[11: 6];`
			`tx_data_n <= tx_data[23:18];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1011: begin`
			`tx_frame <= 1'b0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[29:24];`
			`tx_data_n <= tx_data[41:36];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1010: begin`
			`tx_frame <= 1'b0;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[35:30];`
			`tx_data_n <= tx_data[47:42];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1001: begin`
			`tx_frame <= 1'b1;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[ 5: 0];`
			`tx_data_n <= tx_data[17:12];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`4'b1000: begin`
			`tx_frame <= 1'b1;`
library: register map changes and for mathworks 2014-06-24 18:22:05 +00:00			`tx_data_p <= tx_data[11: 6];`
			`tx_data_n <= tx_data[23:18];`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`default: begin`
			`tx_frame <= 1'b0;`
			`tx_data_p <= 6'd0;`
			`tx_data_n <= 6'd0;`
			`end`
			`endcase`
			`end`

axi_ad9361: fmcomms5 changes 2014-05-19 16:41:12 +00:00			`// transfer data from a synchronous clock (skew less than 2ns)`

			`always @(negedge clk) begin`
			`tx_n_frame <= tx_frame;`
			`tx_n_data_p <= tx_data_p;`
			`tx_n_data_n <= tx_data_n;`
			`end`

			`always @(posedge l_clk) begin`
			`tx_p_frame <= tx_n_frame;`
			`tx_p_data_p <= tx_n_data_p;`
			`tx_p_data_n <= tx_n_data_n;`
			`end`

axi_ad9361: added 2014-03-12 00:01:55 +00:00			`// delay write interface, each delay element can be individually`
			`// addressed, and a delay value can be directly loaded (no inc/dec stuff)`

			`always @(posedge delay_clk) begin`
			`if ((delay_sel == 1'b1) && (delay_rwn == 1'b0)) begin`
			`case (delay_addr)`
			`8'h06: delay_ld <= 7'h40;`
			`8'h05: delay_ld <= 7'h20;`
			`8'h04: delay_ld <= 7'h10;`
			`8'h03: delay_ld <= 7'h08;`
			`8'h02: delay_ld <= 7'h04;`
			`8'h01: delay_ld <= 7'h02;`
			`8'h00: delay_ld <= 7'h01;`
			`default: delay_ld <= 7'h00;`
			`endcase`
			`end else begin`
			`delay_ld <= 7'h00;`
			`end`
			`end`

			`// delay read interface, a delay ack toggle is used to transfer data to the`
			`// processor side- delay locked is independently transferred`

			`always @(posedge delay_clk) begin`
			`case (delay_addr)`
			`8'h06: delay_rdata <= delay_rdata_s[6];`
			`8'h05: delay_rdata <= delay_rdata_s[5];`
			`8'h04: delay_rdata <= delay_rdata_s[4];`
			`8'h03: delay_rdata <= delay_rdata_s[3];`
			`8'h02: delay_rdata <= delay_rdata_s[2];`
			`8'h01: delay_rdata <= delay_rdata_s[1];`
			`8'h00: delay_rdata <= delay_rdata_s[0];`
			`default: delay_rdata <= 5'd0;`
			`endcase`
			`if (delay_sel == 1'b1) begin`
			`delay_ack_t <= ~delay_ack_t;`
			`end`
			`end`

			`// receive data interface, ibuf -> idelay -> iddr`

			`generate`
			`for (l_inst = 0; l_inst <= 5; l_inst = l_inst + 1) begin: g_rx_data`
fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_in #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE),`
			`.IODELAY_CTRL (0),`
			`.IODELAY_GROUP (PCORE_IODELAY_GROUP))`
			`i_rx_data (`
			`.rx_clk (l_clk),`
			`.rx_data_in_p (rx_data_in_p[l_inst]),`
			`.rx_data_in_n (rx_data_in_n[l_inst]),`
			`.rx_data_p (rx_data_p_s[l_inst]),`
			`.rx_data_n (rx_data_n_s[l_inst]),`
			`.delay_clk (delay_clk),`
			`.delay_rst (delay_rst),`
			`.delay_ld (delay_ld[l_inst]),`
			`.delay_wdata (delay_wdata),`
			`.delay_rdata (delay_rdata_s[l_inst]),`
			`.delay_locked ());`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`endgenerate`

			`// receive frame interface, ibuf -> idelay -> iddr`

fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_in #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE),`
			`.IODELAY_CTRL (1),`
			`.IODELAY_GROUP (PCORE_IODELAY_GROUP))`
			`i_rx_frame (`
			`.rx_clk (l_clk),`
			`.rx_data_in_p (rx_frame_in_p),`
			`.rx_data_in_n (rx_frame_in_n),`
			`.rx_data_p (rx_frame_p_s),`
			`.rx_data_n (rx_frame_n_s),`
			`.delay_clk (delay_clk),`
			`.delay_rst (delay_rst),`
			`.delay_ld (delay_ld[6]),`
			`.delay_wdata (delay_wdata),`
			`.delay_rdata (delay_rdata_s[6]),`
			`.delay_locked (delay_locked));`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// transmit data interface, oddr -> obuf`

			`generate`
			`for (l_inst = 0; l_inst <= 5; l_inst = l_inst + 1) begin: g_tx_data`
fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_out #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE))`
			`i_tx_data (`
			`.tx_clk (l_clk),`
			`.tx_data_p (tx_p_data_p[l_inst]),`
			`.tx_data_n (tx_p_data_n[l_inst]),`
			`.tx_data_out_p (tx_data_out_p[l_inst]),`
			`.tx_data_out_n (tx_data_out_n[l_inst]));`
axi_ad9361: added 2014-03-12 00:01:55 +00:00			`end`
			`endgenerate`

			`// transmit frame interface, oddr -> obuf`

fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_out #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE))`
			`i_tx_frame (`
			`.tx_clk (l_clk),`
			`.tx_data_p (tx_p_frame),`
			`.tx_data_n (tx_p_frame),`
			`.tx_data_out_p (tx_frame_out_p),`
			`.tx_data_out_n (tx_frame_out_n));`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// transmit clock interface, oddr -> obuf`

fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_out #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE))`
			`i_tx_clk (`
			`.tx_clk (l_clk),`
			`.tx_data_p (1'b0),`
			`.tx_data_n (1'b1),`
			`.tx_data_out_p (tx_clk_out_p),`
			`.tx_data_out_n (tx_clk_out_n));`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`// device clock interface (receive clock)`

fmcomms2/c5soc: initial checkin 2014-07-02 18:56:00 +00:00			`ad_lvds_clk #(`
			`.BUFTYPE (PCORE_DEVICE_TYPE))`
			`i_clk (`
			`.clk_in_p (rx_clk_in_p),`
			`.clk_in_n (rx_clk_in_n),`
			`.clk (l_clk));`
axi_ad9361: added 2014-03-12 00:01:55 +00:00
			`endmodule`

			`// ***************************************************************************`
			`// ***************************************************************************`