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//////////////////////////////////////////////////////////////////
//                                                              //
//  Top-level module instantiating the entire Amber 2 system.   //
//                                                              //
//  This file is part of the Amber project                      //
//  http://www.opencores.org/project,amber                      //
//                                                              //
//  Description                                                 //
//  This is the highest level synthesizable module in the       //
//  project. The ports in this module represent pins on the     //
//  FPGA.                                                       //
//                                                              //
//  Author(s):                                                  //
//      - Conor Santifort, csantifort.amber@gmail.com           //
//                                                              //
//////////////////////////////////////////////////////////////////
//                                                              //
// Copyright (C) 2010 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 system  
(
input                       brd_rst,
input                       brd_clk_n,  
input                       brd_clk_p,  
 
 
// UART 0 Interface
input                       i_uart0_rts,
output                      o_uart0_rx,
output                      o_uart0_cts,
input                       i_uart0_tx,
 
// Xilinx Spartan 6 MCB DDR3 Interface
inout  [15:0]               ddr3_dq,
output [12:0]               ddr3_addr,
output [2:0]                ddr3_ba,
output                      ddr3_ras_n,
output                      ddr3_cas_n,
output                      ddr3_we_n,
output                      ddr3_odt,
output                      ddr3_reset_n,
output                      ddr3_cke,
output [1:0]                ddr3_dm,
inout  [1:0]                ddr3_dqs_p,
inout  [1:0]                ddr3_dqs_n,
output                      ddr3_ck_p,
output                      ddr3_ck_n,
 
`ifdef XILINX_SPARTAN6_FPGA  
inout                       mcb3_rzq,
//inout                       mcb3_zio,
`endif
 
 
// Ethmac B100 MAC to PHY Interface
input                       mtx_clk_pad_i,
output  [3:0]               mtxd_pad_o, 
output                      mtxen_pad_o,
output                      mtxerr_pad_o,
input                       mrx_clk_pad_i,
input   [3:0]               mrxd_pad_i,
input                       mrxdv_pad_i,
input                       mrxerr_pad_i,
input                       mcoll_pad_i,
input                       mcrs_pad_i,
inout                       md_pad_io,
output                      mdc_pad_o,    
output                      phy_reset_n,
 
output  [3:0]               led
);
 
 
wire            sys_clk;    // System clock
wire            sys_rst;    // Active low reset, synchronous to sys_clk
wire            clk_200;    // 200MHz from board
 
 
// ======================================
// Xilinx MCB DDR3 Controller connections
// ======================================
`ifdef XILINX_SPARTAN6_FPGA  
wire            c3_p0_cmd_en;
wire  [2:0]     c3_p0_cmd_instr;
wire  [29:0]    c3_p0_cmd_byte_addr;
wire            c3_p0_wr_en;
wire  [15:0]    c3_p0_wr_mask;
wire  [127:0]   c3_p0_wr_data;
wire  [127:0]   c3_p0_rd_data;
wire            c3_p0_rd_empty;
wire            c3_p0_cmd_full;
wire            c3_p0_wr_full;
`endif
 
wire            phy_init_done;
wire            test_mem_ctrl;
wire            system_rdy;
 
 
// ======================================
// Ethmac MII
// ======================================
wire            md_pad_i;
wire            md_pad_o;
wire            md_padoe_o;
 
// ======================================
// Wishbone Buses
// ======================================
 
localparam WB_MASTERS = 2;
localparam WB_SLAVES  = 9;
 
`ifdef AMBER_A25_CORE
localparam WB_DWIDTH  = 128;
localparam WB_SWIDTH  = 16;
`else
localparam WB_DWIDTH  = 32;
localparam WB_SWIDTH  = 4;
`endif
 
 
// Wishbone Master Buses
wire      [31:0]            m_wb_adr      [WB_MASTERS-1:0];
wire      [WB_SWIDTH-1:0]   m_wb_sel      [WB_MASTERS-1:0];
wire      [WB_MASTERS-1:0]  m_wb_we                       ;
wire      [WB_DWIDTH-1:0]   m_wb_dat_w    [WB_MASTERS-1:0];
wire      [WB_DWIDTH-1:0]   m_wb_dat_r    [WB_MASTERS-1:0];
wire      [WB_MASTERS-1:0]  m_wb_cyc                      ;
wire      [WB_MASTERS-1:0]  m_wb_stb                      ;
wire      [WB_MASTERS-1:0]  m_wb_ack                      ;
wire      [WB_MASTERS-1:0]  m_wb_err                      ;
 
