// *************************************************************************** // *************************************************************************** // Copyright (C) 2022-2023 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. // // *************************************************************************** // *************************************************************************** `timescale 1ns/1ps module axi_tdd #( // Peripheral ID parameter ID = 0, // Number of active channels parameter CHANNEL_COUNT = 8, // Default polarity per channel parameter DEFAULT_POLARITY = 8'h00, // Timing register width, determines how long a single frame can be. // T_max = (2^REGISTER_WIDTH) / f_clk parameter REGISTER_WIDTH = 32, // Burst count register width. Determines the maximum amount of repetitions // of a frame. parameter BURST_COUNT_WIDTH = 32, // Synchronization / triggering options. These are not mutually exclusive, and // both internal and external triggering can be available and selected at // runtime. parameter SYNC_INTERNAL = 1, parameter SYNC_EXTERNAL = 0, // Whether to insert a CDC stage with false path constraint for the external // synchronization input. parameter SYNC_EXTERNAL_CDC = 0, parameter SYNC_COUNT_WIDTH = 64 ) ( input logic clk, input logic resetn, // Sync signal input logic sync_in, output logic sync_out, // Output channels output logic [CHANNEL_COUNT-1:0] tdd_channel, // AXI BUS input logic s_axi_aresetn, input logic s_axi_aclk, input logic s_axi_awvalid, input logic [ 9:0] s_axi_awaddr, input logic [ 2:0] s_axi_awprot, output logic s_axi_awready, input logic s_axi_wvalid, input logic [31:0] s_axi_wdata, input logic [ 3:0] s_axi_wstrb, output logic s_axi_wready, output logic s_axi_bvalid, output logic [ 1:0] s_axi_bresp, input logic s_axi_bready, input logic s_axi_arvalid, input logic [ 9:0] s_axi_araddr, input logic [ 2:0] s_axi_arprot, output logic s_axi_arready, output logic s_axi_rvalid, output logic [ 1:0] s_axi_rresp, output logic [31:0] s_axi_rdata, input logic s_axi_rready ); // Package import import axi_tdd_pkg::*; // Internal up bus, translated by up_axi logic up_rstn; logic up_clk; logic up_wreq; logic [ 7:0] up_waddr; logic [31:0] up_wdata; logic up_wack; logic up_rreq; logic [ 7:0] up_raddr; logic [31:0] up_rdata; logic up_rack; assign up_clk = s_axi_aclk; assign up_rstn = s_axi_aresetn; // Control signals logic tdd_enable; logic tdd_sync_rst; logic tdd_sync_int; logic tdd_sync_ext; logic tdd_sync_soft; // Config wires logic [BURST_COUNT_WIDTH-1:0] asy_tdd_burst_count; logic [REGISTER_WIDTH-1:0] asy_tdd_startup_delay; logic [REGISTER_WIDTH-1:0] asy_tdd_frame_length; // Synchronization config logic [SYNC_COUNT_WIDTH-1:0] asy_tdd_sync_period; // Channel config logic [CHANNEL_COUNT-1:0] tdd_channel_en; logic [CHANNEL_COUNT-1:0] asy_tdd_channel_pol; logic [REGISTER_WIDTH-1:0] asy_tdd_channel_on [0:CHANNEL_COUNT-1]; logic [REGISTER_WIDTH-1:0] asy_tdd_channel_off [0:CHANNEL_COUNT-1]; // Current counter value logic [REGISTER_WIDTH-1:0] tdd_counter; // Current FSM state state_t tdd_cstate; // Asserted to indicate the end of a tdd frame. This allows the channels to // reset outputs which are still open due to a potential misconfiguration. logic