simul_axi_read.v 4.51 KB
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/*!
 * <b>Module:</b>simul_axi_read
 * @file simul_axi_read.v
 * @date 2014-04-06  
 * @author Andrey Filippov
 *
 * @brief simulation of read data through maxi channel
 *
 * @copyright Copyright (c) 2014 Elphel, Inc.
 *
 * <b>License:</b>
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 *
 * simul_axi_read.v 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.
 *
 *  simul_axi_read.v 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 <http://www.gnu.org/licenses/> .
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 *
 * Additional permission under GNU GPL version 3 section 7:
 * If you modify this Program, or any covered work, by linking or combining it
 * with independent modules provided by the FPGA vendor only (this permission
 * does not extend to any 3-rd party modules, "soft cores" or macros) under
 * different license terms solely for the purpose of generating binary "bitstream"
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 * files and/or simulating the code, the copyright holders of this Program give
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 * you the right to distribute the covered work without those independent modules
 * as long as the source code for them is available from the FPGA vendor free of
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 * charge, and there is no dependence on any encrypted modules for simulating of
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 * the combined code. This permission applies to you if the distributed code
 * contains all the components and scripts required to completely simulate it
 * with at least one of the Free Software programs.
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 */
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`timescale 1ns/1ps

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module  simul_axi_read #(
    parameter ADDRESS_WIDTH=10
    )(
  input                     clk,
  input                     reset,
  input                     last,      // last data word in burst
  input                     data_stb,  // data strobe (RVALID & RREADY) genearted externally
  input  [ADDRESS_WIDTH-1:0] raddr,     // read burst address as written by axi master, 10 significant bits [11:2], valid at rcmd 
  input              [ 3:0] rlen,      // burst length  as written by axi master, valid at rcmd
  input                     rcmd,      // read command (address+length) strobe
  output [ADDRESS_WIDTH-1:0] addr_out,  // output address
  output                    burst,     // burst in progress
  output reg                err_out);  // data last does not match predicted or FIFO over/under run
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  wire   [ADDRESS_WIDTH-1:0] raddr_fifo; // raddr after fifo
  wire               [ 3:0] rlen_fifo;  // rlen after fifo
  wire                      fifo_valid; // fifo out valid
  reg                       burst_r=0;
  reg                [ 3:0] left_plus_1;
  wire                      start_burst=fifo_valid && data_stb && !burst_r;
  wire                      generated_last= burst?(left_plus_1==1): ( fifo_valid && (rlen_fifo==0)) ;
  wire                      fifo_in_rdy;
  wire                      error_w= (data_stb && (last != generated_last)) || (rcmd && !fifo_in_rdy) || (start_burst && !fifo_valid);
  reg    [ADDRESS_WIDTH-1:0] adr_out_r;
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  assign  burst=burst_r || start_burst;
  assign  addr_out=start_burst?raddr_fifo:adr_out_r;
  always @ (posedge reset or posedge clk) begin
      if (reset)                 burst_r <= 0;
      else if (start_burst)      burst_r <= rlen_fifo!=0;
//      else if (last && data_stb) burst_r <= 0;
      else if (generated_last && data_stb) burst_r <= 0;
      if (reset)                 left_plus_1 <= 0;
      else if (start_burst)      left_plus_1 <= rlen_fifo;
      else if (data_stb)         left_plus_1 <= left_plus_1-1;
      if (reset)                 err_out <= 0;
      else                       err_out <= error_w;
//      if (reset)                 was_last <= 0;
//      else if (data_stb)         was_last <= last;

  end
  always @ (posedge clk) begin
      if   (start_burst) adr_out_r <= raddr_fifo+1; // simulating only address incremental mode
      else if (data_stb) adr_out_r <= adr_out_r + 1;
  
  end
simul_fifo
#(
89
  .WIDTH(ADDRESS_WIDTH+4),
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  .DEPTH(64)
)simmul_fifo_i(
     .clk(clk),
     .reset(reset),
//     .data_in({rlen[3:0],raddr[11:2]}), // did not detect raddr[11:2] for  input  [ 9:0] raddr 
     .data_in({rlen[3:0],raddr}),
     .load(rcmd),
     .input_ready(fifo_in_rdy),
     .data_out({rlen_fifo, raddr_fifo}),
     .valid(fifo_valid),
     .ready(start_burst));
endmodule