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pluto_hdl_adi/library/axi_ad777x/axi_ad777x_if.v

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AD777x support for ZedBoard and DE10Nano (#937) * library/common: Ad adc_status_header, adc_crc_err and adc_crc_enable. * library/axi_ad777x: Initial commit for Xilinx and Intel * projects/ad777x_ardz: Initial commit for ZedBoard and DE10Nano
2022-08-10 08:29:05 +00:00
// ***************************************************************************
// ***************************************************************************
Add/edit copyright and license for .v, .sv files Signed-off-by: Iulia Moldovan <Iulia.Moldovan@analog.com>
2023-07-06 13:54:40 +00:00
// Copyright (C) 2022-2023 Analog Devices, Inc. All rights reserved.
AD777x support for ZedBoard and DE10Nano (#937) * library/common: Ad adc_status_header, adc_crc_err and adc_crc_enable. * library/axi_ad777x: Initial commit for Xilinx and Intel * projects/ad777x_ardz: Initial commit for ZedBoard and DE10Nano
2022-08-10 08:29:05 +00:00
//
// In this HDL repository, there are many different and unique modules, consisting
// of various HDL (Verilog or VHDL) components. The individual modules are
// developed independently, and may be accompanied by separate and unique license
// terms.
//
// The user should read each of these license terms, and understand the
// freedoms and responsibilities that he or she has by using this source/core.
//
// This core is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE.
//
// Redistribution and use of source or resulting binaries, with or without modification
// of this file, are permitted under one of the following two license terms:
//
// 1. The GNU General Public License version 2 as published by the
// Free Software Foundation, which can be found in the top level directory
// of this repository (LICENSE_GPL2), and also online at:
// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
//
// OR
//
// 2. An ADI specific BSD license, which can be found in the top level directory
// of this repository (LICENSE_ADIBSD), and also on-line at:
Replace link in license header from master to main Signed-off-by: Iulia Moldovan <Iulia.Moldovan@analog.com>
2023-12-13 16:03:34 +00:00
// https://github.com/analogdevicesinc/hdl/blob/main/LICENSE_ADIBSD
AD777x support for ZedBoard and DE10Nano (#937) * library/common: Ad adc_status_header, adc_crc_err and adc_crc_enable. * library/axi_ad777x: Initial commit for Xilinx and Intel * projects/ad777x_ardz: Initial commit for ZedBoard and DE10Nano
2022-08-10 08:29:05 +00:00
// This will allow to generate bit files and not release the source code,