 
// Wishbone Slave Buses
wire      [31:0]            s_wb_adr      [WB_SLAVES-1:0];
wire      [WB_SWIDTH-1:0]   s_wb_sel      [WB_SLAVES-1:0];
wire      [WB_SLAVES-1:0]   s_wb_we                      ;
wire      [WB_DWIDTH-1:0]   s_wb_dat_w    [WB_SLAVES-1:0];
wire      [WB_DWIDTH-1:0]   s_wb_dat_r    [WB_SLAVES-1:0];
wire      [WB_SLAVES-1:0]   s_wb_cyc                     ;
wire      [WB_SLAVES-1:0]   s_wb_stb                     ;
wire      [WB_SLAVES-1:0]   s_wb_ack                     ;
wire      [WB_SLAVES-1:0]   s_wb_err                     ;
 
wire      [31:0]            emm_wb_adr;  
wire      [3:0]             emm_wb_sel;  
wire                        emm_wb_we;   
wire      [31:0]            emm_wb_rdat; 
wire      [31:0]            emm_wb_wdat; 
wire                        emm_wb_cyc;  
wire                        emm_wb_stb;  
wire                        emm_wb_ack;  
wire                        emm_wb_err;  
 
wire      [31:0]            ems_wb_adr;  
wire      [3:0]             ems_wb_sel;  
wire                        ems_wb_we;   
wire      [31:0]            ems_wb_rdat; 
wire      [31:0]            ems_wb_wdat; 
wire                        ems_wb_cyc;  
wire                        ems_wb_stb;  
wire                        ems_wb_ack;  
wire                        ems_wb_err;  
 
 
// ======================================
// Interrupts
// ======================================
wire                        amber_irq;
wire                        amber_firq;
wire                        ethmac_int;
wire                        test_reg_irq;
wire                        test_reg_firq;
wire                        uart0_int;
wire                        uart1_int;
wire      [2:0]             timer_int;
 
 
// ======================================
// Clocks and Resets Module
// ======================================
clocks_resets u_clocks_resets (
    .i_brd_rst          ( brd_rst           ),
    .i_brd_clk_n        ( brd_clk_n         ),  
    .i_brd_clk_p        ( brd_clk_p         ),  
    .i_ddr_calib_done   ( phy_init_done     ),
    .o_sys_rst          ( sys_rst           ),
    .o_sys_clk          ( sys_clk           ),
    .o_clk_200          ( clk_200           )
);
 
 
// -------------------------------------------------------------
// Instantiate Amber Processor Core
// -------------------------------------------------------------
`ifdef AMBER_A25_CORE
a25_core u_amber (
`else
a23_core u_amber (
`endif
    .i_clk          ( sys_clk         ),
 
    .i_irq          ( amber_irq       ),
    .i_firq         ( amber_firq      ),
 
    .i_system_rdy   ( system_rdy      ),
 
    .o_wb_adr       ( m_wb_adr  [1]   ),
    .o_wb_sel       ( m_wb_sel  [1]   ),
    .o_wb_we        ( m_wb_we   [1]   ),
    .i_wb_dat       ( m_wb_dat_r[1]   ),
    .o_wb_dat       ( m_wb_dat_w[1]   ),
    .o_wb_cyc       ( m_wb_cyc  [1]   ),
    .o_wb_stb       ( m_wb_stb  [1]   ),
    .i_wb_ack       ( m_wb_ack  [1]   ),
    .i_wb_err       ( m_wb_err  [1]   )
);
 
 
// -------------------------------------------------------------
// Instantiate B100 Ethernet MAC
// -------------------------------------------------------------
 
eth_top u_eth_top (
    .wb_clk_i                   ( sys_clk                ),
    .wb_rst_i                   ( sys_rst                ),
 
    // WISHBONE slave
    .wb_adr_i                   ( ems_wb_adr [11:2]      ),     
    .wb_sel_i                   ( ems_wb_sel             ),     
    .wb_we_i                    ( ems_wb_we              ),     
    .wb_cyc_i                   ( ems_wb_cyc             ),     
    .wb_stb_i                   ( ems_wb_stb             ),     
    .wb_ack_o                   ( ems_wb_ack             ),     
    .wb_dat_i                   ( ems_wb_wdat            ),     
    .wb_dat_o                   ( ems_wb_rdat            ),     
    .wb_err_o                   ( ems_wb_err             ),     
 
