-
Notifications
You must be signed in to change notification settings - Fork 0
/
Copy pathn4fpga.v
252 lines (226 loc) · 8.52 KB
/
n4fpga.v
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
`timescale 1ns / 1ps
// n4fpga.v - Top level module for the ECE 544 Project - 2
//
// Copyright Chetan Bornarkar, Portland State University, 2016
//
// Created By: Roy Kravitz
// Modified By: Chetan Bornarkar
// Modified By: Nishad Saraf and Chaitanya Deshpande
// Date: 20-February-2017
// Version: 4.1
//
// Description:
// ------------
// This module provides the top level for the project 2 hardware.
// The module assume that PmodOLED and PmodHB3 are plugged into the JB and JA(bottom row)
// expansion ports respectively and that a PmodENC is plugged into the JD expansion
// port (bottom row).
//////////////////////////////////////////////////////////////////////
module n4fpga(
input clk, // 100Mhz clock input
input btnC, // center pushbutton
input btnU, // UP (North) pusbhbutton
input btnL, // LEFT (West) pushbutton
input btnD, // DOWN (South) pushbutton - used for system reset
input btnR, // RIGHT (East) pushbutton
input btnCpuReset, // CPU reset pushbutton
input [15:0] sw, // slide switches on Nexys 4
output [15:0] led, // LEDs on Nexys 4
output RGB1_Blue, // RGB1 LED (LD16)
output RGB1_Green,
output RGB1_Red,
output RGB2_Blue, // RGB2 LED (LD17)
output RGB2_Green,
output RGB2_Red,
output [7:0] an, // Seven Segment display
output [6:0] seg,
output dp, // decimal point display on the seven segment
input uart_rtl_rxd, // USB UART Rx and Tx on Nexys 4
output uart_rtl_txd,
inout [7:0] JA, // JA PmodOLED connector
// both rows are used
inout [7:0] JB, // JB Pmod connector
// Unused. Can be used for debuggin purposes
output [7:0] JC, // JC Pmod connector - debug signals
// Can be used for debug purposes
input [7:0] JD // JD Pmod connector - PmodENC signals
);
// internal variables
// Clock and Reset
wire sysclk;
wire sysreset_n, sysreset;
// Rotary encoder
wire rotary_a, rotary_b, rotary_press, rotary_sw;
// PmodHB3
wire HB3_DIR_OUT, HB3_EN, HB3_SA;
// GPIO pins
wire [7:0] gpio_in; // embsys GPIO input port
wire [7:0] gpio_out; // embsys GPIO output port
// OLED pins
wire pmodoledrgb_out_pin1_i, pmodoledrgb_out_pin1_io, pmodoledrgb_out_pin1_o, pmodoledrgb_out_pin1_t;
wire pmodoledrgb_out_pin2_i, pmodoledrgb_out_pin2_io, pmodoledrgb_out_pin2_o, pmodoledrgb_out_pin2_t;
wire pmodoledrgb_out_pin3_i, pmodoledrgb_out_pin3_io, pmodoledrgb_out_pin3_o, pmodoledrgb_out_pin3_t;
wire pmodoledrgb_out_pin4_i, pmodoledrgb_out_pin4_io, pmodoledrgb_out_pin4_o, pmodoledrgb_out_pin4_t;
wire pmodoledrgb_out_pin7_i, pmodoledrgb_out_pin7_io, pmodoledrgb_out_pin7_o, pmodoledrgb_out_pin7_t;
wire pmodoledrgb_out_pin8_i, pmodoledrgb_out_pin8_io, pmodoledrgb_out_pin8_o, pmodoledrgb_out_pin8_t;
wire pmodoledrgb_out_pin9_i, pmodoledrgb_out_pin9_io, pmodoledrgb_out_pin9_o, pmodoledrgb_out_pin9_t;
wire pmodoledrgb_out_pin10_i, pmodoledrgb_out_pin10_io, pmodoledrgb_out_pin10_o, pmodoledrgb_out_pin10_t;
// RGB LED
wire w_RGB1_Red, w_RGB1_Blue, w_RGB1_Green;
// LED pins
wire [15:0] led_int; // Nexys4IO drives these outputs
// Drive the leds from the signal generated by the microblaze
assign led = led_int; // LEDs are driven by led
// make the connections
// system-wide signals
assign sysclk = clk;
assign sysreset_n = btnCpuReset; // The CPU reset pushbutton is asserted low. The other pushbuttons are asserted high
// but the microblaze for Nexys 4 expects reset to be asserted low
assign sysreset = ~sysreset_n; // Generate a reset signal that is asserted high for any logic blocks expecting it.