// as long as it attaches to an ADI device.
//
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module axi_ad777x_if (
// device-interface
input clk_in,
input ready_in,
output sync_adc_mosi,
input sync_adc_miso,
input [ 3:0] data_in,
input [ 4:0] adc_num_lanes,
input adc_crc_enable,
// data path interface
output adc_clk,
output adc_valid,
output [ 7:0] adc_crc_ch_mismatch,
output [31:0] adc_data_0,
output [31:0] adc_data_1,
output [31:0] adc_data_2,
output [31:0] adc_data_3,
output [31:0] adc_data_4,
output [31:0] adc_data_5,
output [31:0] adc_data_6,
output [31:0] adc_data_7,
output [ 7:0] adc_status_0,
output [ 7:0] adc_status_1,
output [ 7:0] adc_status_2,
output [ 7:0] adc_status_3,
output [ 7:0] adc_status_4,
output [ 7:0] adc_status_5,
output [ 7:0] adc_status_6,
output [ 7:0] adc_status_7
);
// internal registers
reg [ 8:0] adc_cnt_p = 'd0;
reg adc_valid_p = 'd0;
reg [255:0] adc_data_p = 'd0;
reg [31:0] adc_data_0_s = 'd0;
reg [31:0] adc_data_1_s = 'd0;
reg [31:0] adc_data_2_s = 'd0;
reg [31:0] adc_data_3_s = 'd0;
reg [31:0] adc_data_4_s = 'd0;
reg [31:0] adc_data_5_s = 'd0;
reg [31:0] adc_data_6_s = 'd0;
reg [31:0] adc_data_7_s = 'd0;
reg [31:0] adc_data_0_s_d = 'd0;
reg [31:0] adc_data_1_s_d = 'd0;
reg [31:0] adc_data_2_s_d = 'd0;
reg [31:0] adc_data_3_s_d = 'd0;
reg [31:0] adc_data_4_s_d = 'd0;
reg [31:0] adc_data_5_s_d = 'd0;
reg [31:0] adc_data_6_s_d = 'd0;
reg [31:0] adc_data_7_s_d = 'd0;
reg adc_valid_s = 'b0;
reg adc_valid_s_d = 'b0;
reg [ 7:0] adc_crc_read_data_0_1 = 'd0;
reg [ 7:0] adc_crc_read_data_2_3 = 'd0;
reg [ 7:0] adc_crc_read_data_4_5 = 'd0;
reg [ 7:0] adc_crc_read_data_6_7 = 'd0;
reg [55:0] adc_crc_data_0_1 = 'd0;
reg [55:0] adc_crc_data_2_3 = 'd0;
reg [55:0] adc_crc_data_4_5 = 'd0;
reg [55:0] adc_crc_data_6_7 = 'd0;
reg [ 7:0] adc_crc_reg_0_1 = 'd0;
reg [ 7:0] adc_crc_reg_2_3 = 'd0;
reg [ 7:0] adc_crc_reg_4_5 = 'd0;
reg [ 7:0] adc_crc_reg_6_7 = 'd0;
reg [ 7:0] adc_status_0_s = 'd0;
reg [ 7:0] adc_status_1_s = 'd0;
reg [ 7:0] adc_status_2_s = 'd0;
reg [ 7:0] adc_status_3_s = 'd0;
reg [ 7:0] adc_status_4_s = 'd0;
reg [ 7:0] adc_status_5_s = 'd0;
reg [ 7:0] adc_status_6_s = 'd0;
reg [ 7:0] adc_status_7_s = 'd0;
reg [ 7:0] adc_crc_ch_mismatch_s = 'd0;
// internal signals
wire adc_cnt_enable_s;
wire adc_ready_in_s;
wire [ 8:0] adc_cnt_value;
wire [ 7:0] adc_crc_in_s_0_1;
wire [ 7:0] adc_crc_in_s_2_3;
wire [ 7:0] adc_crc_in_s_4_5;
wire [ 7:0] adc_crc_in_s_6_7;
wire [ 7:0] adc_crc_s_0_1;
wire [ 7:0] adc_crc_s_2_3;
wire [ 7:0] adc_crc_s_4_5;
wire [ 7:0] adc_crc_s_6_7;
wire adc_crc_mismatch_s_0_1;
wire adc_crc_mismatch_s_2_3;
wire adc_crc_mismatch_s_4_5;
wire adc_crc_mismatch_s_6_7;
assign adc_valid = adc_valid_s_d;
assign adc_ready_in_s = ready_in;
