// *************************************************************************** // *************************************************************************** // 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. // // *************************************************************************** // *************************************************************************** `timescale 1ns/100ps module up_dac_common #( // parameters parameter ID = 0, parameter CONFIG = 0, parameter CLK_EDGE_SEL = 1'b0, parameter COMMON_ID = 6'h10, parameter DRP_DISABLE = 0, parameter USERPORTS_DISABLE = 0, parameter GPIO_DISABLE = 0) ( // mmcm reset output mmcm_rst, // dac interface input dac_clk, output dac_rst, output dac_sync, output dac_frame, output dac_clksel, output dac_par_type, output dac_par_enb, output dac_r1_mode, output dac_datafmt, output [15:0] dac_datarate, input dac_status, input dac_status_unf, input [31:0] dac_clk_ratio, output up_dac_ce, input [31:0] up_pps_rcounter, input up_pps_status, output reg up_pps_irq_mask, // drp interface output up_drp_sel, output up_drp_wr, output [11:0] up_drp_addr, output [31:0] up_drp_wdata, input [31:0] up_drp_rdata, input up_drp_ready, input up_drp_locked, // user channel control output [ 7:0] up_usr_chanmax, input [ 7:0] dac_usr_chanmax, input [31:0] up_dac_gpio_in, output [31:0] up_dac_gpio_out, // bus interface input up_rstn, input up_clk, input up_wreq, input [13:0] up_waddr, input [31:0] up_wdata, output up_wack, input up_rreq, input [13:0] up_raddr, output [31:0] up_rdata, output up_rack); // parameters localparam VERSION = 32'h00090062; // internal registers reg up_core_preset = 'd1; reg up_mmcm_preset = 'd1; reg up_wack_int = 'd0; reg [31:0] up_scratch = 'd0; reg up_dac_clk_enb_int = 'd0; reg up_dac_clk_enb = 'd0; reg up_mmcm_resetn = 'd0; reg up_resetn = 'd0; reg up_dac_sync = 'd0; reg up_dac_par_type = 'd0; reg up_dac_par_enb = 'd0; reg up_dac_r1_mode = 'd0; reg up_dac_datafmt = 'd0; reg [15:0] up_dac_datarate = 'd0; reg up_dac_frame = 'd0; reg up_dac_clksel = CLK_EDGE_SEL; reg up_status_unf = 'd0; reg [ 7:0] up_usr_chanmax_int = 'd0; reg [31:0] up_dac_gpio_out_int = 'd0; reg [31:0] up_timer = 'd0; reg up_rack_int = 'd0; reg [31:0] up_rdata_int = 'd0; reg dac_sync_d = 'd0; reg dac_sync_2d = 'd0; reg [ 5:0] dac_sync_count = 'd0; reg dac_sync_int = 'd0; reg dac_frame_d = 'd0; reg dac_frame_2d = 'd0; reg dac_frame_int = 'd0; // internal signals wire up_wreq_s; wire up_rreq_s; wire up_xfer_done_s; wire up_status_s; wire up_status_unf_s; wire dac_sync_s; wire dac_frame_s; wire [31:0] up_dac_clk_count_s; wire up_drp_status_s; wire up_drp_rwn_s; wire [31:0] up_drp_rdata_hold_s; // decode block select assign up_wreq_s = ({up_waddr[13:7],1'b0} == COMMON_ID) ? up_wreq : 1'b0; assign up_rreq_s = ({up_raddr[13:7],1'b0} == COMMON_ID) ? up_rreq : 1'b0; assign up_dac_ce = up_dac_clk_enb_int; // processor write interface assign up_wack = up_wack_int; always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_core_preset <= 1'd1; up_mmcm_preset <= 1'd1; up_wack_int <= 'd0; up_scratch <= 'd0; up_dac_clk_enb_int <= 'd1; up_dac_clk_enb <= 'd0; up_mmcm_resetn <= 'd0; up_resetn <= 'd0; up_dac_sync <= 'd0; up_dac_par_type <= 'd0; up_dac_par_enb <= 'd0; up_dac_r1_mode <= 'd0; up_dac_datafmt <= 'd0; up_dac_datarate <= 'd0; up_dac_frame <= 'd0; up_dac_clksel <= CLK_EDGE_SEL; up_pps_irq_mask <= 1'b1; end else begin up_dac_clk_enb_int <= ~up_dac_clk_enb; up_core_preset <= ~up_resetn; up_mmcm_preset <= ~up_mmcm_resetn; up_wack_int <= up_wreq_s; if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h02)) begin up_scratch <= up_wdata; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h04)) begin up_pps_irq_mask <= up_wdata[0]; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h10)) begin up_dac_clk_enb <= up_wdata[2]; up_mmcm_resetn <= up_wdata[1]; up_resetn <= up_wdata[0]; end if (up_dac_sync == 1'b1) begin if (up_xfer_done_s == 1'b1) begin up_dac_sync <= 1'b0; end end else if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h11)) begin up_dac_sync <= up_wdata[0]; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h12)) begin up_dac_par_type <= up_wdata[7]; up_dac_par_enb <= up_wdata[6]; up_dac_r1_mode <= up_wdata[5]; up_dac_datafmt <= up_wdata[4]; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h13)) begin up_dac_datarate <= up_wdata[15:0]; end if (up_dac_frame == 1'b1) begin if (up_xfer_done_s == 1'b1) begin up_dac_frame <= 1'b0; end end else if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h14)) begin up_dac_frame <= up_wdata[0]; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h18)) begin up_dac_clksel <= up_wdata[0]; end end end generate if (DRP_DISABLE == 1) begin assign up_drp_sel = 'd0; assign up_drp_wr = 'd0; assign up_drp_status_s = 'd0; assign up_drp_rwn_s = 'd0; assign up_drp_addr = 'd0; assign up_drp_wdata = 'd0; assign up_drp_rdata_hold_s = 'd0; end else begin reg up_drp_sel_int = 'd0; reg up_drp_wr_int = 'd0; reg up_drp_status_int = 'd0; reg up_drp_rwn_int = 'd0; reg [11:0] up_drp_addr_int = 'd0; reg [31:0] up_drp_wdata_int = 'd0; reg [31:0] up_drp_rdata_hold_int = 'd0; always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_drp_sel_int <= 'd0; up_drp_wr_int <= 'd0; up_drp_status_int <= 'd0; up_drp_rwn_int <= 'd0; up_drp_addr_int <= 'd0; up_drp_wdata_int <= 'd0; up_drp_rdata_hold_int <= 'd0; end else begin if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h1c)) begin up_drp_sel_int <= 1'b1; up_drp_wr_int <= ~up_wdata[28]; end else begin up_drp_sel_int <= 1'b0; up_drp_wr_int <= 1'b0; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h1c)) begin up_drp_status_int <= 1'b1; end else if (up_drp_ready == 1'b1) begin up_drp_status_int <= 1'b0; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h1c)) begin up_drp_rwn_int <= up_wdata[28]; up_drp_addr_int <= up_wdata[27:16]; end if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h1e)) begin up_drp_wdata_int <= up_wdata; end if (up_drp_ready == 1'b1) begin up_drp_rdata_hold_int <= up_drp_rdata; end end end assign up_drp_sel = up_drp_sel_int; assign up_drp_wr = up_drp_wr_int; assign up_drp_status_s = up_drp_status_int; assign up_drp_rwn_s = up_drp_rwn_int; assign up_drp_addr = up_drp_addr_int; assign up_drp_wdata = up_drp_wdata_int; assign up_drp_rdata_hold_s = up_drp_rdata_hold_int; end endgenerate always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_status_unf <= 'd0; end else begin if (up_status_unf_s == 1'b1) begin up_status_unf <= 1'b1; end else if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h22)) begin up_status_unf <= up_status_unf & ~up_wdata[0]; end end end assign up_usr_chanmax = up_usr_chanmax_int; generate if (USERPORTS_DISABLE == 1) begin always @(posedge up_clk) begin up_usr_chanmax_int <= 'd0; end end else begin always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_usr_chanmax_int <= 'd0; end else begin if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h28)) begin up_usr_chanmax_int <= up_wdata[7:0]; end end end end endgenerate assign up_dac_gpio_out = up_dac_gpio_out_int; generate if (GPIO_DISABLE == 1) begin always @(posedge up_clk) begin up_dac_gpio_out_int <= 'd0; end end else begin always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_dac_gpio_out_int <= 'd0; end else begin if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h2f)) begin up_dac_gpio_out_int <= up_wdata; end end end end endgenerate // timer with premature termination always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_timer <= 32'd0; end else begin if ((up_wreq_s == 1'b1) && (up_waddr[6:0] == 7'h40)) begin up_timer <= up_wdata; end else if (up_timer > 0) begin up_timer <= up_timer - 1'b1; end end end // processor read interface assign up_rack = up_rack_int; assign up_rdata = up_rdata_int; always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_rack_int <= 'd0; up_rdata_int <= 'd0; end else begin up_rack_int <= up_rreq_s; if (up_rreq_s == 1'b1) begin case (up_raddr[6:0]) 7'h00: up_rdata_int <= VERSION; 7'h01: up_rdata_int <= ID; 7'h02: up_rdata_int <= up_scratch; 7'h03: up_rdata_int <= CONFIG; 7'h10: up_rdata_int <= {29'd0, up_dac_clk_enb, up_mmcm_resetn, up_resetn}; 7'h11: up_rdata_int <= {31'd0, up_dac_sync}; 7'h12: up_rdata_int <= {24'd0, up_dac_par_type, up_dac_par_enb, up_dac_r1_mode, up_dac_datafmt, 4'd0}; 7'h13: up_rdata_int <= {16'd0, up_dac_datarate}; 7'h14: up_rdata_int <= {31'd0, up_dac_frame}; 7'h15: up_rdata_int <= up_dac_clk_count_s; 7'h16: up_rdata_int <= dac_clk_ratio; 7'h17: up_rdata_int <= {31'd0, up_status_s}; 7'h18: up_rdata_int <= {31'd0, up_dac_clksel}; 7'h1c: up_rdata_int <= {3'd0, up_drp_rwn_s, up_drp_addr, 16'b0}; 7'h1d: up_rdata_int <= {14'd0, up_drp_locked, up_drp_status_s, 16'b0}; 7'h1e: up_rdata_int <= up_drp_wdata; 7'h1f: up_rdata_int <= up_drp_rdata_hold_s; 7'h22: up_rdata_int <= {31'd0, up_status_unf}; 7'h28: up_rdata_int <= {24'd0, dac_usr_chanmax}; 7'h2e: up_rdata_int <= up_dac_gpio_in; 7'h2f: up_rdata_int <= up_dac_gpio_out_int; 7'h30: up_rdata_int <= up_pps_rcounter; 7'h31: up_rdata_int <= up_pps_status; 7'h40: up_rdata_int <= up_timer; default: up_rdata_int <= 0; endcase end else begin up_rdata_int <= 32'd0; end end end // resets ad_rst i_mmcm_rst_reg (.rst_async(up_mmcm_preset), .clk(up_clk), .rstn(), .rst(mmcm_rst)); ad_rst i_core_rst_reg (.rst_async(up_core_preset), .clk(dac_clk), .rstn(), .rst(dac_rst)); // dac control & status up_xfer_cntrl #(.DATA_WIDTH(23)) i_xfer_cntrl ( .up_rstn (up_rstn), .up_clk (up_clk), .up_data_cntrl ({ up_dac_sync, up_dac_clksel, up_dac_frame, up_dac_par_type, up_dac_par_enb, up_dac_r1_mode, up_dac_datafmt, up_dac_datarate}), .up_xfer_done (up_xfer_done_s), .d_rst (dac_rst), .d_clk (dac_clk), .d_data_cntrl ({ dac_sync_s, dac_clksel, dac_frame_s, dac_par_type, dac_par_enb, dac_r1_mode, dac_datafmt, dac_datarate})); up_xfer_status #(.DATA_WIDTH(2)) i_xfer_status ( .up_rstn (up_rstn), .up_clk (up_clk), .up_data_status ({up_status_s, up_status_unf_s}), .d_rst (dac_rst), .d_clk (dac_clk), .d_data_status ({ dac_status, dac_status_unf})); // generate frame and enable assign dac_sync = dac_sync_int; assign dac_frame = dac_frame_int; always @(posedge dac_clk) begin dac_sync_d <= dac_sync_s; dac_sync_2d <= dac_sync_d; if (dac_sync_count[5] == 1'b1) begin dac_sync_count <= dac_sync_count + 1'b1; end else if ((dac_sync_d == 1'b1) && (dac_sync_2d == 1'b0)) begin dac_sync_count <= 6'h20; end dac_sync_int <= dac_sync_count[5]; dac_frame_d <= dac_frame_s; dac_frame_2d <= dac_frame_d; dac_frame_int <= dac_frame_d & ~dac_frame_2d; end // dac clock monitor up_clock_mon i_clock_mon ( .up_rstn (up_rstn), .up_clk (up_clk), .up_d_count (up_dac_clk_count_s), .d_rst (dac_rst), .d_clk (dac_clk)); endmodule // *************************************************************************** // ***************************************************************************