    // WISHBONE master
    .m_wb_adr_o                 ( emm_wb_adr             ), 
    .m_wb_sel_o                 ( emm_wb_sel             ), 
    .m_wb_we_o                  ( emm_wb_we              ), 
    .m_wb_dat_i                 ( emm_wb_rdat            ), 
    .m_wb_dat_o                 ( emm_wb_wdat            ), 
    .m_wb_cyc_o                 ( emm_wb_cyc             ), 
    .m_wb_stb_o                 ( emm_wb_stb             ), 
    .m_wb_ack_i                 ( emm_wb_ack             ), 
    .m_wb_err_i                 ( emm_wb_err             ), 
 
    // MAC to PHY I/F
    .mtx_clk_pad_i              ( mtx_clk_pad_i          ),
    .mtxd_pad_o                 ( mtxd_pad_o             ),
    .mtxen_pad_o                ( mtxen_pad_o            ),
    .mtxerr_pad_o               ( mtxerr_pad_o           ),
    .mrx_clk_pad_i              ( mrx_clk_pad_i          ),
    .mrxd_pad_i                 ( mrxd_pad_i             ),
    .mrxdv_pad_i                ( mrxdv_pad_i            ),
    .mrxerr_pad_i               ( mrxerr_pad_i           ), 
    .mcoll_pad_i                ( mcoll_pad_i            ), 
    .mcrs_pad_i                 ( mcrs_pad_i             ), 
    .md_pad_i                   ( md_pad_i               ), 
    .mdc_pad_o                  ( mdc_pad_o              ), 
    .md_pad_o                   ( md_pad_o               ), 
    .md_padoe_o                 ( md_padoe_o             ), 
 
    // Interrupt
    .int_o                      ( ethmac_int             )
);
 
 
// -------------------------------------------------------------
// Instantiate Ethernet Control Interface tri-state buffer
// -------------------------------------------------------------
`ifdef XILINX_FPGA
IOBUF u_iobuf (
`else
generic_iobuf u_iobuf (
`endif
    .O                          ( md_pad_i              ), 
    .IO                         ( md_pad_io             ), 
    .I                          ( md_pad_o              ), 
    // T is high for tri-state output
    .T                          ( ~md_padoe_o           ) 
);
 
// Ethernet MII PHY reset
//assign phy_reset_n = !sys_rst;
 
// Halt core until system is ready
assign system_rdy = phy_init_done && !sys_rst;
 
// -------------------------------------------------------------
// Instantiate Boot Memory - 8KBytes of Embedded SRAM
// -------------------------------------------------------------
 
generate
if (WB_DWIDTH == 32) begin : boot_mem32
    boot_mem32 u_boot_mem (
        .i_wb_clk               ( sys_clk         ),
        .i_wb_adr               ( s_wb_adr  [1]   ),
        .i_wb_sel               ( s_wb_sel  [1]   ),
        .i_wb_we                ( s_wb_we   [1]   ),
        .o_wb_dat               ( s_wb_dat_r[1]   ),
        .i_wb_dat               ( s_wb_dat_w[1]   ),
        .i_wb_cyc               ( s_wb_cyc  [1]   ),
        .i_wb_stb               ( s_wb_stb  [1]   ),
        .o_wb_ack               ( s_wb_ack  [1]   ),
        .o_wb_err               ( s_wb_err  [1]   )
    );
end
else begin : boot_mem128
    boot_mem128 u_boot_mem (
        .i_wb_clk               ( sys_clk         ),
        .i_wb_adr               ( s_wb_adr  [1]   ),
        .i_wb_sel               ( s_wb_sel  [1]   ),
        .i_wb_we                ( s_wb_we   [1]   ),
        .o_wb_dat               ( s_wb_dat_r[1]   ),
        .i_wb_dat               ( s_wb_dat_w[1]   ),
        .i_wb_cyc               ( s_wb_cyc  [1]   ),
        .i_wb_stb               ( s_wb_stb  [1]   ),
        .o_wb_ack               ( s_wb_ack  [1]   ),
        .o_wb_err               ( s_wb_err  [1]   )
    );
end
endgenerate
 
 
// -------------------------------------------------------------
// Instantiate UART0
// -------------------------------------------------------------
uart  #(
    .WB_DWIDTH              ( WB_DWIDTH       ),
    .WB_SWIDTH              ( WB_SWIDTH       )
    )
u_uart0 (
    .i_clk                  ( sys_clk        ),
 
    .o_uart_int             ( uart0_int      ),
 
    .i_uart_cts_n           ( i_uart0_rts    ),
    .o_uart_txd             ( o_uart0_rx     ),
    .o_uart_rts_n           ( o_uart0_cts    ),
    .i_uart_rxd             ( i_uart0_tx     ),
 
