// *************************************************************************** // *************************************************************************** // 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. // *************************************************************************** // *************************************************************************** // *************************************************************************** // *************************************************************************** `timescale 1ns/100ps module up_dac_common ( // mmcm reset mmcm_rst, // dac interface dac_clk, dac_rst, dac_sync, dac_frame, dac_par_type, dac_par_enb, dac_r1_mode, dac_datafmt, dac_datarate, dac_status, dac_status_ovf, dac_status_unf, dac_clk_ratio, // drp interface drp_clk, drp_rst, drp_sel, drp_wr, drp_addr, drp_wdata, drp_rdata, drp_ready, drp_locked, // user channel control up_usr_chanmax, dac_usr_chanmax, // bus interface up_rstn, up_clk, up_sel, up_wr, up_addr, up_wdata, up_rdata, up_ack); // parameters localparam PCORE_VERSION = 32'h00080061; parameter PCORE_ID = 0; // mmcm reset output mmcm_rst; // dac interface input dac_clk; output dac_rst; output dac_sync; output dac_frame; output dac_par_type; output dac_par_enb; output dac_r1_mode; output dac_datafmt; output [ 7:0] dac_datarate; input dac_status; input dac_status_ovf; input dac_status_unf; input [31:0] dac_clk_ratio; // drp interface input drp_clk; output drp_rst; output drp_sel; output drp_wr; output [11:0] drp_addr; output [15:0] drp_wdata; input [15:0] drp_rdata; input drp_ready; input drp_locked; // user channel control output [ 7:0] up_usr_chanmax; input [ 7:0] dac_usr_chanmax; // bus interface input up_rstn; input up_clk; input up_sel; input up_wr; input [13:0] up_addr; input [31:0] up_wdata; output [31:0] up_rdata; output up_ack; // internal registers reg [31:0] up_scratch = '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 [ 7:0] up_dac_datarate = 'd0; reg up_dac_frame = 'd0; reg up_drp_sel_t = 'd0; reg up_drp_rwn = 'd0; reg [11:0] up_drp_addr = 'd0; reg [15:0] up_drp_wdata = 'd0; reg up_status_ovf = 'd0; reg up_status_unf = 'd0; reg [ 7:0] up_usr_chanmax = 'd0; reg up_ack = 'd0; reg [31:0] up_rdata = 'd0; reg dac_sync_d = 'd0; reg dac_sync_2d = 'd0; reg [ 5:0] dac_sync_count = 'd0; reg dac_sync = 'd0; reg dac_frame_d = 'd0; reg dac_frame_2d = 'd0; reg dac_frame = 'd0; // internal signals wire up_sel_s; wire up_wr_s; wire up_preset_s; wire up_mmcm_preset_s; wire up_xfer_done_s; wire up_status_s; wire up_status_ovf_s; wire up_status_unf_s; wire dac_sync_s; wire dac_frame_s; wire [31:0] up_dac_clk_count_s; wire [15:0] up_drp_rdata_s; wire up_drp_status_s; wire up_drp_locked_s; // decode block select assign up_sel_s = (up_addr[13:8] == 6'h10) ? up_sel : 1'b0; assign up_wr_s = up_sel_s & up_wr; assign up_preset_s = ~up_resetn; assign up_mmcm_preset_s = ~up_mmcm_resetn; // processor write interface always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_scratch <= '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_drp_sel_t <= 'd0; up_drp_rwn <= 'd0; up_drp_addr <= 'd0; up_drp_wdata <= 'd0; up_status_ovf <= 'd0; up_status_ovf <= 'd0; up_usr_chanmax <= 'd0; end else begin if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h02)) begin up_scratch <= up_wdata; end if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h10)) begin 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_wr_s == 1'b1) && (up_addr[7:0] == 8'h11)) begin up_dac_sync <= up_wdata[0]; end if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'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_wr_s == 