// *************************************************************************** // *************************************************************************** // Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved. // // 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: // // // 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: // https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD // This will allow to generate bit files and not release the source code, // as long as it attaches to an ADI device. // // *************************************************************************** // *************************************************************************** // serial data output interface: serdes(x8) `timescale 1ps/1ps module ad_serdes_out #( parameter FPGA_TECHNOLOGY = 0, parameter CMOS_LVDS_N = 0, parameter DDR_OR_SDR_N = 1, parameter SERDES_FACTOR = 8, parameter DATA_WIDTH = 16 ) ( // reset and clocks input rst, input clk, input div_clk, input loaden, // data interface input data_oe, input [(DATA_WIDTH-1):0] data_s0, // 1st bit to be transmitted input [(DATA_WIDTH-1):0] data_s1, input [(DATA_WIDTH-1):0] data_s2, input [(DATA_WIDTH-1):0] data_s3, input [(DATA_WIDTH-1):0] data_s4, input [(DATA_WIDTH-1):0] data_s5, input [(DATA_WIDTH-1):0] data_s6, input [(DATA_WIDTH-1):0] data_s7, // last bit to be transmitted output [(DATA_WIDTH-1):0] data_out_se, output [(DATA_WIDTH-1):0] data_out_p, output [(DATA_WIDTH-1):0] data_out_n ); localparam SEVEN_SERIES = 1; localparam ULTRASCALE = 2; localparam ULTRASCALE_PLUS = 3; localparam DR_OQ_DDR = DDR_OR_SDR_N == 1'b1 ? "DDR": "SDR"; localparam SIM_DEVICE = FPGA_TECHNOLOGY == SEVEN_SERIES ? "7SERIES" : FPGA_TECHNOLOGY == ULTRASCALE ? "ULTRASCALE" : FPGA_TECHNOLOGY == ULTRASCALE_PLUS ? "ULTRASCALE_PLUS" : "UNSUPPORTED"; // internal signals wire [(DATA_WIDTH-1):0] data_out_s; wire [(DATA_WIDTH-1):0] serdes_shift1_s; wire [(DATA_WIDTH-1):0] serdes_shift2_s; wire [(DATA_WIDTH-1):0] data_t; wire buffer_disable; assign data_out_se = data_out_s; assign buffer_disable = ~data_oe; // instantiations reg [6:0] serdes_rst_seq; wire serdes_rst = serdes_rst_seq [6]; always @ (posedge div_clk) begin if (rst) serdes_rst_seq [6:0] <= 7'b0001110; else serdes_rst_seq [6:0] <= {serdes_rst_seq [5:0], 1'b0}; end genvar l_inst; generate for (l_inst = 0; l_inst <= (DATA_WIDTH-1); l_inst = l_inst + 1) begin: g_data if (FPGA_TECHNOLOGY == SEVEN_SERIES) begin OSERDESE2 #( .DATA_RATE_OQ (DR_OQ_DDR), .DATA_RATE_TQ ("SDR"), .DATA_WIDTH (SERDES_FACTOR), .TRISTATE_WIDTH (1), .SERDES_MODE ("MASTER") ) i_serdes ( .D1 (data_s0[l_inst]), .D2 (data_s1[l_inst]), .D3 (data_s2[l_inst]), .D4 (data_s3[l_inst]), .D5 (data_s4[l_inst]), .D6 (data_s5[l_inst]), .D7 (data_s6[l_inst]), .D8 (data_s7[l_inst]), .T1 (buffer_disable), .T2 (buffer_disable), .T3 (buffer_disable), .T4 (buffer_disable), .SHIFTIN1 (1'b0), .SHIFTIN2 (1'b0), .SHIFTOUT1 (), .SHIFTOUT2 (), .OCE (1'b1), .CLK (clk), .CLKDIV (div_clk), .OQ (data_out_s[l_inst]), .TQ (data_t[l_inst]), .OFB (), .TFB (), .TBYTEIN (1'b0), .TBYTEOUT (), .TCE (1'b1), .RST (serdes_rst)); end if (FPGA_TECHNOLOGY == ULTRASCALE || FPGA_TECHNOLOGY == ULTRASCALE_PLUS) begin OSERDESE3 #( .DATA_WIDTH (SERDES_FACTOR), .SIM_DEVICE (SIM_DEVICE) ) i_serdes ( .D ({data_s7[l_inst], data_s6[l_inst], data_s5[l_inst], data_s4[l_inst], data_s3[l_inst], data_s2[l_inst], data_s1[l_inst], data_s0[l_inst]}), .T (buffer_disable), .CLK (clk), .CLKDIV (div_clk), .OQ (data_out_s[l_inst]), .T_OUT (data_t[l_inst]), .RST (serdes_rst)); end if (CMOS_LVDS_N == 0) begin OBUFTDS i_obuf ( .T (data_t[l_inst]), .I (data_out_s[l_inst]), .O (data_out_p[l_inst]), .OB (data_out_n[l_inst])); end else begin OBUFT i_obuf ( .T (data_t[l_inst]), .I (data_out_s[l_inst]), .O (data_out_p[l_inst])); end end endgenerate endmodule