assign adc_data_0 = adc_data_0_s_d;
assign adc_data_1 = adc_data_1_s_d;
assign adc_data_2 = adc_data_2_s_d;
assign adc_data_3 = adc_data_3_s_d;
assign adc_data_4 = adc_data_4_s_d;
assign adc_data_5 = adc_data_5_s_d;
assign adc_data_6 = adc_data_6_s_d;
assign adc_data_7 = adc_data_7_s_d;
assign sync_adc_mosi = sync_adc_miso;
assign adc_clk = clk_in;
assign adc_status_0 = adc_status_0_s;
assign adc_status_1 = adc_status_1_s;
assign adc_status_2 = adc_status_2_s;
assign adc_status_3 = adc_status_3_s;
assign adc_status_4 = adc_status_4_s;
assign adc_status_5 = adc_status_5_s;
assign adc_status_6 = adc_status_6_s;
assign adc_status_7 = adc_status_7_s;
assign adc_crc_ch_mismatch = adc_crc_ch_mismatch_s;
// function (crc)
function [ 7:0] crc8;
input [55:0] din;
input [ 7:0] cin;
reg [ 7:0] cout;
begin
cout[0] = cin[ 0] ^ cin[ 1] ^ cin[ 2] ^ cin[ 4] ^ cin[ 5] ^ cin[ 6] ^ din[ 0] ^ din[ 6] ^ din[ 7] ^ din[ 8] ^ din[12] ^ din[14] ^ din[16] ^
din[18] ^ din[19] ^ din[21] ^ din[23] ^ din[28] ^ din[30] ^ din[31] ^ din[34] ^ din[35] ^ din[39] ^ din[40] ^ din[43] ^ din[45] ^
din[48] ^ din[49] ^ din[50] ^ din[52] ^ din[53] ^ din[54];
cout[1] = cin[ 0] ^ cin[ 3] ^ cin[ 4] ^ cin[ 7] ^ din[ 0] ^ din[ 1] ^ din[ 6] ^ din[ 9] ^ din[12] ^ din[13] ^ din[14] ^ din[15] ^ din[16] ^
din[17] ^ din[18] ^ din[20] ^ din[21] ^ din[22] ^ din[23] ^ din[24] ^ din[28] ^ din[29] ^ din[30] ^ din[32] ^ din[34] ^ din[36] ^
din[39] ^ din[41] ^ din[43] ^ din[44] ^ din[45] ^ din[46] ^ din[48] ^ din[51] ^ din[52] ^ din[55];
cout[2] = cin[ 0] ^ cin[ 2] ^ cin[ 6] ^ din[ 0] ^ din[ 1] ^ din[ 2] ^ din[ 6] ^ din[ 8] ^ din[10] ^ din[12] ^ din[13] ^ din[15] ^ din[17] ^
din[22] ^ din[24] ^ din[25] ^ din[28] ^ din[29] ^ din[33] ^ din[34] ^ din[37] ^ din[39] ^ din[42] ^ din[43] ^ din[44] ^ din[46] ^
din[47] ^ din[48] ^ din[50] ^ din[54];
cout[3] = cin[ 0] ^ cin[ 1] ^ cin[ 3] ^ cin[ 7] ^ din[ 1] ^ din[ 2] ^ din[ 3] ^ din[ 7] ^ din[ 9] ^ din[11] ^ din[13] ^ din[14] ^ din[16] ^
din[18] ^ din[23] ^ din[25] ^ din[26] ^ din[29] ^ din[30] ^ din[34] ^ din[35] ^ din[38] ^ din[40] ^ din[43] ^ din[44] ^ din[45] ^
din[47] ^ din[48] ^ din[49] ^ din[51] ^ din[55];
cout[4] = cin[ 0] ^ cin[ 1] ^ cin[ 2] ^ cin[ 4] ^ din[ 2] ^ din[ 3] ^ din[ 4] ^ din[ 8] ^ din[10] ^ din[12] ^ din[14] ^ din[15] ^ din[17] ^
din[19] ^ din[24] ^ din[26] ^ din[27] ^ din[30] ^ din[31] ^ din[35] ^ din[36] ^ din[39] ^ din[41] ^ din[44] ^ din[45] ^ din[46] ^
din[48] ^ din[49] ^ din[50] ^ din[52];
cout[5] = cin[ 1] ^ cin[ 2] ^ cin[ 3] ^ cin[ 5] ^ din[ 3] ^ din[ 4] ^ din[ 5] ^ din[ 9] ^ din[11] ^ din[13] ^ din[15] ^ din[16] ^ din[18] ^
din[20] ^ din[25] ^ din[27] ^ din[28] ^ din[31] ^ din[32] ^ din[36] ^ din[37] ^ din[40] ^ din[42] ^ din[45] ^ din[46] ^ din[47] ^