tdd_endof_frame; axi_tdd_regmap #( .ID (ID), .CHANNEL_COUNT (CHANNEL_COUNT), .DEFAULT_POLARITY (DEFAULT_POLARITY), .REGISTER_WIDTH (REGISTER_WIDTH), .BURST_COUNT_WIDTH (BURST_COUNT_WIDTH), .SYNC_INTERNAL (SYNC_INTERNAL), .SYNC_EXTERNAL (SYNC_EXTERNAL), .SYNC_EXTERNAL_CDC (SYNC_EXTERNAL_CDC), .SYNC_COUNT_WIDTH (SYNC_COUNT_WIDTH) ) i_regmap ( .up_rstn (up_rstn), .up_clk (up_clk), .up_wreq (up_wreq), .up_waddr (up_waddr), .up_wdata (up_wdata), .up_wack (up_wack), .up_rreq (up_rreq), .up_raddr (up_raddr), .up_rdata (up_rdata), .up_rack (up_rack), .tdd_clk (clk), .tdd_resetn (resetn), .tdd_cstate (tdd_cstate), .tdd_enable (tdd_enable), .tdd_channel_en (tdd_channel_en), .asy_tdd_channel_pol (asy_tdd_channel_pol), .asy_tdd_burst_count (asy_tdd_burst_count), .asy_tdd_startup_delay (asy_tdd_startup_delay), .asy_tdd_frame_length (asy_tdd_frame_length), .asy_tdd_channel_on (asy_tdd_channel_on), .asy_tdd_channel_off (asy_tdd_channel_off), .asy_tdd_sync_period (asy_tdd_sync_period), .tdd_sync_rst (tdd_sync_rst), .tdd_sync_int (tdd_sync_int), .tdd_sync_ext (tdd_sync_ext), .tdd_sync_soft (tdd_sync_soft)); axi_tdd_counter #( .REGISTER_WIDTH (REGISTER_WIDTH), .BURST_COUNT_WIDTH (BURST_COUNT_WIDTH) ) i_counter ( .clk (clk), .resetn (resetn), .tdd_enable (tdd_enable), .tdd_sync_rst (tdd_sync_rst), .tdd_sync (sync_out), .asy_tdd_burst_count (asy_tdd_burst_count), .asy_tdd_startup_delay (asy_tdd_startup_delay), .asy_tdd_frame_length (asy_tdd_frame_length), .tdd_counter (tdd_counter), .tdd_cstate (tdd_cstate), .tdd_endof_frame (tdd_endof_frame)); axi_tdd_sync_gen #( .SYNC_INTERNAL (SYNC_INTERNAL), .SYNC_EXTERNAL (SYNC_EXTERNAL), .SYNC_EXTERNAL_CDC (SYNC_EXTERNAL_CDC), .SYNC_COUNT_WIDTH (SYNC_COUNT_WIDTH) ) i_sync_gen ( .clk (clk), .resetn (resetn), .sync_in (sync_in), .sync_out (sync_out), .tdd_enable (tdd_enable), .tdd_sync_int (tdd_sync_int), .tdd_sync_ext (tdd_sync_ext), .tdd_sync_soft (tdd_sync_soft), .asy_tdd_sync_period (asy_tdd_sync_period)); genvar i; generate for (i = 0; i < CHANNEL_COUNT; i=i+1) begin axi_tdd_channel #( .DEFAULT_POLARITY (DEFAULT_POLARITY[i]), .REGISTER_WIDTH (REGISTER_WIDTH) ) i_channel ( .clk (clk), .resetn (resetn), .tdd_counter (tdd_counter), .tdd_cstate (tdd_cstate), .tdd_enable (tdd_enable), .tdd_endof_frame (tdd_endof_frame), .ch_en (tdd_channel_en[i]), .asy_ch_pol (asy_tdd_channel_pol[i]), .asy_t_high (asy_tdd_channel_on[i]), .asy_t_low (asy_tdd_channel_off[i]), .out (tdd_channel[i])); end endgenerate up_axi #( .AXI_ADDRESS_WIDTH(10) ) i_up_axi ( .up_rstn(s_axi_aresetn), .up_clk(s_axi_aclk), .up_axi_awvalid(s_axi_awvalid), .up_axi_awaddr(s_axi_awaddr), .up_axi_awready(s_axi_awready), .up_axi_wvalid(s_axi_wvalid), .up_axi_wdata(s_axi_wdata), .up_axi_wstrb(s_axi_wstrb), .up_axi_wready(s_axi_wready), .up_axi_bvalid(s_axi_bvalid), .up_axi_bresp(s_axi_bresp), .up_axi_bready(s_axi_bready), .up_axi_arvalid(s_axi_arvalid), .up_axi_araddr(s_axi_araddr), .up_axi_arready(s_axi_arready), .up_axi_rvalid(s_axi_rvalid), .up_axi_rresp(s_axi_rresp), .up_axi_rdata(s_axi_rdata), .up_axi_rready(s_axi_rready), .up_wreq(up_wreq), .up_waddr(up_waddr), .up_wdata(up_wdata), .up_wack(up_wack), .up_rreq(up_rreq), .up_raddr(up_raddr), .up_rdata(up_rdata), .up_rack(up_rack)); endmodule