    .i_wb_adr               ( s_wb_adr  [3]  ),
    .i_wb_sel               ( s_wb_sel  [3]  ),
    .i_wb_we                ( s_wb_we   [3]  ),
    .o_wb_dat               ( s_wb_dat_r[3]  ),
    .i_wb_dat               ( s_wb_dat_w[3]  ),
    .i_wb_cyc               ( s_wb_cyc  [3]  ),
    .i_wb_stb               ( s_wb_stb  [3]  ),
    .o_wb_ack               ( s_wb_ack  [3]  ),
    .o_wb_err               ( s_wb_err  [3]  )
);
 
 
// -------------------------------------------------------------
// Instantiate UART1
// -------------------------------------------------------------
uart  #(
    .WB_DWIDTH              ( WB_DWIDTH       ),
    .WB_SWIDTH              ( WB_SWIDTH       )
    ) 
u_uart1 (
    .i_clk                  ( sys_clk        ),
 
    .o_uart_int             ( uart1_int      ),
 
    // These are not connected. ONly pins for 1 UART
    // on my development board
    .i_uart_cts_n           ( 1'd1           ),
    .o_uart_txd             (                ),
    .o_uart_rts_n           (                ),
    .i_uart_rxd             ( 1'd1           ),
 
    .i_wb_adr               ( s_wb_adr  [4]  ),
    .i_wb_sel               ( s_wb_sel  [4]  ),
    .i_wb_we                ( s_wb_we   [4]  ),
    .o_wb_dat               ( s_wb_dat_r[4]  ),
    .i_wb_dat               ( s_wb_dat_w[4]  ),
    .i_wb_cyc               ( s_wb_cyc  [4]  ),
    .i_wb_stb               ( s_wb_stb  [4]  ),
    .o_wb_ack               ( s_wb_ack  [4]  ),
    .o_wb_err               ( s_wb_err  [4]  )
);
 
 
// -------------------------------------------------------------
// Instantiate Test Module
//   - includes register used to terminate tests
// -------------------------------------------------------------
test_module #(
    .WB_DWIDTH              ( WB_DWIDTH      ),
    .WB_SWIDTH              ( WB_SWIDTH      )
    ) 
u_test_module (
    .i_clk                  ( sys_clk        ),
 
    .o_irq                  ( test_reg_irq   ),
    .o_firq                 ( test_reg_firq  ),
    .o_mem_ctrl             ( test_mem_ctrl  ),
    .i_wb_adr               ( s_wb_adr  [5]  ),
    .i_wb_sel               ( s_wb_sel  [5]  ),
    .i_wb_we                ( s_wb_we   [5]  ),
    .o_wb_dat               ( s_wb_dat_r[5]  ),
    .i_wb_dat               ( s_wb_dat_w[5]  ),
    .i_wb_cyc               ( s_wb_cyc  [5]  ),
    .i_wb_stb               ( s_wb_stb  [5]  ),
    .o_wb_ack               ( s_wb_ack  [5]  ),
    .o_wb_err               ( s_wb_err  [5]  ),
    .o_led                  ( led            ),
    .o_phy_rst_n            ( phy_reset_n    )
);
 
 
// -------------------------------------------------------------
// Instantiate Timer Module
// -------------------------------------------------------------
timer_module  #(
    .WB_DWIDTH              ( WB_DWIDTH      ),
    .WB_SWIDTH              ( WB_SWIDTH      )
    ) 
u_timer_module (
    .i_clk                  ( sys_clk        ),
 
    // Interrupt outputs
    .o_timer_int            ( timer_int      ),
 
    // Wishbone interface
    .i_wb_adr               ( s_wb_adr  [6]  ),
    .i_wb_sel               ( s_wb_sel  [6]  ),
    .i_wb_we                ( s_wb_we   [6]  ),
    .o_wb_dat               ( s_wb_dat_r[6]  ),
    .i_wb_dat               ( s_wb_dat_w[6]  ),
    .i_wb_cyc               ( s_wb_cyc  [6]  ),
    .i_wb_stb               ( s_wb_stb  [6]  ),
    .o_wb_ack               ( s_wb_ack  [6]  ),
    .o_wb_err               ( s_wb_err  [6]  )
);
 
 
// -------------------------------------------------------------
// Instantiate Interrupt Controller Module
// -------------------------------------------------------------
interrupt_controller  #(
    .WB_DWIDTH              ( WB_DWIDTH      ),
    .WB_SWIDTH              ( WB_SWIDTH      )
    )
u_interrupt_controller (
    .i_clk                  ( sys_clk        ),
 
    // Interrupt outputs
    .o_irq                  ( amber_irq      ),
    .o_firq                 ( amber_firq     ),
 