din[49] ^ din[50] ^ din[51] ^ din[53];
cout[6] = cin[ 0] ^ cin[ 2] ^ cin[ 3] ^ cin[ 4] ^ cin[ 6] ^ din[ 4] ^ din[ 5] ^ din[ 6] ^ din[10] ^ din[12] ^ din[14] ^ din[16] ^ din[17] ^
din[19] ^ din[21] ^ din[26] ^ din[28] ^ din[29] ^ din[32] ^ din[33] ^ din[37] ^ din[38] ^ din[41] ^ din[43] ^ din[46] ^ din[47] ^
din[48] ^ din[50] ^ din[51] ^ din[52] ^ din[54];
cout[7] = cin[ 0] ^ cin[ 1] ^ cin[ 3] ^ cin[ 4] ^ cin[ 5] ^ cin[ 7] ^ din[ 5] ^ din[ 6] ^ din[ 7] ^ din[11] ^ din[13] ^ din[15] ^ din[17] ^
din[18] ^ din[20] ^ din[22] ^ din[27] ^ din[29] ^ din[30] ^ din[33] ^ din[34] ^ din[38] ^ din[39] ^ din[42] ^ din[44] ^ din[47] ^
din[48] ^ din[49] ^ din[51] ^ din[52] ^ din[53] ^ din[55];
crc8 = cout;
end
endfunction
//crc computing
assign adc_crc_s_0_1 = crc8(adc_crc_data_0_1, adc_crc_in_s_0_1);
assign adc_crc_s_2_3 = crc8(adc_crc_data_2_3, adc_crc_in_s_2_3);
assign adc_crc_s_4_5 = crc8(adc_crc_data_4_5, adc_crc_in_s_4_5);
assign adc_crc_s_6_7 = crc8(adc_crc_data_6_7, adc_crc_in_s_6_7);
assign adc_crc_in_s_0_1 = (adc_crc_enable == 'd1) ? 8'hff : adc_crc_reg_0_1;
assign adc_crc_in_s_2_3 = (adc_crc_enable == 'd1) ? 8'hff : adc_crc_reg_2_3;
assign adc_crc_in_s_4_5 = (adc_crc_enable == 'd1) ? 8'hff : adc_crc_reg_4_5;
assign adc_crc_in_s_6_7 = (adc_crc_enable == 'd1) ? 8'hff : adc_crc_reg_6_7;
assign adc_crc_mismatch_s_0_1 = (adc_crc_read_data_0_1 == adc_crc_s_0_1) ? 1'b0 : adc_crc_enable;
assign adc_crc_mismatch_s_2_3 = (adc_crc_read_data_2_3 == adc_crc_s_2_3) ? 1'b0 : adc_crc_enable;
assign adc_crc_mismatch_s_4_5 = (adc_crc_read_data_4_5 == adc_crc_s_4_5) ? 1'b0 : adc_crc_enable;
assign adc_crc_mismatch_s_6_7 = (adc_crc_read_data_6_7 == adc_crc_s_6_7) ? 1'b0 : adc_crc_enable;
always @(posedge adc_clk) begin
adc_status_0_s <= (adc_valid_s == 1'b1 ) ? adc_data_0_s[31:24]: adc_status_0_s;
adc_status_1_s <= (adc_valid_s == 1'b1 ) ? adc_data_1_s[31:24]: adc_status_1_s;
adc_status_2_s <= (adc_valid_s == 1'b1 ) ? adc_data_2_s[31:24]: adc_status_2_s;
adc_status_3_s <= (adc_valid_s == 1'b1 ) ? adc_data_3_s[31:24]: adc_status_3_s;
adc_status_4_s <= (adc_valid_s == 1'b1 ) ? adc_data_4_s[31:24]: adc_status_4_s;
adc_status_5_s <= (adc_valid_s == 1'b1 ) ? adc_data_5_s[31:24]: adc_status_5_s;
adc_status_6_s <= (adc_valid_s == 1'b1 ) ? adc_data_6_s[31:24]: adc_status_6_s;
adc_status_7_s <= (adc_valid_s == 1'b1 ) ? adc_data_7_s[31:24]: adc_status_7_s;
adc_crc_ch_mismatch_s[1:0] <= (adc_valid_s_d == 1'b1 ) ? {2{adc_crc_mismatch_s_0_1}} : adc_crc_ch_mismatch_s[1:0];
adc_crc_ch_mismatch_s[3:2] <= (adc_valid_s_d == 1'b1 ) ? {2{adc_crc_mismatch_s_2_3}} : adc_crc_ch_mismatch_s[3:2];
