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[/] [an-fpga-implementation-of-low-latency-noc-based-mpsoc/] [trunk/] [mpsoc/] [rtl/] [src_topolgy/] [custom1/] [custom1_noc.sv] - Rev 55
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/**************************************************************************
** WARNING: THIS IS AN AUTO-GENERATED FILE. CHANGES TO IT ARE LIKELY TO BE
** OVERWRITTEN AND LOST. Rename this file if you wish to do any modification.
****************************************************************************/
/**********************************************************************
** File: /home/alireza/work/git/hca_git/ProNoC/mpsoc/rtl/src_topolgy/custom1/custom1_noc.sv
**
** Copyright (C) 2014-2021 Alireza Monemi
**
** This file is part of ProNoC 2.0.0
**
** ProNoC ( stands for Prototype Network-on-chip) 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 of the License, or (at your option) any later version.
**
** ProNoC 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 ProNoC. If not, see <http:**www.gnu.org/licenses/>.
******************************************************************************/
`include "pronoc_def.v"
module custom1_noc
import pronoc_pkg::*;
(
reset,
clk,
//T0,
T0_chan_in,
T0_chan_out,
T0_router_event,
//T1,
T1_chan_in,
T1_chan_out,
T1_router_event,
//T2,
T2_chan_in,
T2_chan_out,
T2_router_event,
//T3,
T3_chan_in,
T3_chan_out,
T3_router_event,
//T4,
T4_chan_in,
T4_chan_out,
T4_router_event,
//T5,
T5_chan_in,
T5_chan_out,
T5_router_event,
//T6,
T6_chan_in,
T6_chan_out,
T6_router_event,
//T7,
T7_chan_in,
T7_chan_out,
T7_router_event,
//T8,
T8_chan_in,
T8_chan_out,
T8_router_event,
//T9,
T9_chan_in,
T9_chan_out,
T9_router_event,
//T10,
T10_chan_in,
T10_chan_out,
T10_router_event,
//T11,
T11_chan_in,
T11_chan_out,
T11_router_event,
//T12,
T12_chan_in,
T12_chan_out,
T12_router_event,
//T13,
T13_chan_in,
T13_chan_out,
T13_router_event,
//T14,
T14_chan_in,
T14_chan_out,
T14_router_event,
//T15,
T15_chan_in,
T15_chan_out,
T15_router_event
);
function integer log2;
input integer number; begin
log2=(number <=1) ? 1: 0;
while(2**log2<number) begin
log2=log2+1;
end
end
endfunction // log2
localparam
NE = 16,
NR = 16,
RAw=log2(NR);
input reset,clk;
/*******************
* T0
*******************/
input smartflit_chanel_t T0_chan_in;
output smartflit_chanel_t T0_chan_out;
output router_event_t T0_router_event;
/*******************
* T1
*******************/
input smartflit_chanel_t T1_chan_in;
output smartflit_chanel_t T1_chan_out;
output router_event_t T1_router_event;
/*******************
* T2
*******************/
input smartflit_chanel_t T2_chan_in;
output smartflit_chanel_t T2_chan_out;
output router_event_t T2_router_event;
/*******************
* T3
*******************/
input smartflit_chanel_t T3_chan_in;
output smartflit_chanel_t T3_chan_out;
output router_event_t T3_router_event;
/*******************
* T4
*******************/
input smartflit_chanel_t T4_chan_in;
output smartflit_chanel_t T4_chan_out;
output router_event_t T4_router_event;
/*******************
* T5
*******************/
input smartflit_chanel_t T5_chan_in;
output smartflit_chanel_t T5_chan_out;
output router_event_t T5_router_event;
/*******************
* T6
*******************/
input smartflit_chanel_t T6_chan_in;
output smartflit_chanel_t T6_chan_out;