// Pmod OLED connections
assign JB[0] = pmodoledrgb_out_pin1_io;
assign JB[1] = pmodoledrgb_out_pin2_io;
assign JB[2] = pmodoledrgb_out_pin3_io;
assign JB[3] = pmodoledrgb_out_pin4_io;
assign JB[4] = pmodoledrgb_out_pin7_io;
assign JB[5] = pmodoledrgb_out_pin8_io;
assign JB[6] = pmodoledrgb_out_pin9_io;
assign JB[7] = pmodoledrgb_out_pin10_io;
// PmodHB3 connections
assign JA[4] = HB3_DIR_OUT;
assign JA[5] = HB3_EN;
assign HB3_SA = JA[6];
// JC Connector pins can be used for debug purposes
assign JC = 8'h00;
// PmodENC signals
// JD - bottom row only
// Pins are assigned such that turning the knob to the right
// causes the rotary count to increment.
assign rotary_a = JD[5];
assign rotary_b = JD[4];
assign rotary_press = JD[6];
assign rotary_sw = JD[7];
// instantiate the embedded system
embsys EMBSYS
(// PMOD OLED pins
.PmodOLEDrgb_out_pin10_i(pmodoledrgb_out_pin10_i),
.PmodOLEDrgb_out_pin10_o(pmodoledrgb_out_pin10_o),
.PmodOLEDrgb_out_pin10_t(pmodoledrgb_out_pin10_t),
.PmodOLEDrgb_out_pin1_i(pmodoledrgb_out_pin1_i),
.PmodOLEDrgb_out_pin1_o(pmodoledrgb_out_pin1_o),
.PmodOLEDrgb_out_pin1_t(pmodoledrgb_out_pin1_t),
.PmodOLEDrgb_out_pin2_i(pmodoledrgb_out_pin2_i),
.PmodOLEDrgb_out_pin2_o(pmodoledrgb_out_pin2_o),
.PmodOLEDrgb_out_pin2_t(pmodoledrgb_out_pin2_t),
.PmodOLEDrgb_out_pin3_i(pmodoledrgb_out_pin3_i),
.PmodOLEDrgb_out_pin3_o(pmodoledrgb_out_pin3_o),
.PmodOLEDrgb_out_pin3_t(pmodoledrgb_out_pin3_t),
.PmodOLEDrgb_out_pin4_i(pmodoledrgb_out_pin4_i),
.PmodOLEDrgb_out_pin4_o(pmodoledrgb_out_pin4_o),
.PmodOLEDrgb_out_pin4_t(pmodoledrgb_out_pin4_t),
.PmodOLEDrgb_out_pin7_i(pmodoledrgb_out_pin7_i),
.PmodOLEDrgb_out_pin7_o(pmodoledrgb_out_pin7_o),
.PmodOLEDrgb_out_pin7_t(pmodoledrgb_out_pin7_t),
.PmodOLEDrgb_out_pin8_i(pmodoledrgb_out_pin8_i),
.PmodOLEDrgb_out_pin8_o(pmodoledrgb_out_pin8_o),
.PmodOLEDrgb_out_pin8_t(pmodoledrgb_out_pin8_t),
.PmodOLEDrgb_out_pin9_i(pmodoledrgb_out_pin9_i),
.PmodOLEDrgb_out_pin9_o(pmodoledrgb_out_pin9_o),
.PmodOLEDrgb_out_pin9_t(pmodoledrgb_out_pin9_t),
// GPIO pins
.gpio_0_GPIO_tri_i(gpio_in),