adc_crc_ch_mismatch_s[5:4] <= (adc_valid_s_d == 1'b1 ) ? {2{adc_crc_mismatch_s_4_5}} : adc_crc_ch_mismatch_s[5:4];
adc_crc_ch_mismatch_s[7:6] <= (adc_valid_s_d == 1'b1 ) ? {2{adc_crc_mismatch_s_6_7}} : adc_crc_ch_mismatch_s[7:6];
end
// crc generation/validation data
always @(posedge adc_clk) begin
if (adc_valid_s == 1'b1) begin
adc_crc_reg_0_1 <= adc_crc_s_0_1;
adc_crc_reg_2_3 <= adc_crc_s_2_3;
adc_crc_reg_4_5 <= adc_crc_s_4_5;
adc_crc_reg_6_7 <= adc_crc_s_6_7;
adc_crc_read_data_0_1 <= {adc_data_0_s[27:24],adc_data_1_s[27:24]};
adc_crc_read_data_2_3 <= {adc_data_2_s[27:24],adc_data_3_s[27:24]};
adc_crc_read_data_4_5 <= {adc_data_4_s[27:24],adc_data_5_s[27:24]};
adc_crc_read_data_6_7 <= {adc_data_6_s[27:24],adc_data_7_s[27:24]};
adc_crc_data_0_1 <= {adc_data_0_s[31:28],adc_data_0_s[23:0],adc_data_1_s[31:28],adc_data_1_s[23:0]};
adc_crc_data_2_3 <= {adc_data_2_s[31:28],adc_data_2_s[23:0],adc_data_3_s[31:28],adc_data_3_s[23:0]};
adc_crc_data_4_5 <= {adc_data_4_s[31:28],adc_data_4_s[23:0],adc_data_5_s[31:28],adc_data_5_s[23:0]};
adc_crc_data_6_7 <= {adc_data_6_s[31:28],adc_data_6_s[23:0],adc_data_7_s[31:28],adc_data_7_s[23:0]};
end else begin
adc_crc_reg_0_1 <= 'd0;
adc_crc_reg_2_3 <= 'd0;
adc_crc_reg_4_5 <= 'd0;
adc_crc_reg_6_7 <= 'd0;
adc_crc_read_data_0_1 <= 'd0;
adc_crc_read_data_2_3 <= 'd0;
adc_crc_read_data_4_5 <= 'd0;
adc_crc_read_data_6_7 <= 'd0;
adc_crc_data_0_1 <= 'd0;
adc_crc_data_2_3 <= 'd0;
adc_crc_data_4_5 <= 'd0;
adc_crc_data_6_7 <= 'd0;
end
end
//delay data 1 clk for data, data_valid and crc mismatch for alignment
always @(posedge adc_clk) begin
if (adc_valid_s == 1'b1) begin
adc_data_0_s_d <= adc_data_0_s;
adc_data_1_s_d <= adc_data_1_s;
adc_data_2_s_d <= adc_data_2_s;
adc_data_3_s_d <= adc_data_3_s;
adc_data_4_s_d <= adc_data_4_s;
adc_data_5_s_d <= adc_data_5_s;
adc_data_6_s_d <= adc_data_6_s;
adc_data_7_s_d <= adc_data_7_s;
adc_valid_s_d <= adc_valid_s;
end else begin
adc_data_0_s_d <= 32'b0;
adc_data_1_s_d <= 32'b0;
adc_data_2_s_d <= 32'b0;
adc_data_3_s_d <= 32'b0;
adc_data_4_s_d <= 32'b0;
adc_data_5_s_d <= 32'b0;
adc_data_6_s_d <= 32'b0;
adc_data_7_s_d <= 32'b0;
adc_valid_s_d <= 1'b0;
end
end
always @(posedge adc_clk) begin
if (adc_valid_p == 1'b1) begin
if( adc_num_lanes == 'h1) begin
adc_data_0_s <= adc_data_p[((32*7)+31):(32*7)];
adc_data_1_s <= adc_data_p[((32*6)+31):(32*6)];
adc_data_2_s <= adc_data_p[((32*5)+31):(32*5)];
adc_data_3_s <= adc_data_p[((32*4)+31):(32*4)];
adc_data_4_s <= adc_data_p[((32*3)+31):(32*3)];
adc_data_5_s <= adc_data_p[((32*2)+31):(32*2)];
adc_data_6_s <= adc_data_p[((32*1)+31):(32*1)];
adc_data_7_s <= adc_data_p[((32*0)+31):(32*0)];
end else if( adc_num_lanes == 'h2) begin
adc_data_0_s <= adc_data_p[((32*3)+31):(32*3)];
adc_data_1_s <= adc_data_p[((32*2)+31):(32*2)];
