// // Copyright 2011 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program 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. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // `define DSP_CORE_RX_BASE 160 module rx_control #(parameter FIFOSIZE = 10) (input clk, input rst, input set_stb, input [7:0] set_addr, input [31:0] set_data, input [31:0] master_time, output overrun, // To FIFO interface of Buffer Pool output [31:0] wr_dat_o, output [3:0] wr_flags_o, input wr_ready_i, output wr_ready_o, // From DSP Core input [31:0] sample, output run, input strobe, // FIFO Levels output [15:0] fifo_occupied, output fifo_full, output fifo_empty, // Debug output [31:0] debug_rx ); wire [31:0] new_time, new_command; wire sc_pre1, clear_overrun; wire [31:0] rcvtime_pre; reg [31:0] rcvtime; wire [8:0] lines_per_frame; wire [20:0] numlines; wire send_imm_pre, chain_pre; reg send_imm, chain; wire full_ctrl, read_ctrl, empty_ctrl, write_ctrl; setting_reg #(.my_addr(`DSP_CORE_RX_BASE+3)) sr_3 (.clk(clk),.rst(rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(new_time),.changed(sc_pre1)); setting_reg #(.my_addr(`DSP_CORE_RX_BASE+4)) sr_4 (.clk(clk),.rst(rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(new_command),.changed()); setting_reg #(.my_addr(`DSP_CORE_RX_BASE+5)) sr_5 (.clk(clk),.rst(rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(),.changed(clear_overrun)); reg sc_pre2; always @(posedge clk) sc_pre2 <= sc_pre1; assign write_ctrl = sc_pre1 & ~sc_pre2; shortfifo #(.WIDTH(64)) commandfifo (.clk(clk),.rst(rst),.clear(clear_overrun), .datain({new_command,new_time}), .write(write_ctrl), .full(full_ctrl), .dataout({send_imm_pre,chain_pre,numlines,lines_per_frame,rcvtime_pre}), .read(read_ctrl), .empty(empty_ctrl) ); // Buffer interface to internal FIFO wire have_space, write; wire [35:0] fifo_line; // Internal FIFO, size 9 is 2K, size 10 is 4K fifo_cascade #(.WIDTH(36),.SIZE(FIFOSIZE)) rxfifo (.clk(clk),.reset(rst),.clear(clear_overrun), .datain(fifo_line), .src_rdy_i(write), .dst_rdy_o(have_space), .dataout({wr_flags_o,wr_dat_o}), .src_rdy_o(wr_ready_o), .dst_rdy_i(wr_ready_i), .space(),.occupied(fifo_occupied) ); assign fifo_full = ~have_space; assign fifo_empty = ~wr_ready_o; // Internal FIFO to DSP interface reg [22:0] lines_left; reg [8:0] lines_left_frame; localparam IBS_IDLE = 0; localparam IBS_WAITING = 1; localparam IBS_FIRSTLINE = 2; localparam IBS_RUNNING = 3; localparam IBS_OVERRUN = 4; reg [2:0] ibs_state; wire [32:0] delta_time = {1'b0,rcvtime}-{1'b0,master_time}; wire too_late = (delta_time[32:31] == 2'b11) & ~send_imm; wire go_now = send_imm | ( master_time == rcvtime ); always @(posedge clk) if(rst) begin ibs_state <= IBS_IDLE; lines_left <= 0; lines_left_frame <= 0; rcvtime <= 0; send_imm <= 0; chain <= 0; end else if(clear_overrun) begin ibs_state <= IBS_IDLE; lines_left <= 0; lines_left_frame <= 0; rcvtime <= 0; send_imm <= 0; chain <= 0; end else case(ibs_state) IBS_IDLE : if(~empty_ctrl) begin lines_left <= numlines; lines_left_frame <= lines_per_frame; rcvtime <= rcvtime_pre; ibs_state <= IBS_WAITING; send_imm <= send_imm_pre; chain <= chain_pre; end IBS_WAITING : if(go_now) ibs_state <= IBS_FIRSTLINE; else if(too_late) ibs_state <= IBS_OVERRUN; IBS_FIRSTLINE : if(~have_space | strobe) ibs_state <= IBS_OVERRUN; else ibs_state <= IBS_RUNNING; IBS_RUNNING : if(strobe) if(~have_space) ibs_state <= IBS_OVERRUN; else begin lines_left <= lines_left - 1; if(lines_left == 1) if(~chain) ibs_state <= IBS_IDLE; else if(empty_ctrl) ibs_state <= IBS_OVERRUN; else begin lines_left <= numlines; lines_left_frame <= lines_per_frame; rcvtime <= rcvtime_pre; ibs_state <= IBS_FIRSTLINE; send_imm <= send_imm_pre; chain <= chain_pre; end else if(lines_left_frame == 1) begin lines_left_frame <= lines_per_frame; ibs_state <= IBS_FIRSTLINE; end else lines_left_frame <= lines_left_frame - 1; end // else: !if(~have_space) endcase // case(ibs_state) assign fifo_line = (ibs_state == IBS_FIRSTLINE) ? {2'b0,1'b0,1'b1,master_time} : {2'b0,((lines_left==1)|(lines_left_frame==1)),1'b0,sample}; assign write = ((ibs_state == IBS_FIRSTLINE) | strobe) & have_space; // & (ibs_state == IBS_RUNNING) should strobe only when running assign overrun = (ibs_state == IBS_OVERRUN); assign run = (ibs_state == IBS_RUNNING) | (ibs_state == IBS_FIRSTLINE); assign read_ctrl = ( (ibs_state == IBS_IDLE) | ((ibs_state == IBS_RUNNING) & strobe & have_space & (lines_left==1) & chain) ) & ~empty_ctrl; assign debug_rx = { 8'd0, 1'd0, send_imm, chain, wr_ready_i,wr_ready_o, 2'b0, run, write,have_space,wr_flags_o[1:0],write_ctrl,full_ctrl,read_ctrl,empty_ctrl, sc_pre1, clear_overrun, go_now, too_late, overrun, ibs_state[2:0] }; endmodule // rx_control