output router_event_t T6_router_event;
/*******************
* T7
*******************/
input smartflit_chanel_t T7_chan_in;
output smartflit_chanel_t T7_chan_out;
output router_event_t T7_router_event;
/*******************
* T8
*******************/
input smartflit_chanel_t T8_chan_in;
output smartflit_chanel_t T8_chan_out;
output router_event_t T8_router_event;
/*******************
* T9
*******************/
input smartflit_chanel_t T9_chan_in;
output smartflit_chanel_t T9_chan_out;
output router_event_t T9_router_event;
/*******************
* T10
*******************/
input smartflit_chanel_t T10_chan_in;
output smartflit_chanel_t T10_chan_out;
output router_event_t T10_router_event;
/*******************
* T11
*******************/
input smartflit_chanel_t T11_chan_in;
output smartflit_chanel_t T11_chan_out;
output router_event_t T11_router_event;
/*******************
* T12
*******************/
input smartflit_chanel_t T12_chan_in;
output smartflit_chanel_t T12_chan_out;
output router_event_t T12_router_event;
/*******************
* T13
*******************/
input smartflit_chanel_t T13_chan_in;
output smartflit_chanel_t T13_chan_out;
output router_event_t T13_router_event;
/*******************
* T14
*******************/
input smartflit_chanel_t T14_chan_in;
output smartflit_chanel_t T14_chan_out;
output router_event_t T14_router_event;
/*******************
* T15
*******************/
input smartflit_chanel_t T15_chan_in;
output smartflit_chanel_t T15_chan_out;
output router_event_t T15_router_event;
/*******************
* R0
*******************/
wire R0_clk;
wire R0_reset;
wire [RAw-1 : 0] R0_current_r_addr;
smartflit_chanel_t R0_chan_in [3-1 : 0];
smartflit_chanel_t R0_chan_out [3-1 : 0];
router_event_t R0_router_event [3-1 : 0];
/*******************
* R1
*******************/
wire R1_clk;
wire R1_reset;
wire [RAw-1 : 0] R1_current_r_addr;
smartflit_chanel_t R1_chan_in [3-1 : 0];
smartflit_chanel_t R1_chan_out [3-1 : 0];
router_event_t R1_router_event [3-1 : 0];
/*******************
* R2
*******************/
wire R2_clk;
wire R2_reset;
wire [RAw-1 : 0] R2_current_r_addr;
smartflit_chanel_t R2_chan_in [3-1 : 0];
smartflit_chanel_t R2_chan_out [3-1 : 0];
router_event_t R2_router_event [3-1 : 0];
/*******************
* R3
*******************/
wire R3_clk;
wire R3_reset;
wire [RAw-1 : 0] R3_current_r_addr;
smartflit_chanel_t R3_chan_in [3-1 : 0];
smartflit_chanel_t R3_chan_out [3-1 : 0];
router_event_t R3_router_event [3-1 : 0];
/*******************
* R4
*******************/
wire R4_clk;
wire R4_reset;
wire [RAw-1 : 0] R4_current_r_addr;
smartflit_chanel_t R4_chan_in [4-1 : 0];
smartflit_chanel_t R4_chan_out [4-1 : 0];
router_event_t R4_router_event [4-1 : 0];
/*******************
* R5
*******************/
wire R5_clk;
wire R5_reset;
wire [RAw-1 : 0] R5_current_r_addr;
smartflit_chanel_t R5_chan_in [4-1 : 0];
smartflit_chanel_t R5_chan_out [4-1 : 0];
router_event_t R5_router_event [4-1 : 0];
/*******************
* R6
*******************/
wire R6_clk;
wire R6_reset;
wire [RAw-1 : 0] R6_current_r_addr;
smartflit_chanel_t R6_chan_in [4-1 : 0];
smartflit_chanel_t R6_chan_out [4-1 : 0];
router_event_t R6_router_event [4-1 : 0];
/*******************
* R7
*******************/
wire R7_clk;
wire R7_reset;
wire [RAw-1 : 0] R7_current_r_addr;
smartflit_chanel_t R7_chan_in [4-1 : 0];
smartflit_chanel_t R7_chan_out [4-1 : 0];