    // Interrupt inputs
    .i_uart0_int            ( uart0_int      ),
    .i_uart1_int            ( uart1_int      ),
    .i_ethmac_int           ( ethmac_int     ),
    .i_test_reg_irq         ( test_reg_irq   ),
    .i_test_reg_firq        ( test_reg_firq  ),
    .i_tm_timer_int         ( timer_int      ),
 
    // Wishbone interface
    .i_wb_adr               ( s_wb_adr  [7]  ),
    .i_wb_sel               ( s_wb_sel  [7]  ),
    .i_wb_we                ( s_wb_we   [7]  ),
    .o_wb_dat               ( s_wb_dat_r[7]  ),
    .i_wb_dat               ( s_wb_dat_w[7]  ),
    .i_wb_cyc               ( s_wb_cyc  [7]  ),
    .i_wb_stb               ( s_wb_stb  [7]  ),
    .o_wb_ack               ( s_wb_ack  [7]  ),
    .o_wb_err               ( s_wb_err  [7]  )
);
 
 
 
 
`ifndef XILINX_FPGA
    // ======================================
    // Instantiate non-synthesizable main memory model
    // ======================================
 
    assign phy_init_done = 1'd1;
 
    main_mem #(
                .WB_DWIDTH             ( WB_DWIDTH             ),
                .WB_SWIDTH             ( WB_SWIDTH             )
                ) 
    u_main_mem (
               .i_clk                  ( sys_clk               ),
               .i_mem_ctrl             ( test_mem_ctrl         ),
               .i_wb_adr               ( s_wb_adr  [2]         ),        
               .i_wb_sel               ( s_wb_sel  [2]         ),        
               .i_wb_we                ( s_wb_we   [2]         ),        
               .o_wb_dat               ( s_wb_dat_r[2]         ),        
               .i_wb_dat               ( s_wb_dat_w[2]         ),        
               .i_wb_cyc               ( s_wb_cyc  [2]         ),        
               .i_wb_stb               ( s_wb_stb  [2]         ),        
               .o_wb_ack               ( s_wb_ack  [2]         ),        
               .o_wb_err               ( s_wb_err  [2]         )     
            );
 
`endif
 
 
`ifdef XILINX_SPARTAN6_FPGA  
    // -------------------------------------------------------------
    // Instantiate Wishbone to Xilinx Spartan-6 DDR3 Bridge
    // -------------------------------------------------------------
    // The clock crossing fifo for spartan-6 is build into the mcb
    wb_xs6_ddr3_bridge   #(
        .WB_DWIDTH              ( WB_DWIDTH             ),
        .WB_SWIDTH              ( WB_SWIDTH             )
        )
    u_wb_xs6_ddr3_bridge(
        .i_clk                  ( sys_clk               ),
 
        .o_cmd_en               ( c3_p0_cmd_en          ),        
        .o_cmd_instr            ( c3_p0_cmd_instr       ),        
        .o_cmd_byte_addr        ( c3_p0_cmd_byte_addr   ),        
        .i_cmd_full             ( c3_p0_cmd_full        ),        
        .i_wr_full              ( c3_p0_wr_full         ),        
        .o_wr_en                ( c3_p0_wr_en           ),        
        .o_wr_mask              ( c3_p0_wr_mask         ),        
        .o_wr_data              ( c3_p0_wr_data         ),        
        .i_rd_data              ( c3_p0_rd_data         ),        
        .i_rd_empty             ( c3_p0_rd_empty        ),
 
        .i_mem_ctrl             ( test_mem_ctrl         ),
        .i_wb_adr               ( s_wb_adr  [2]         ),        
        .i_wb_sel               ( s_wb_sel  [2]         ),        
        .i_wb_we                ( s_wb_we   [2]         ),        
        .o_wb_dat               ( s_wb_dat_r[2]         ),        
        .i_wb_dat               ( s_wb_dat_w[2]         ),        
        .i_wb_cyc               ( s_wb_cyc  [2]         ),        
        .i_wb_stb               ( s_wb_stb  [2]         ),        
        .o_wb_ack               ( s_wb_ack  [2]         ),        
        .o_wb_err               ( s_wb_err  [2]         )     
    );
 
 
    // -------------------------------------------------------------
    // Instantiate Xilinx Spartan-6 FPGA MCB-DDR3 Controller
    // -------------------------------------------------------------
    ddr3 u_ddr3  (
 
