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[/] [qaz_libs/] [trunk/] [axi4_stream_lib/] [src/] [axis_gear_box.sv] - Rev 41

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//////////////////////////////////////////////////////////////////////
////                                                              ////
//// Copyright (C) 2017 Authors and OPENCORES.ORG                 ////
////                                                              ////
//// This source file may be used and distributed without         ////
//// restriction provided that this copyright statement is not    ////
//// removed from the file and that any derivative work contains  ////
//// the original copyright notice and the associated disclaimer. ////
////                                                              ////
//// This source file is free software; you can redistribute it   ////
//// and/or modify it under the terms of the GNU Lesser General   ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any   ////
//// later version.                                               ////
////                                                              ////
//// This source 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 Lesser General Public License for more ////
//// details.                                                     ////
////                                                              ////
//// You should have received a copy of the GNU Lesser General    ////
//// Public License along with this source; if not, download it   ////
//// from http://www.opencores.org/lgpl.shtml                     ////
////                                                              ////
//////////////////////////////////////////////////////////////////////

module
  axis_gear_box
  #(
    IN_N = 2, // data bus width in bytes. axis_in.
    OUT_N = 2, // data bus width in bytes. axis_out.
    IN_W = 16, // width in bits
    OUT_W = 14, // width in bits
    U = 1, // TUSER width
    USE_TSTRB = 0, // set to 1 to enable, 0 to disable
    USE_TKEEP = 0, // set to 1 to enable, 0 to disable
    ANTECEDENT = 7, // in:out ratio (ANTECEDENT:CONSEQUENT)
    CONSEQUENT = 8
  )
  (
    axis_if axis_in,
    axis_if axis_out,
    input   aclk,
    input   aresetn
  );

  // --------------------------------------------------------------------
  //
  localparam B_W = IN_W*ANTECEDENT;
  localparam UB_W = $clog2(B_W);
  localparam UB_A = $clog2(ANTECEDENT);
  localparam UB_C = $clog2(CONSEQUENT);
  
// --------------------------------------------------------------------
// synthesis translate_off
  initial
  begin
    a_consequent: assert(B_W % CONSEQUENT == 0) else $fatal;
    a_in_w: assert(B_W % IN_W == 0) else $fatal;
    a_out_w: assert(B_W % OUT_W == 0) else $fatal;
  end
// synthesis translate_on
// --------------------------------------------------------------------

  // --------------------------------------------------------------------
  //
  reg [UB_W:0] wr_index;
  reg [UB_A:0] wr_select;
  wire wr_en = axis_in.tvalid & axis_in.tready & aresetn;
  wire wr_end = wr_en & (wr_index == B_W - IN_W);
  wire [UB_W:0] wr_next_index = wr_end ? 0 : wr_index + IN_W;
  
  always_ff @(posedge aclk)
    if(~aresetn)
      wr_index <= 0;
    else if(wr_en)
      wr_index <= wr_next_index;
  
  always_ff @(posedge aclk)
    if(~aresetn)
      wr_select <= 0;
    else if(wr_en)
      wr_select <= wr_end ? 0 : wr_select + 1;
  
  // --------------------------------------------------------------------
  //
  reg [UB_W:0] rd_index;
  reg [UB_C:0] rd_select;
  wire rd_en = axis_out.tvalid & axis_out.tready;
  wire rd_end = rd_en & (rd_index == B_W - OUT_W);
  wire [UB_W:0] rd_next_index = rd_end ? 0 : rd_index + OUT_W;
  
  always_ff @(posedge aclk)
    if(~aresetn)
      rd_index <= 0;
    else if(rd_en)
      rd_index <= rd_next_index;
  
  always_ff @(posedge aclk)
    if(~aresetn)
      rd_select <= 0;
    else if(rd_en)
      rd_select <= rd_end ? 0 : rd_select + 1;
  
  // --------------------------------------------------------------------
  //
  reg [B_W:0] buffer;
  genvar j;
  
  generate
  begin: buffer_gen
    for(j = 0; j < B_W/IN_W; j++)
      always_ff @(posedge aclk)
        if(wr_en & (wr_select == j))
          buffer[j*IN_W +: IN_W] <= axis_in.tdata[IN_W-1:0];
  end
  endgenerate
  
  // --------------------------------------------------------------------
  //
  // localparam C_DO = B_W/OUT_W;
  localparam MC_DO = 2**$clog2(CONSEQUENT); // max count
  wire [OUT_W-1:0] data_in[MC_DO-1:0];
  wire [OUT_W-1:0] data_out;
  
  generate
  begin: data_out_gen
    for(j = 0; j < CONSEQUENT; j++)
      assign data_in[j] = buffer[j*OUT_W +: OUT_W];
    if(MC_DO > CONSEQUENT)  
      for(j = CONSEQUENT; j < MC_DO; j++)
        assign data_in[j] = 0;
  end
  endgenerate
  
  // --------------------------------------------------------------------
  //
  recursive_mux #(.A($clog2(CONSEQUENT)), .W(OUT_W))
    recursive_mux_i(.select(rd_select), .*);
  
  //---------------------------------------------------
  //  state machine binary definitions
  enum reg [1:0]
    {
      SAME      = 2'b01,
      WR_LAPPED = 2'b10
    } state, next_state;

  //---------------------------------------------------
  //  state machine flop
  always_ff @(posedge aclk)
    if(~aresetn)
      state <= SAME;
    else
      state <= next_state;

  //---------------------------------------------------
  //  state machine
  always_comb
    case(state)
      SAME:          if(wr_end & ~rd_end)
                       next_state <= WR_LAPPED;
                     else
                       next_state <= SAME;

      WR_LAPPED:     if(rd_end & ~wr_end)
                       next_state <= SAME;
                     else
                       next_state <= WR_LAPPED;
                     
      default:       next_state <= SAME;
    endcase  
  
  // --------------------------------------------------------------------
  //
  wire empty = (state == SAME) ? rd_next_index > wr_index : 0;
  wire full = (state == SAME) ? 0 : wr_next_index > rd_index;
  assign axis_in.tready = ~full;
  assign axis_out.tvalid = ~empty;
  assign axis_out.tdata = data_out;

// --------------------------------------------------------------------
//
endmodule


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