router_event_t R7_router_event [4-1 : 0];
/*******************
* R12
*******************/
wire R12_clk;
wire R12_reset;
wire [RAw-1 : 0] R12_current_r_addr;
smartflit_chanel_t R12_chan_in [4-1 : 0];
smartflit_chanel_t R12_chan_out [4-1 : 0];
router_event_t R12_router_event [4-1 : 0];
/*******************
* R13
*******************/
wire R13_clk;
wire R13_reset;
wire [RAw-1 : 0] R13_current_r_addr;
smartflit_chanel_t R13_chan_in [4-1 : 0];
smartflit_chanel_t R13_chan_out [4-1 : 0];
router_event_t R13_router_event [4-1 : 0];
/*******************
* R14
*******************/
wire R14_clk;
wire R14_reset;
wire [RAw-1 : 0] R14_current_r_addr;
smartflit_chanel_t R14_chan_in [4-1 : 0];
smartflit_chanel_t R14_chan_out [4-1 : 0];
router_event_t R14_router_event [4-1 : 0];
/*******************
* R15
*******************/
wire R15_clk;
wire R15_reset;
wire [RAw-1 : 0] R15_current_r_addr;
smartflit_chanel_t R15_chan_in [4-1 : 0];
smartflit_chanel_t R15_chan_out [4-1 : 0];
router_event_t R15_router_event [4-1 : 0];
/*******************
* R8
*******************/
wire R8_clk;
wire R8_reset;
wire [RAw-1 : 0] R8_current_r_addr;
smartflit_chanel_t R8_chan_in [5-1 : 0];
smartflit_chanel_t R8_chan_out [5-1 : 0];
router_event_t R8_router_event [5-1 : 0];
/*******************
* R9
*******************/
wire R9_clk;
wire R9_reset;
wire [RAw-1 : 0] R9_current_r_addr;
smartflit_chanel_t R9_chan_in [5-1 : 0];
smartflit_chanel_t R9_chan_out [5-1 : 0];
router_event_t R9_router_event [5-1 : 0];
/*******************
* R10
*******************/
wire R10_clk;
wire R10_reset;
wire [RAw-1 : 0] R10_current_r_addr;
smartflit_chanel_t R10_chan_in [5-1 : 0];
smartflit_chanel_t R10_chan_out [5-1 : 0];
router_event_t R10_router_event [5-1 : 0];
/*******************
* R11
*******************/
wire R11_clk;
wire R11_reset;
wire [RAw-1 : 0] R11_current_r_addr;
smartflit_chanel_t R11_chan_in [5-1 : 0];
smartflit_chanel_t R11_chan_out [5-1 : 0];
router_event_t R11_router_event [5-1 : 0];
/*******************
* R0
*******************/
router_top #(
.P(3)
)
R0
(
.clk(R0_clk),
.reset(R0_reset),
.current_r_id(0),
.current_r_addr (R0_current_r_addr),
.chan_in (R0_chan_in),
.chan_out (R0_chan_out),
.router_event (R0_router_event)
);
assign R0_clk = clk;
assign R0_reset = reset;
assign R0_current_r_addr = 0;
//Connect R0 port 0 to T0 port 0
assign R0_chan_in [0] = T0_chan_in;
assign T0_chan_out = R0_chan_out [0];
assign T0_router_event = R0_router_event [0];
//Connect R0 port 1 to R14 port 3
assign R0_chan_in [1] = R14_chan_out [3];
//Connect R0 port 2 to R13 port 3
assign R0_chan_in [2] = R13_chan_out [3];
/*******************
* R1
*******************/
router_top #(
.P(3)
)
R1
(
.clk(R1_clk),
.reset(R1_reset),
.current_r_id(1),
.current_r_addr (R1_current_r_addr),
.chan_in (R1_chan_in),
.chan_out (R1_chan_out),
.router_event (R1_router_event)
);
assign R1_clk = clk;
assign R1_reset = reset;
assign R1_current_r_addr = 1;
//Connect R1 port 0 to T1 port 0
assign R1_chan_in [0] = T1_chan_in;
assign T1_chan_out = R1_chan_out [0];
assign T1_router_event = R1_router_event [0];
//Connect R1 port 1 to R7 port 3
assign R1_chan_in [1] = R7_chan_out [3];
//Connect R1 port 2 to R2 port 2
assign R1_chan_in [2] = R2_chan_out [2];
/*******************
* R2
*******************/
router_top #(
.P(3)
)
R2
(
.clk(R2_clk),
.reset(R2_reset),