1'b1) && (up_addr[7:0] == 8'h13)) begin up_dac_datarate <= up_wdata[7:0]; 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_wr_s == 1'b1) && (up_addr[7:0] == 8'h14)) begin up_dac_frame <= up_wdata[0]; end if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h1c)) begin up_drp_sel_t <= ~up_drp_sel_t; up_drp_rwn <= up_wdata[28]; up_drp_addr <= up_wdata[27:16]; up_drp_wdata <= up_wdata[15:0]; end if (up_status_ovf_s == 1'b1) begin up_status_ovf <= 1'b1; end else if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h22)) begin up_status_ovf <= up_status_ovf & ~up_wdata[1]; end if (up_status_unf_s == 1'b1) begin up_status_unf <= 1'b1; end else if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h22)) begin up_status_unf <= up_status_unf & ~up_wdata[0]; end if ((up_wr_s == 1'b1) && (up_addr[7:0] == 8'h28)) begin up_usr_chanmax <= up_wdata[7:0]; end end end // processor read interface always @(negedge up_rstn or posedge up_clk) begin if (up_rstn == 0) begin up_ack <= 'd0; up_rdata <= 'd0; end else begin up_ack <= up_sel_s; if (up_sel_s == 1'b1) begin case (up_addr[7:0]) 8'h00: up_rdata <= PCORE_VERSION; 8'h01: up_rdata <= PCORE_ID; 8'h02: up_rdata <= up_scratch; 8'h10: up_rdata <= {30'd0, up_mmcm_resetn, up_resetn}; 8'h11: up_rdata <= {31'd0, up_dac_sync}; 8'h12: up_rdata <= {24'd0, up_dac_par_type, up_dac_par_enb, up_dac_r1_mode, up_dac_datafmt, 4'd0}; 8'h13: up_rdata <= {24'd0, up_dac_datarate}; 8'h14: up_rdata <= {31'd0, up_dac_frame}; 8'h15: up_rdata <= up_dac_clk_count_s; 8'h16: up_rdata <= dac_clk_ratio; 8'h17: up_rdata <= {31'd0, up_status_s}; 8'h1c: up_rdata <= {3'd0, up_drp_rwn, up_drp_addr, up_drp_wdata}; 8'h1d: up_rdata <= {14'd0, up_drp_locked_s, up_drp_status_s, up_drp_rdata_s}; 8'h22: up_rdata <= {30'd0, up_status_ovf, up_status_unf}; 8'h28: up_rdata <= {24'd0, dac_usr_chanmax}; default: up_rdata <= 0; endcase end else begin up_rdata <= 32'd0; end end end // resets ad_rst i_mmcm_rst_reg (.preset(up_mmcm_preset_s), .clk(drp_clk), .rst(mmcm_rst)); ad_rst i_dac_rst_reg (.preset(up_preset_s), .clk(dac_clk), .rst(dac_rst)); ad_rst i_drp_rst_reg (.preset(up_preset_s), .clk(drp_clk), .rst(drp_rst)); // dac control & status up_xfer_cntrl #(.DATA_WIDTH(14)) i_dac_xfer_cntrl ( .up_rstn (up_rstn), .up_clk (up_clk), .up_data_cntrl ({ up_dac_sync, 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_frame_s, dac_par_type, dac_par_enb, dac_r1_mode, dac_datafmt, dac_datarate})); up_xfer_status #(.DATA_WIDTH(3)) i_dac_xfer_status ( .up_rstn (up_rstn), .up_clk (up_clk), .up_data_status ({up_status_s, up_status_ovf_s, up_status_unf_s}), .d_rst (dac_rst), .d_clk (dac_clk), .d_data_status ({ dac_status, dac_status_ovf, dac_status_unf})); // generate frame and enable 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 <= dac_sync_count[5]; dac_frame_d <= dac_frame_s; dac_frame_2d <= dac_frame_d; dac_frame <= dac_frame_d & ~dac_frame_2d; end // dac clock monitor up_clock_mon i_dac_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)); // drp control & status up_drp_cntrl i_drp_cntrl ( .drp_clk (drp_clk), .drp_rst (drp_rst), .drp_sel (drp_sel), .drp_wr (drp_wr), .drp_addr (drp_addr), .drp_wdata (drp_wdata), .drp_rdata (drp_rdata), .drp_ready (drp_ready), .drp_locked (drp_locked), .up_rstn (up_rstn), .up_clk (up_clk), .up_drp_sel_t (up_drp_sel_t), .up_drp_rwn (up_drp_rwn), .up_drp_addr (up_drp_addr), .up_drp_wdata (up_drp_wdata), .up_drp_rdata (up_drp_rdata_s), .up_drp_status (up_drp_status_s), .up_drp_locked (up_drp_locked_s)); endmodule // *************************************************************************** // ***************************************************************************