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[/] [minsoc/] [trunk/] [utils/] [contributions/] [initialized_onchip_ram/] [minsoc_onchip_ram_top_altera.v] - Blame information for rev 94

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1 40 rfajardo
//////////////////////////////////////////////////////////////////////
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////                                                              ////
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////             Generic Wishbone controller for                  ////
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////              Single-Port Synchronous RAM                     ////
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////                                                              ////
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////  This file is part of memory library available from          ////
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////  http://www.opencores.org/cvsweb.shtml/minsoc/               ////
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////                                                              ////
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////  Description                                                 ////
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////  This Wishbone controller connects to the wrapper of         ////
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////  the single-port synchronous memory interface.               ////
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////  Besides universal memory due to onchip_ram it provides a    ////
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////  generic way to set the depth of the memory.                 ////
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////                                                              ////
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////  To Do:                                                      ////
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////                                                              ////
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////  Author(s):                                                  ////
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////      - Raul Fajardo, rfajardo@gmail.com                      ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
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////                                                              ////
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//// This source file may be used and distributed without         ////
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//// restriction provided that this copyright statement is not    ////
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//// removed from the file and that any derivative work contains  ////
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//// the original copyright notice and the associated disclaimer. ////
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////                                                              ////
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//// This source file is free software; you can redistribute it   ////
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//// and/or modify it under the terms of the GNU Lesser General   ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any   ////
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//// later version.                                               ////
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////                                                              ////
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//// This source is distributed in the hope that it will be       ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
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//// PURPOSE.  See the GNU Lesser General Public License for more ////
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//// details.                                                     ////
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////                                                              ////
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//// You should have received a copy of the GNU Lesser General    ////
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//// Public License along with this source; if not, download it   ////
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//// from http://www.gnu.org/licenses/lgpl.html                   ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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//
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// Revision History
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//
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// Revision 1.1 2009/10/02 16:49      fajardo
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// Not using the oe signal (output enable) from 
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// memories, instead multiplexing the outputs
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// between the different instantiated blocks
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//
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//
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// Revision 1.0 2009/08/18 15:15:00   fajardo
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// Created interface and tested
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//
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`include "minsoc_defines.v"
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`define mem_init_file "uart-nocache.mif" //specific memory initalization file name, which can be intel hex(.hex) or Altera mif file 
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                                         //if no initalization file used, give a name of "UNUSED"
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module minsoc_onchip_ram_top (
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  wb_clk_i, wb_rst_i,
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  wb_dat_i, wb_dat_o, wb_adr_i, wb_sel_i, wb_we_i, wb_cyc_i,
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  wb_stb_i, wb_ack_o, wb_err_o
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);
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// 
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// Parameters 
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//
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parameter    adr_width = 13;            //Memory address width, is composed by blocks of aw_int, is not allowed to be less than 12
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localparam    aw_int = 11;              //11 = 2048
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localparam    blocks = (1<<(adr_width-aw_int)); //generated memory contains "blocks" memory blocks of 2048x32 2048 depth x32 bit data
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// 
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// I/O Ports 
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// 
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input      wb_clk_i;
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input      wb_rst_i;
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// 
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// WB slave i/f 
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// 
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input  [31:0]   wb_dat_i;
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output [31:0]   wb_dat_o;
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input  [31:0]   wb_adr_i;
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input  [3:0]    wb_sel_i;
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input      wb_we_i;
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input      wb_cyc_i;
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input      wb_stb_i;
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output     wb_ack_o;
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output     wb_err_o;
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// 
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// Internal regs and wires 
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// 
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wire    we;
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wire [3:0]  be_i;
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wire [31:0]  wb_dat_o;
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reg    ack_we;
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reg    ack_re;
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// 
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// Aliases and simple assignments 
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// 
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assign wb_ack_o = ack_re | ack_we;
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assign wb_err_o = wb_cyc_i & wb_stb_i & (|wb_adr_i[23:adr_width+2]);  // If Access to > (8-bit leading prefix ignored) 
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assign we = wb_cyc_i & wb_stb_i & wb_we_i & (|wb_sel_i[3:0]);
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assign be_i = (wb_cyc_i & wb_stb_i) * wb_sel_i;
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112
// 
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// Write acknowledge 
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// 
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always @ (negedge wb_clk_i or posedge wb_rst_i)
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begin
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if (wb_rst_i)
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    ack_we <= 1'b0;
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  else
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  if (wb_cyc_i & wb_stb_i & wb_we_i & ~ack_we)
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    ack_we <= #1 1'b1;
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  else
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    ack_we <= #1 1'b0;
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end
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126
// 
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// read acknowledge 
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// 
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always @ (posedge wb_clk_i or posedge wb_rst_i)
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begin
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  if (wb_rst_i)
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    ack_re <= 1'b0;
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  else
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  if (wb_cyc_i & wb_stb_i & ~wb_err_o & ~wb_we_i & ~ack_re)
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    ack_re <= #1 1'b1;
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  else
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    ack_re <= #1 1'b0;
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end
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`ifdef ALTERA_FPGA    //only for altera memory initialization
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//2^adr_width x 32bit single-port ram.
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altsyncram altsyncram_component (
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                                .wren_a (we),
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                                .clock0 (wb_clk_i),
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                                .byteena_a (be_i),
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                                .address_a (wb_adr_i[adr_width+1:2]),
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                                .data_a (wb_dat_i),
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                                .q_a (wb_dat_o),