                // DDR3 signals
               .mcb3_dram_dq            ( ddr3_dq               ),
               .mcb3_dram_a             ( ddr3_addr             ),
               .mcb3_dram_ba            ( ddr3_ba               ),
               .mcb3_dram_ras_n         ( ddr3_ras_n            ),
               .mcb3_dram_cas_n         ( ddr3_cas_n            ),
               .mcb3_dram_we_n          ( ddr3_we_n             ),
               .mcb3_dram_odt           ( ddr3_odt              ),
               .mcb3_dram_reset_n       ( ddr3_reset_n          ),
               .mcb3_dram_cke           ( ddr3_cke              ),
               .mcb3_dram_udm           ( ddr3_dm[1]            ),
               .mcb3_dram_dm            ( ddr3_dm[0]            ),
               .mcb3_rzq                ( mcb3_rzq              ),
//               .mcb3_zio                ( mcb3_zio              ),
               .mcb3_dram_udqs          ( ddr3_dqs_p[1]         ),
               .mcb3_dram_dqs           ( ddr3_dqs_p[0]         ),
               .mcb3_dram_udqs_n        ( ddr3_dqs_n[1]         ),
               .mcb3_dram_dqs_n         ( ddr3_dqs_n[0]         ),
               .mcb3_dram_ck            ( ddr3_ck_p             ),
               .mcb3_dram_ck_n          ( ddr3_ck_n             ),
 
               .c3_sys_clk              ( clk_200               ), 
               .c3_sys_rst_i            ( brd_rst               ), // active-high
               .c3_clk0                 (                       ),
               .c3_rst0                 (                       ),
               .c3_calib_done           ( phy_init_done         ),
 
               .c3_p0_cmd_clk           ( sys_clk               ),
 
               .c3_p0_cmd_en            ( c3_p0_cmd_en          ),
               .c3_p0_cmd_instr         ( c3_p0_cmd_instr       ),
               .c3_p0_cmd_bl            ( 6'd0                  ),
               .c3_p0_cmd_byte_addr     ( c3_p0_cmd_byte_addr   ),
               .c3_p0_cmd_empty         (                       ),
               .c3_p0_cmd_full          ( c3_p0_cmd_full        ),
 
               .c3_p0_wr_clk            ( sys_clk               ),
 
               .c3_p0_wr_en             ( c3_p0_wr_en           ),
               .c3_p0_wr_mask           ( c3_p0_wr_mask         ),
               .c3_p0_wr_data           ( c3_p0_wr_data         ),
               .c3_p0_wr_full           ( c3_p0_wr_full         ),
               .c3_p0_wr_empty          (                       ),
               .c3_p0_wr_count          (                       ),
               .c3_p0_wr_underrun       (                       ),
               .c3_p0_wr_error          (                       ),
 
               .c3_p0_rd_clk            ( sys_clk               ),
 
               .c3_p0_rd_en             ( 1'd1                  ),
               .c3_p0_rd_data           ( c3_p0_rd_data         ),
               .c3_p0_rd_full           (                       ),
               .c3_p0_rd_empty          ( c3_p0_rd_empty        ),
               .c3_p0_rd_count          (                       ),
               .c3_p0_rd_overflow       (                       ),
               .c3_p0_rd_error          (                       )
       );
`endif
 
 
 
// -------------------------------------------------------------
// Instantiate Wishbone Arbiter
// -------------------------------------------------------------
wishbone_arbiter #(
    .WB_DWIDTH              ( WB_DWIDTH         ),
    .WB_SWIDTH              ( WB_SWIDTH         )
    )
u_wishbone_arbiter (
    .i_wb_clk               ( sys_clk           ),
 
    // WISHBONE master 0 - Ethmac
    .i_m0_wb_adr            ( m_wb_adr   [0]    ),
    .i_m0_wb_sel            ( m_wb_sel   [0]    ),
    .i_m0_wb_we             ( m_wb_we    [0]    ),
    .o_m0_wb_dat            ( m_wb_dat_r [0]    ),
    .i_m0_wb_dat            ( m_wb_dat_w [0]    ),
    .i_m0_wb_cyc            ( m_wb_cyc   [0]    ),
    .i_m0_wb_stb            ( m_wb_stb   [0]    ),
    .o_m0_wb_ack            ( m_wb_ack   [0]    ),
    .o_m0_wb_err            ( m_wb_err   [0]    ),
 
 
    // WISHBONE master 1 - Amber Process or
    .i_m1_wb_adr            ( m_wb_adr   [1]    ),
    .i_m1_wb_sel            ( m_wb_sel   [1]    ),
    .i_m1_wb_we             ( m_wb_we    [1]    ),
    .o_m1_wb_dat            ( m_wb_dat_r [1]    ),
    .i_m1_wb_dat            ( m_wb_dat_w [1]    ),
    .i_m1_wb_cyc            ( m_wb_cyc   [1]    ),
    .i_m1_wb_stb            ( m_wb_stb   [1]    ),
    .o_m1_wb_ack            ( m_wb_ack   [1]    ),
    .o_m1_wb_err            ( m_wb_err   [1]    ),
 
