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[/] [xulalx25soc/] [trunk/] [rtl/] [wbufifo.v] - Blame information for rev 72

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////////////////////////////////////////////////////////////////////////////////
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//
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// Filename:    wbufifo.v
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//
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// Project:     XuLA2 board
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//
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// Purpose:     This was once a FIFO for a UART ... but now it works as a
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//              synchronous FIFO for JTAG-wishbone conversion 36-bit codewords. 
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//
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//
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// Creator:     Dan Gisselquist, Ph.D.
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//              Gisselquist Technology, LLC
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//
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////////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2015, Gisselquist Technology, LLC
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//
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// This program is free software (firmware): you can redistribute it and/or
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// modify it under the terms of  the GNU General Public License as published
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// by the Free Software Foundation, either version 3 of the License, or (at
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// your option) any later version.
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//
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// This program is distributed in the hope that it will be useful, but WITHOUT
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// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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// for more details.
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//
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// License:     GPL, v3, as defined and found on www.gnu.org,
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//              http://www.gnu.org/licenses/gpl.html
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//
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//
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////////////////////////////////////////////////////////////////////////////////
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//
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//
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module wbufifo(i_clk, i_rst, i_wr, i_data, i_rd, o_data, o_empty_n, o_err);
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        parameter       BW=66, LGFLEN=10, FLEN=(1<<LGFLEN);
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        input                   i_clk, i_rst;
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        input                   i_wr;
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        input   [(BW-1):0]       i_data;
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        input                   i_rd;
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        output  reg [(BW-1):0]   o_data;
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        output  reg             o_empty_n;
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        output  wire            o_err;
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        reg     [(BW-1):0]       fifo[0:(FLEN-1)];
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        reg     [(LGFLEN-1):0]   r_first, r_last;
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        reg     will_overflow;
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        initial will_overflow = 1'b0;
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        always @(posedge i_clk)
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                if (i_rst)
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                        will_overflow <= 1'b0;
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                else if (i_rd)
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                        will_overflow <= (will_overflow)&&(i_wr);
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                else if (i_wr)
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                        will_overflow <= (r_first+2 == r_last);
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                else if (r_first+1 == r_last)
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                        will_overflow <= 1'b1;
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        // Write
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        initial r_first = 0;
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        always @(posedge i_clk)
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                if (i_rst)
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                        r_first <= { (LGFLEN){1'b0} };
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                else if (i_wr)
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                begin // Cowardly refuse to overflow
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                        if ((i_rd)||(~will_overflow)) // (r_first+1 != r_last)
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                                r_first <= r_first+{{(LGFLEN-1){1'b0}},1'b1};
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                        // else o_ovfl <= 1'b1;
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                end
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        always @(posedge i_clk)
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                if (i_wr) // Write our new value regardless--on overflow or not
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                        fifo[r_first] <= i_data;
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        // Reads
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        //      Following a read, the next sample will be available on the
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        //      next clock
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        //      Clock   ReadCMD ReadAddr        Output
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        //      0        0        0                fifo[0]
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        //      1       1       0                fifo[0]
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        //      2       0        1               fifo[1]
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        //      3       0        1               fifo[1]
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        //      4       1       1               fifo[1]
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        //      5       1       2               fifo[2]
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        //      6       0        3               fifo[3]
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        //      7       0        3               fifo[3]
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        reg     will_underflow;
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        initial will_underflow = 1'b0;
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        always @(posedge i_clk)
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                if (i_rst)
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                        will_underflow <= 1'b0;
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                else if (i_wr)
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                        will_underflow <= (will_underflow)&&(i_rd);
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                else if (i_rd)
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                        will_underflow <= (r_last+1==r_first);
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                else
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                        will_underflow <= (r_last == r_first);
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        initial r_last = 0;
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        always @(posedge i_clk)
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                if (i_rst)
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                        r_last <= { (LGFLEN){1'b0} };
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                else if (i_rd)
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                begin
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                        if ((i_wr)||(~will_underflow)) // (r_first != r_last)
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                                r_last <= r_last+{{(LGFLEN-1){1'b0}},1'b1};
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                                // Last chases first
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                                // Need to be prepared for a possible two
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                                // reads in quick succession
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                                // o_data <= fifo[r_last+1];
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                        // else o_unfl <= 1'b1;
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                end
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        always @(posedge i_clk)
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                o_data <= fifo[(i_rd)?(r_last+{{(LGFLEN-1){1'b0}},1'b1})
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                                        :(r_last)];
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        wire    [(LGFLEN-1):0]   nxt_first;
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        assign  nxt_first = r_first+{{(LGFLEN-1){1'b0}},1'b1};
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        assign  o_err = ((i_wr)&&(will_overflow)&&(~i_rd))
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                                ||((i_rd)&&(will_underflow)&&(~i_wr));
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        // wire [(LGFLEN-1):0]  fill;
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        // assign       fill = (r_first-r_last);
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        wire    [(LGFLEN-1):0]   nxt_last;
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        assign  nxt_last = r_last+{{(LGFLEN-1){1'b0}},1'b1};
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        always @(posedge i_clk)
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                if (i_rst)
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                        o_empty_n <= 1'b0;
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                else
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                        o_empty_n <= (~i_rd)&&(r_first != r_last)
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                                        ||(i_rd)&&(r_first != nxt_last);
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endmodule

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