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                                .aclr0 (1'b0),
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                                .aclr1 (1'b0),
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                                .address_b (1'b1),
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                                .addressstall_a (1'b0),
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                                .addressstall_b (1'b0),
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                                .byteena_b (1'b1),
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                                .clock1 (1'b1),
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                                .clocken0 (1'b1),
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                                .clocken1 (1'b1),
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                                .clocken2 (1'b1),
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                                .clocken3 (1'b1),
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                                .data_b (1'b1),
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                                .eccstatus (),
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                                .q_b (),
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                                .rden_a (1'b1),
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                                .rden_b (1'b1),
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                                .wren_b (1'b0));
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        defparam
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                altsyncram_component.clock_enable_input_a = "BYPASS",
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                altsyncram_component.clock_enable_output_a = "BYPASS",
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                altsyncram_component.init_file = `mem_init_file,
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                altsyncram_component.intended_device_family = "Stratix III",
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                altsyncram_component.lpm_hint = "ENABLE_RUNTIME_MOD=NO",
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                altsyncram_component.lpm_type = "altsyncram",
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                altsyncram_component.operation_mode = "SINGLE_PORT",
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                altsyncram_component.outdata_aclr_a = "NONE",
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                altsyncram_component.outdata_reg_a = "UNREGISTERED",
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                altsyncram_component.power_up_uninitialized = "FALSE",
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                altsyncram_component.read_during_write_mode_port_a = "NEW_DATA_NO_NBE_READ",
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                altsyncram_component.numwords_a = (1<<adr_width),
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                altsyncram_component.widthad_a = adr_width,
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                altsyncram_component.width_a = 32,
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                altsyncram_component.byte_size = 8,
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                altsyncram_component.width_byteena_a = 4;
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`else               //other FPGA Type
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//Generic (multiple inputs x 1 output) MUX
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localparam mux_in_nr = blocks;
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localparam slices = adr_width-aw_int;
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localparam mux_out_nr = blocks-1;
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wire [31:0] int_dat_o[0:mux_in_nr-1];
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wire [31:0] mux_out[0:mux_out_nr-1];
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generate
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genvar j, k;
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        for (j=0; j<slices; j=j+1) begin : SLICES
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                for (k=0; k<(mux_in_nr>>(j+1)); k=k+1) begin : MUX
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                        if (j==0) begin
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                                mux2 #
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                (
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                    .dw(32)
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                )
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                mux_int(
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                    .sel( wb_adr_i[aw_int+2+j] ),
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                    .in1( int_dat_o[k*2] ),
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                                    .in2( int_dat_o[k*2+1] ),
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                    .out( mux_out[k] )
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                );
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                        end
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                        else begin
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                                mux2 #
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                (
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                    .dw(32)
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                )
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                mux_int(
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                    .sel( wb_adr_i[aw_int+2+j] ),
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                                    .in1( mux_out[(mux_in_nr-(mux_in_nr>>(j-1)))+k*2] ),
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                                    .in2( mux_out[(mux_in_nr-(mux_in_nr>>(j-1)))+k*2+1] ),
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                                    .out( mux_out[(mux_in_nr-(mux_in_nr>>j))+k] )
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                );
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                        end
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                end
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        end
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endgenerate
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//last output = total output
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assign wb_dat_o = mux_out[mux_out_nr-1];
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//(mux_in_nr-(mux_in_nr>>j)): 
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//-Given sum of 2^i | i = x -> y series can be resumed to 2^(y+1)-2^x
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//so, with this expression I'm evaluating how many times the internal loop has been run
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wire [blocks-1:0] bank;
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generate
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genvar i;
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    for (i=0; i < blocks; i=i+1) begin : MEM
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        assign bank[i] = wb_adr_i[adr_width+1:aw_int+2] == i;
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        //BANK0
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        minsoc_onchip_ram block_ram_0 (
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            .clk(wb_clk_i),
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            .rst(wb_rst_i),
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            .addr(wb_adr_i[aw_int+1:2]),
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            .di(wb_dat_i[7:0]),
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            .doq(int_dat_o[i][7:0]),
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            .we(we & bank[i]),
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            .oe(1'b1),
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            .ce(be_i[0])
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        );
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        minsoc_onchip_ram block_ram_1 (
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            .clk(wb_clk_i),
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            .rst(wb_rst_i),
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            .addr(wb_adr_i[aw_int+1:2]),
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            .di(wb_dat_i[15:8]),
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            .doq(int_dat_o[i][15:8]),
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            .we(we & bank[i]),
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            .oe(1'b1),
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            .ce(be_i[1])
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        );
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        minsoc_onchip_ram block_ram_2 (
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            .clk(wb_clk_i),
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            .rst(wb_rst_i),
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            .addr(wb_adr_i[aw_int+1:2]),
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            .di(wb_dat_i[23:16]),
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            .doq(int_dat_o[i][23:16]),
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            .we(we & bank[i]),
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            .oe(1'b1),
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            .ce(be_i[2])
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        );
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        minsoc_onchip_ram block_ram_3 (
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            .clk(wb_clk_i),
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            .rst(wb_rst_i),
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            .addr(wb_adr_i[aw_int+1:2]),
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            .di(wb_dat_i[31:24]),
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            .doq(int_dat_o[i][31:24]),
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            .we(we & bank[i]),
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            .oe(1'b1),
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            .ce(be_i[3])
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        );
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288
    end
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endgenerate
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`endif
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endmodule
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module mux2(sel,in1,in2,out);
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296
parameter dw = 32;
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298
input sel;
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input [dw-1:0] in1, in2;
300
output reg [dw-1:0] out;
301
 
302
always @ (sel or in1 or in2)
303
begin
304
        case (sel)
305
                1'b0: out = in1;
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                1'b1: out = in2;
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        endcase
308
end
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endmodule

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