 
    // WISHBONE slave 0 - Ethmac
    .o_s0_wb_adr            ( s_wb_adr   [0]    ),
    .o_s0_wb_sel            ( s_wb_sel   [0]    ),
    .o_s0_wb_we             ( s_wb_we    [0]    ),
    .i_s0_wb_dat            ( s_wb_dat_r [0]    ),
    .o_s0_wb_dat            ( s_wb_dat_w [0]    ),
    .o_s0_wb_cyc            ( s_wb_cyc   [0]    ),
    .o_s0_wb_stb            ( s_wb_stb   [0]    ),
    .i_s0_wb_ack            ( s_wb_ack   [0]    ),
    .i_s0_wb_err            ( s_wb_err   [0]    ),
 
 
    // WISHBONE slave 1 - Boot Memory
    .o_s1_wb_adr            ( s_wb_adr   [1]    ),
    .o_s1_wb_sel            ( s_wb_sel   [1]    ),
    .o_s1_wb_we             ( s_wb_we    [1]    ),
    .i_s1_wb_dat            ( s_wb_dat_r [1]    ),
    .o_s1_wb_dat            ( s_wb_dat_w [1]    ),
    .o_s1_wb_cyc            ( s_wb_cyc   [1]    ),
    .o_s1_wb_stb            ( s_wb_stb   [1]    ),
    .i_s1_wb_ack            ( s_wb_ack   [1]    ),
    .i_s1_wb_err            ( s_wb_err   [1]    ),
 
 
    // WISHBONE slave 2 - Main Memory
    .o_s2_wb_adr            ( s_wb_adr   [2]    ),
    .o_s2_wb_sel            ( s_wb_sel   [2]    ),
    .o_s2_wb_we             ( s_wb_we    [2]    ),
    .i_s2_wb_dat            ( s_wb_dat_r [2]    ),
    .o_s2_wb_dat            ( s_wb_dat_w [2]    ),
    .o_s2_wb_cyc            ( s_wb_cyc   [2]    ),
    .o_s2_wb_stb            ( s_wb_stb   [2]    ),
    .i_s2_wb_ack            ( s_wb_ack   [2]    ),
    .i_s2_wb_err            ( s_wb_err   [2]    ),
 
 
    // WISHBONE slave 3 - UART 0
    .o_s3_wb_adr            ( s_wb_adr   [3]    ),
    .o_s3_wb_sel            ( s_wb_sel   [3]    ),
    .o_s3_wb_we             ( s_wb_we    [3]    ),
    .i_s3_wb_dat            ( s_wb_dat_r [3]    ),
    .o_s3_wb_dat            ( s_wb_dat_w [3]    ),
    .o_s3_wb_cyc            ( s_wb_cyc   [3]    ),
    .o_s3_wb_stb            ( s_wb_stb   [3]    ),
    .i_s3_wb_ack            ( s_wb_ack   [3]    ),
    .i_s3_wb_err            ( s_wb_err   [3]    ),
 
 
    // WISHBONE slave 4 - UART 1
    .o_s4_wb_adr            ( s_wb_adr   [4]    ),
    .o_s4_wb_sel            ( s_wb_sel   [4]    ),
    .o_s4_wb_we             ( s_wb_we    [4]    ),
    .i_s4_wb_dat            ( s_wb_dat_r [4]    ),
    .o_s4_wb_dat            ( s_wb_dat_w [4]    ),
    .o_s4_wb_cyc            ( s_wb_cyc   [4]    ),
    .o_s4_wb_stb            ( s_wb_stb   [4]    ),
    .i_s4_wb_ack            ( s_wb_ack   [4]    ),
    .i_s4_wb_err            ( s_wb_err   [4]    ),
 
 
    // WISHBONE slave 5 - Test Module
    .o_s5_wb_adr            ( s_wb_adr   [5]    ),
    .o_s5_wb_sel            ( s_wb_sel   [5]    ),
    .o_s5_wb_we             ( s_wb_we    [5]    ),
    .i_s5_wb_dat            ( s_wb_dat_r [5]    ),
    .o_s5_wb_dat            ( s_wb_dat_w [5]    ),
    .o_s5_wb_cyc            ( s_wb_cyc   [5]    ),
    .o_s5_wb_stb            ( s_wb_stb   [5]    ),
    .i_s5_wb_ack            ( s_wb_ack   [5]    ),
    .i_s5_wb_err            ( s_wb_err   [5]    ),
 