.current_r_id(2),
.current_r_addr (R2_current_r_addr),
.chan_in (R2_chan_in),
.chan_out (R2_chan_out),
.router_event (R2_router_event)
);
assign R2_clk = clk;
assign R2_reset = reset;
assign R2_current_r_addr = 2;
//Connect R2 port 0 to T2 port 0
assign R2_chan_in [0] = T2_chan_in;
assign T2_chan_out = R2_chan_out [0];
assign T2_router_event = R2_router_event [0];
//Connect R2 port 1 to R15 port 2
assign R2_chan_in [1] = R15_chan_out [2];
//Connect R2 port 2 to R1 port 2
assign R2_chan_in [2] = R1_chan_out [2];
/*******************
* R3
*******************/
router_top #(
.P(3)
)
R3
(
.clk(R3_clk),
.reset(R3_reset),
.current_r_id(3),
.current_r_addr (R3_current_r_addr),
.chan_in (R3_chan_in),
.chan_out (R3_chan_out),
.router_event (R3_router_event)
);
assign R3_clk = clk;
assign R3_reset = reset;
assign R3_current_r_addr = 3;
//Connect R3 port 0 to T3 port 0
assign R3_chan_in [0] = T3_chan_in;
assign T3_chan_out = R3_chan_out [0];
assign T3_router_event = R3_router_event [0];
//Connect R3 port 1 to R15 port 3
assign R3_chan_in [1] = R15_chan_out [3];
//Connect R3 port 2 to R4 port 2
assign R3_chan_in [2] = R4_chan_out [2];
/*******************
* R4
*******************/
router_top #(
.P(4)
)
R4
(
.clk(R4_clk),
.reset(R4_reset),
.current_r_id(4),
.current_r_addr (R4_current_r_addr),
.chan_in (R4_chan_in),
.chan_out (R4_chan_out),
.router_event (R4_router_event)
);
assign R4_clk = clk;
assign R4_reset = reset;
assign R4_current_r_addr = 4;
//Connect R4 port 0 to T4 port 0
assign R4_chan_in [0] = T4_chan_in;
assign T4_chan_out = R4_chan_out [0];
assign T4_router_event = R4_router_event [0];
//Connect R4 port 1 to R9 port 2
assign R4_chan_in [1] = R9_chan_out [2];
//Connect R4 port 2 to R3 port 2
assign R4_chan_in [2] = R3_chan_out [2];
//Connect R4 port 3 to R6 port 3
assign R4_chan_in [3] = R6_chan_out [3];
/*******************
* R5
*******************/
router_top #(
.P(4)
)
R5
(
.clk(R5_clk),
.reset(R5_reset),
.current_r_id(5),
.current_r_addr (R5_current_r_addr),
.chan_in (R5_chan_in),
.chan_out (R5_chan_out),
.router_event (R5_router_event)
);
assign R5_clk = clk;
assign R5_reset = reset;
assign R5_current_r_addr = 5;
//Connect R5 port 0 to T5 port 0
assign R5_chan_in [0] = T5_chan_in;
assign T5_chan_out = R5_chan_out [0];
assign T5_router_event = R5_router_event [0];
//Connect R5 port 1 to R11 port 4
assign R5_chan_in [1] = R11_chan_out [4];
//Connect R5 port 2 to R6 port 2
assign R5_chan_in [2] = R6_chan_out [2];
//Connect R5 port 3 to R13 port 2
assign R5_chan_in [3] = R13_chan_out [2];
/*******************
* R6
*******************/
router_top #(
.P(4)
)
R6
(
.clk(R6_clk),
.reset(R6_reset),
.current_r_id(6),
.current_r_addr (R6_current_r_addr),
.chan_in (R6_chan_in),
.chan_out (R6_chan_out),
.router_event (R6_router_event)
);
assign R6_clk = clk;
assign R6_reset = reset;
assign R6_current_r_addr = 6;
//Connect R6 port 0 to T6 port 0
assign R6_chan_in [0] = T6_chan_in;
assign T6_chan_out = R6_chan_out [0];
assign T6_router_event = R6_router_event [0];
//Connect R6 port 1 to R9 port 3
assign R6_chan_in [1] = R9_chan_out [3];
//Connect R6 port 2 to R5 port 2
assign R6_chan_in [2] = R5_chan_out [2];
//Connect R6 port 3 to R4 port 3
assign R6_chan_in [3] = R4_chan_out [3];
/*******************
* R7
*******************/
router_top #(
.P(4)
)
R7
(
.clk(R7_clk),
.reset(R7_reset),
.current_r_id(7),