adc_data_2_s <= adc_data_p[((32*1)+31):(32*1)];
adc_data_3_s <= adc_data_p[((32*0)+31):(32*0)];
adc_data_4_s <= adc_data_p[((32*7)+31):(32*7)];
adc_data_5_s <= adc_data_p[((32*6)+31):(32*6)];
adc_data_6_s <= adc_data_p[((32*5)+31):(32*5)];
adc_data_7_s <= adc_data_p[((32*4)+31):(32*4)];
end else begin
adc_data_0_s <= adc_data_p[((32*1)+31):(32*1)];
adc_data_1_s <= adc_data_p[((32*0)+31):(32*0)];
adc_data_2_s <= adc_data_p[((32*3)+31):(32*3)];
adc_data_3_s <= adc_data_p[((32*2)+31):(32*2)];
adc_data_4_s <= adc_data_p[((32*5)+31):(32*5)];
adc_data_5_s <= adc_data_p[((32*4)+31):(32*4)];
adc_data_6_s <= adc_data_p[((32*7)+31):(32*7)];
adc_data_7_s <= adc_data_p[((32*6)+31):(32*6)];
end
adc_valid_s <= adc_valid_p;
end else begin
adc_data_0_s <= 32'b0;
adc_data_1_s <= 32'b0;
adc_data_2_s <= 32'b0;
adc_data_3_s <= 32'b0;
adc_data_4_s <= 32'b0;
adc_data_5_s <= 32'b0;
adc_data_6_s <= 32'b0;
adc_data_7_s <= 32'b0;
adc_valid_s <= 1'b0;
end
end
assign adc_cnt_value = (adc_num_lanes == 'h1) ? 'hff :
((adc_num_lanes == 'h2)? 'h7f : 'h3f);
assign adc_cnt_enable_s = (adc_cnt_p < adc_cnt_value) ? 1'b1 : 1'b0;
always @(negedge adc_clk) begin
if (adc_ready_in_s == 1'b1) begin
adc_cnt_p <= 'h000;
end else if (adc_cnt_enable_s == 1'b1) begin
adc_cnt_p <= adc_cnt_p + 1'b1;
end
if (adc_cnt_p == adc_cnt_value) begin
adc_valid_p <= 1'b1;
end else begin
adc_valid_p <= 1'b0;
end
end
// data (individual lanes)
always @(negedge adc_clk) begin
if( adc_num_lanes == 'h1) begin
if (adc_cnt_p == 'h000 ) begin
adc_data_p[((256*0)+255):(256*0)] <= {255'd0, data_in[0]};
end else begin
adc_data_p[((256*0)+255):(255*0)] <= {adc_data_p[((256*0)+254):(256*0)], data_in[0]};
end
end else if( adc_num_lanes == 'h2) begin
if (adc_cnt_p == 'h000 ) begin
adc_data_p[((128*0)+127):(128*0)] <= {127'd0, data_in[0]};
adc_data_p[((128*1)+127):(128*1)] <= {127'd0, data_in[1]};
end else begin
adc_data_p[((128*0)+127):(128*0)] <= {adc_data_p[((128*0)+126):(128*0)], data_in[0]};
adc_data_p[((128*1)+127):(128*1)] <= {adc_data_p[((128*1)+126):(128*1)], data_in[1]};
end
end else begin
if (adc_cnt_p == 'h000 ) begin
adc_data_p[((64*0)+63):(64*0)] <= {63'd0, data_in[0]};
adc_data_p[((64*1)+63):(64*1)] <= {63'd0, data_in[1]};
adc_data_p[((64*2)+63):(64*2)] <= {63'd0, data_in[2]};
adc_data_p[((64*3)+63):(64*3)] <= {63'd0, data_in[3]};
end else begin
adc_data_p[((64*0)+63):(64*0)] <= {adc_data_p[((64*0)+62):(64*0)], data_in[0]};
adc_data_p[((64*1)+63):(64*1)] <= {adc_data_p[((64*1)+62):(64*1)], data_in[1]};
adc_data_p[((64*2)+63):(64*2)] <= {adc_data_p[((64*2)+62):(64*2)], data_in[2]};
adc_data_p[((64*3)+63):(64*3)] <= {adc_data_p[((64*3)+62):(64*3)], data_in[3]};
end
end
end
endmodule