 
    // WISHBONE slave 6 - Timer Module
    .o_s6_wb_adr            ( s_wb_adr   [6]    ),
    .o_s6_wb_sel            ( s_wb_sel   [6]    ),
    .o_s6_wb_we             ( s_wb_we    [6]    ),
    .i_s6_wb_dat            ( s_wb_dat_r [6]    ),
    .o_s6_wb_dat            ( s_wb_dat_w [6]    ),
    .o_s6_wb_cyc            ( s_wb_cyc   [6]    ),
    .o_s6_wb_stb            ( s_wb_stb   [6]    ),
    .i_s6_wb_ack            ( s_wb_ack   [6]    ),
    .i_s6_wb_err            ( s_wb_err   [6]    ),
 
 
    // WISHBONE slave 7 - Interrupt Controller
    .o_s7_wb_adr            ( s_wb_adr   [7]    ),
    .o_s7_wb_sel            ( s_wb_sel   [7]    ),
    .o_s7_wb_we             ( s_wb_we    [7]    ),
    .i_s7_wb_dat            ( s_wb_dat_r [7]    ),
    .o_s7_wb_dat            ( s_wb_dat_w [7]    ),
    .o_s7_wb_cyc            ( s_wb_cyc   [7]    ),
    .o_s7_wb_stb            ( s_wb_stb   [7]    ),
    .i_s7_wb_ack            ( s_wb_ack   [7]    ),
    .i_s7_wb_err            ( s_wb_err   [7]    )
    );
 
 
ethmac_wb #(
    .WB_DWIDTH              ( WB_DWIDTH         ),
    .WB_SWIDTH              ( WB_SWIDTH         )
    )
u_ethmac_wb (
    // Wishbone arbiter side
    .o_m_wb_adr             ( m_wb_adr   [0]    ),
    .o_m_wb_sel             ( m_wb_sel   [0]    ),
    .o_m_wb_we              ( m_wb_we    [0]    ),
    .i_m_wb_rdat            ( m_wb_dat_r [0]    ),
    .o_m_wb_wdat            ( m_wb_dat_w [0]    ),
    .o_m_wb_cyc             ( m_wb_cyc   [0]    ),
    .o_m_wb_stb             ( m_wb_stb   [0]    ),
    .i_m_wb_ack             ( m_wb_ack   [0]    ),
    .i_m_wb_err             ( m_wb_err   [0]    ),
 
    // Wishbone arbiter side
    .i_s_wb_adr             ( s_wb_adr   [0]    ),
    .i_s_wb_sel             ( s_wb_sel   [0]    ),
    .i_s_wb_we              ( s_wb_we    [0]    ),
    .i_s_wb_cyc             ( s_wb_cyc   [0]    ),
    .i_s_wb_stb             ( s_wb_stb   [0]    ),
    .o_s_wb_ack             ( s_wb_ack   [0]    ),
    .i_s_wb_wdat            ( s_wb_dat_w [0]    ),
    .o_s_wb_rdat            ( s_wb_dat_r [0]    ),
    .o_s_wb_err             ( s_wb_err   [0]    ),
 
    // Ethmac side
    .i_m_wb_adr             ( emm_wb_adr        ),
    .i_m_wb_sel             ( emm_wb_sel        ),
    .i_m_wb_we              ( emm_wb_we         ),
    .o_m_wb_rdat            ( emm_wb_rdat       ),
    .i_m_wb_wdat            ( emm_wb_wdat       ),
    .i_m_wb_cyc             ( emm_wb_cyc        ),
    .i_m_wb_stb             ( emm_wb_stb        ),
    .o_m_wb_ack             ( emm_wb_ack        ),
    .o_m_wb_err             ( emm_wb_err        ),
 
    // Ethmac side
    .o_s_wb_adr             ( ems_wb_adr        ),
    .o_s_wb_sel             ( ems_wb_sel        ),
    .o_s_wb_we              ( ems_wb_we         ),
    .i_s_wb_rdat            ( ems_wb_rdat       ),
    .o_s_wb_wdat            ( ems_wb_wdat       ),
    .o_s_wb_cyc             ( ems_wb_cyc        ),
    .o_s_wb_stb             ( ems_wb_stb        ),
    .i_s_wb_ack             ( ems_wb_ack        ),
    .i_s_wb_err             ( ems_wb_err        )
);
 
 
 
 
endmodule
 
 
 

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