.current_r_addr (R7_current_r_addr),
.chan_in (R7_chan_in),
.chan_out (R7_chan_out),
.router_event (R7_router_event)
);
assign R7_clk = clk;
assign R7_reset = reset;
assign R7_current_r_addr = 7;
//Connect R7 port 0 to T7 port 0
assign R7_chan_in [0] = T7_chan_in;
assign T7_chan_out = R7_chan_out [0];
assign T7_router_event = R7_router_event [0];
//Connect R7 port 1 to R12 port 3
assign R7_chan_in [1] = R12_chan_out [3];
//Connect R7 port 2 to R14 port 2
assign R7_chan_in [2] = R14_chan_out [2];
//Connect R7 port 3 to R1 port 1
assign R7_chan_in [3] = R1_chan_out [1];
/*******************
* R12
*******************/
router_top #(
.P(4)
)
R12
(
.clk(R12_clk),
.reset(R12_reset),
.current_r_id(8),
.current_r_addr (R12_current_r_addr),
.chan_in (R12_chan_in),
.chan_out (R12_chan_out),
.router_event (R12_router_event)
);
assign R12_clk = clk;
assign R12_reset = reset;
assign R12_current_r_addr = 8;
//Connect R12 port 0 to T8 port 0
assign R12_chan_in [0] = T8_chan_in;
assign T8_chan_out = R12_chan_out [0];
assign T8_router_event = R12_router_event [0];
//Connect R12 port 1 to R8 port 4
assign R12_chan_in [1] = R8_chan_out [4];
//Connect R12 port 2 to R10 port 3
assign R12_chan_in [2] = R10_chan_out [3];
//Connect R12 port 3 to R7 port 1
assign R12_chan_in [3] = R7_chan_out [1];
/*******************
* R13
*******************/
router_top #(
.P(4)
)
R13
(
.clk(R13_clk),
.reset(R13_reset),
.current_r_id(9),
.current_r_addr (R13_current_r_addr),
.chan_in (R13_chan_in),
.chan_out (R13_chan_out),
.router_event (R13_router_event)
);
assign R13_clk = clk;
assign R13_reset = reset;
assign R13_current_r_addr = 9;
//Connect R13 port 0 to T9 port 0
assign R13_chan_in [0] = T9_chan_in;
assign T9_chan_out = R13_chan_out [0];
assign T9_router_event = R13_router_event [0];
//Connect R13 port 1 to R8 port 2
assign R13_chan_in [1] = R8_chan_out [2];
//Connect R13 port 2 to R5 port 3
assign R13_chan_in [2] = R5_chan_out [3];
//Connect R13 port 3 to R0 port 2
assign R13_chan_in [3] = R0_chan_out [2];
/*******************
* R14
*******************/
router_top #(
.P(4)
)
R14
(
.clk(R14_clk),
.reset(R14_reset),
.current_r_id(10),
.current_r_addr (R14_current_r_addr),
.chan_in (R14_chan_in),
.chan_out (R14_chan_out),
.router_event (R14_router_event)
);
assign R14_clk = clk;
assign R14_reset = reset;
assign R14_current_r_addr = 10;
//Connect R14 port 0 to T10 port 0
assign R14_chan_in [0] = T10_chan_in;
assign T10_chan_out = R14_chan_out [0];
assign T10_router_event = R14_router_event [0];
//Connect R14 port 1 to R8 port 3
assign R14_chan_in [1] = R8_chan_out [3];
//Connect R14 port 2 to R7 port 2
assign R14_chan_in [2] = R7_chan_out [2];
//Connect R14 port 3 to R0 port 1
assign R14_chan_in [3] = R0_chan_out [1];
/*******************
* R15
*******************/
router_top #(
.P(4)
)
R15
(
.clk(R15_clk),
.reset(R15_reset),
.current_r_id(11),
.current_r_addr (R15_current_r_addr),
.chan_in (R15_chan_in),
.chan_out (R15_chan_out),
.router_event (R15_router_event)
);
assign R15_clk = clk;
assign R15_reset = reset;
assign R15_current_r_addr = 11;
//Connect R15 port 0 to T11 port 0
assign R15_chan_in [0] = T11_chan_in;
assign T11_chan_out = R15_chan_out [0];
assign T11_router_event = R15_router_event [0];
//Connect R15 port 1 to R10 port 4
assign R15_chan_in [1] = R10_chan_out [4];
//Connect R15 port 2 to R2 port 1