.gpio_0_GPIO2_tri_o(gpio_out),
//PMOD HB3 connections
.PmodHB3_SA(HB3_SA),
.PmodHB3_EN(HB3_EN),
.PmodHB3_DIR(HB3_DIR_OUT),
// Pmod Rotary Encoder
.pmodENC_A(rotary_a),
.pmodENC_B(rotary_b),
.pmodENC_btn(rotary_press),
.pmodENC_sw(rotary_sw),
// RGB1/2 Led's
.RGB1_Blue(RGB1_Blue),
.RGB1_Green(RGB1_Green),
.RGB1_Red(RGB1_Red),
.RGB2_Blue(RGB2_Blue),
.RGB2_Green(RGB2_Green),
.RGB2_Red(RGB2_Red),
// Seven Segment Display anode control
.an(an),
.dp(dp),
.led(led_int),
.seg(seg),
// Push buttons and switches
.btnC(btnC),
.btnD(btnD),
.btnL(btnL),
.btnR(btnR),
.btnU(btnU),
.sw(sw),
// reset and clock
.sysreset_n(sysreset_n),
.sysclk(sysclk),
// UART pins
.uart_rtl_rxd(uart_rtl_rxd),
.uart_rtl_txd(uart_rtl_txd));
// Tristate buffers for the pmodOLEDrgb pins
// generated by PMOD bridge component. Many
// of these signals are not tri-state.
IOBUF pmodoledrgb_out_pin1_iobuf
(
.I(pmodoledrgb_out_pin1_o),
.IO(pmodoledrgb_out_pin1_io),
.O(pmodoledrgb_out_pin1_i),
.T(pmodoledrgb_out_pin1_t)
);
IOBUF pmodoledrgb_out_pin2_iobuf
(
.I(pmodoledrgb_out_pin2_o),
.IO(pmodoledrgb_out_pin2_io),
.O(pmodoledrgb_out_pin2_i),
.T(pmodoledrgb_out_pin2_t)
);
IOBUF pmodoledrgb_out_pin3_iobuf
(
.I(pmodoledrgb_out_pin3_o),
.IO(pmodoledrgb_out_pin3_io),
.O(pmodoledrgb_out_pin3_i),
.T(pmodoledrgb_out_pin3_t)
);
IOBUF pmodoledrgb_out_pin4_iobuf
(
.I(pmodoledrgb_out_pin4_o),
.IO(pmodoledrgb_out_pin4_io),
.O(pmodoledrgb_out_pin4_i),
.T(pmodoledrgb_out_pin4_t)
);
IOBUF pmodoledrgb_out_pin7_iobuf
(
.I(pmodoledrgb_out_pin7_o),
.IO(pmodoledrgb_out_pin7_io),
.O(pmodoledrgb_out_pin7_i),
.T(pmodoledrgb_out_pin7_t)
);
IOBUF pmodoledrgb_out_pin8_iobuf
(
.I(pmodoledrgb_out_pin8_o),
.IO(pmodoledrgb_out_pin8_io),
.O(pmodoledrgb_out_pin8_i),
.T(pmodoledrgb_out_pin8_t)
);
IOBUF pmodoledrgb_out_pin9_iobuf
(
.I(pmodoledrgb_out_pin9_o),
.IO(pmodoledrgb_out_pin9_io),
.O(pmodoledrgb_out_pin9_i),
.T(pmodoledrgb_out_pin9_t)
);
IOBUF pmodoledrgb_out_pin10_iobuf
(
.I(pmodoledrgb_out_pin10_o),
.IO(pmodoledrgb_out_pin10_io),
.O(pmodoledrgb_out_pin10_i),
.T(pmodoledrgb_out_pin10_t)
);
endmodule