assign R15_chan_in [2] = R2_chan_out [1];
//Connect R15 port 3 to R3 port 1
assign R15_chan_in [3] = R3_chan_out [1];
/*******************
* R8
*******************/
router_top #(
.P(5)
)
R8
(
.clk(R8_clk),
.reset(R8_reset),
.current_r_id(12),
.current_r_addr (R8_current_r_addr),
.chan_in (R8_chan_in),
.chan_out (R8_chan_out),
.router_event (R8_router_event)
);
assign R8_clk = clk;
assign R8_reset = reset;
assign R8_current_r_addr = 12;
//Connect R8 port 0 to T12 port 0
assign R8_chan_in [0] = T12_chan_in;
assign T12_chan_out = R8_chan_out [0];
assign T12_router_event = R8_router_event [0];
//Connect R8 port 1 to R11 port 1
assign R8_chan_in [1] = R11_chan_out [1];
//Connect R8 port 2 to R13 port 1
assign R8_chan_in [2] = R13_chan_out [1];
//Connect R8 port 3 to R14 port 1
assign R8_chan_in [3] = R14_chan_out [1];
//Connect R8 port 4 to R12 port 1
assign R8_chan_in [4] = R12_chan_out [1];
/*******************
* R9
*******************/
router_top #(
.P(5)
)
R9
(
.clk(R9_clk),
.reset(R9_reset),
.current_r_id(13),
.current_r_addr (R9_current_r_addr),
.chan_in (R9_chan_in),
.chan_out (R9_chan_out),
.router_event (R9_router_event)
);
assign R9_clk = clk;
assign R9_reset = reset;
assign R9_current_r_addr = 13;
//Connect R9 port 0 to T13 port 0
assign R9_chan_in [0] = T13_chan_in;
assign T13_chan_out = R9_chan_out [0];
assign T13_router_event = R9_router_event [0];
//Connect R9 port 1 to R11 port 3
assign R9_chan_in [1] = R11_chan_out [3];
//Connect R9 port 2 to R4 port 1
assign R9_chan_in [2] = R4_chan_out [1];
//Connect R9 port 3 to R6 port 1
assign R9_chan_in [3] = R6_chan_out [1];
//Connect R9 port 4 to R10 port 2
assign R9_chan_in [4] = R10_chan_out [2];
/*******************
* R10
*******************/
router_top #(
.P(5)
)
R10
(
.clk(R10_clk),
.reset(R10_reset),
.current_r_id(14),
.current_r_addr (R10_current_r_addr),
.chan_in (R10_chan_in),
.chan_out (R10_chan_out),
.router_event (R10_router_event)
);
assign R10_clk = clk;
assign R10_reset = reset;
assign R10_current_r_addr = 14;
//Connect R10 port 0 to T14 port 0
assign R10_chan_in [0] = T14_chan_in;
assign T14_chan_out = R10_chan_out [0];
assign T14_router_event = R10_router_event [0];
//Connect R10 port 1 to R11 port 2
assign R10_chan_in [1] = R11_chan_out [2];
//Connect R10 port 2 to R9 port 4
assign R10_chan_in [2] = R9_chan_out [4];
//Connect R10 port 3 to R12 port 2
assign R10_chan_in [3] = R12_chan_out [2];
//Connect R10 port 4 to R15 port 1
assign R10_chan_in [4] = R15_chan_out [1];
/*******************
* R11
*******************/
router_top #(
.P(5)
)
R11
(
.clk(R11_clk),
.reset(R11_reset),
.current_r_id(15),
.current_r_addr (R11_current_r_addr),
.chan_in (R11_chan_in),
.chan_out (R11_chan_out),
.router_event (R11_router_event)
);
assign R11_clk = clk;
assign R11_reset = reset;
assign R11_current_r_addr = 15;
//Connect R11 port 0 to T15 port 0
assign R11_chan_in [0] = T15_chan_in;
assign T15_chan_out = R11_chan_out [0];
assign T15_router_event = R11_router_event [0];
//Connect R11 port 1 to R8 port 1
assign R11_chan_in [1] = R8_chan_out [1];
//Connect R11 port 2 to R10 port 1
assign R11_chan_in [2] = R10_chan_out [1];
//Connect R11 port 3 to R9 port 1
assign R11_chan_in [3] = R9_chan_out [1];
//Connect R11 port 4 to R5 port 1
assign R11_chan_in [4] = R5_chan_out [1];
endmodule
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