OpenCores
URL https://opencores.org/ocsvn/minsoc/minsoc/trunk

Subversion Repositories minsoc

[/] [minsoc/] [trunk/] [rtl/] [verilog/] [xilinx_dcm.v] - Blame information for rev 83

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 62 rfajardo
 
2
`include "minsoc_defines.v"
3
 
4
module xilinx_dcm(
5
        clk_i,
6
        clk_o
7
);
8
 
9
// 
10
// Parameters 
11
// 
12
   parameter    divisor = 2;
13
 
14
input clk_i;
15
output clk_o;
16
 
17
 
18
`ifdef SPARTAN2
19
        `define XILINX_DLL
20
`elsif VIRTEX
21
        `define XILINX_DLL
22
`endif  // !SPARTAN2/VIRTEX
23
 
24
`ifdef SPARTAN3
25
        `define XILINX_DCM
26
`elsif VIRTEX2
27
        `define XILINX_DCM
28
`endif  // !SPARTAN3/VIRTEX2
29
 
30
`ifdef SPARTAN3E
31
        `define XILINX_DCM_SP
32
`elsif SPARTAN3A
33
        `define XILINX_DCM_SP
34
`endif  // !SPARTAN3E/SPARTAN3A
35
 
36
`ifdef VIRTEX4
37
        `define XILINX_DCM_ADV
38
        `define XILINX_DCM_COMPONENT "VIRTEX4"
39
`elsif VIRTEX5
40
        `define XILINX_DCM_ADV
41
        `define XILINX_DCM_COMPONENT "VIRTEX5"
42
`endif  // !VIRTEX4/VIRTEX5
43
 
44
 
45
wire CLKIN_IN;
46
wire CLKDV_OUT;
47
 
48
assign CLKIN_IN = clk_i;
49
assign clk_o = CLKDV_OUT;
50
 
51
wire CLKIN_IBUFG;
52
wire CLK0_BUF;
53
wire CLKFB_IN;
54
wire CLKDV_BUF;
55
 
56
IBUFG CLKIN_IBUFG_INST (
57
        .I(CLKIN_IN),
58
        .O(CLKIN_IBUFG)
59
);
60
 
61
BUFG CLK0_BUFG_INST (
62
        .I(CLK0_BUF),
63
        .O(CLKFB_IN)
64
);
65
 
66
BUFG CLKDV_BUFG_INST (
67
        .I(CLKDV_BUF),
68
        .O(CLKDV_OUT)
69
);
70
 
71
`ifdef XILINX_DLL
72
 
73
CLKDLL #(
74
        .CLKDV_DIVIDE(divisor),                 // Divide by: 1.5,2.0,2.5,3.0,4.0,5.0,8.0 or 16.0
75
        .DUTY_CYCLE_CORRECTION("TRUE"),         // Duty cycle correction, TRUE or FALSE
76
        .FACTORY_JF(16'hC080),                  // FACTORY JF Values
77
        .STARTUP_WAIT("FALSE")                  // Delay config DONE until DLL LOCK, TRUE/FALSE
78
) CLKDLL_inst (
79
        .CLK0(CLK0_BUF),                        // 0 degree DLL CLK output
80
        .CLK180(),                              // 180 degree DLL CLK output
81
        .CLK270(),                              // 270 degree DLL CLK output
82
        .CLK2X(),                               // 2X DLL CLK output
83
        .CLK90(),                               // 90 degree DLL CLK output
84
        .CLKDV(CLKDV_BUF),                      // Divided DLL CLK out (CLKDV_DIVIDE)
85
        .LOCKED(),                              // DLL LOCK status output
86
        .CLKFB(CLKFB_IN),                       // DLL clock feedback
87
        .CLKIN(CLKIN_IBUFG),                    // Clock input (from IBUFG, BUFG or DLL)
88
        .RST(1'b0)                              // DLL asynchronous reset input
89
);
90
 
91
`elsif XILINX_DCM
92
 
93
DCM #(
94
        .SIM_MODE("SAFE"),                      // Simulation: "SAFE" vs. "FAST", see "Synthesis and Simulation Design Guide" for details
95
        .CLKDV_DIVIDE(divisor),                 // Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5
96
                                                //   7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0
97
        .CLKFX_DIVIDE(1),                       // Can be any integer from 1 to 32
98
        .CLKFX_MULTIPLY(4),                     // Can be any integer from 2 to 32
99
        .CLKIN_DIVIDE_BY_2("FALSE"),            // TRUE/FALSE to enable CLKIN divide by two feature
100
        .CLKIN_PERIOD(0.0),                     // Specify period of input clock
101
        .CLKOUT_PHASE_SHIFT("NONE"),            // Specify phase shift of NONE, FIXED or VARIABLE
102
        .CLK_FEEDBACK("1X"),                    // Specify clock feedback of NONE, 1X or 2X
103
        .DESKEW_ADJUST("SYSTEM_SYNCHRONOUS"),   // SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or
104
                                                //   an integer from 0 to 15
105
        .DFS_FREQUENCY_MODE("LOW"),             // HIGH or LOW frequency mode for frequency synthesis
106
        .DLL_FREQUENCY_MODE("LOW"),             // HIGH or LOW frequency mode for DLL
107
        .DUTY_CYCLE_CORRECTION("TRUE"),         // Duty cycle correction, TRUE or FALSE
108
        .FACTORY_JF(16'hC080),                  // FACTORY JF values
109
        .PHASE_SHIFT(0),                         // Amount of fixed phase shift from -255 to 255
110
        .STARTUP_WAIT("FALSE")                  // Delay configuration DONE until DCM LOCK, TRUE/FALSE
111
) DCM_inst (
112
        .CLK0(CLK0_BUF),                        // 0 degree DCM CLK output
113
        .CLK180(),                              // 180 degree DCM CLK output
114
        .CLK270(),                              // 270 degree DCM CLK output
115
        .CLK2X(),                               // 2X DCM CLK output
116
        .CLK2X180(),                            // 2X, 180 degree DCM CLK out
117
        .CLK90(),                               // 90 degree DCM CLK output
118
        .CLKDV(CLKDV_BUF),                      // Divided DCM CLK out (CLKDV_DIVIDE)
119
        .CLKFX(),                               // DCM CLK synthesis out (M/D)
120
        .CLKFX180(),                            // 180 degree CLK synthesis out
121
        .LOCKED(),                              // DCM LOCK status output
122
        .PSDONE(),                              // Dynamic phase adjust done output
123
        .STATUS(),                              // 8-bit DCM status bits output
124
        .CLKFB(CLKFB_IN),                       // DCM clock feedback
125
        .CLKIN(CLKIN_IBUFG),                    // Clock input (from IBUFG, BUFG or DCM)
126
        .PSCLK(1'b0),                           // Dynamic phase adjust clock input
127
        .PSEN(1'b0),                            // Dynamic phase adjust enable input
128
        .PSINCDEC(1'b0),                        // Dynamic phase adjust increment/decrement
129
        .RST(1'b0)                              // DCM asynchronous reset input
130
);
131
 
132
`elsif XILINX_DCM_SP
133
 
134
DCM_SP #(
135
        .CLKDV_DIVIDE(divisor),                 // Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5
136
                                                //   7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0
137
        .CLKFX_DIVIDE(1),                       // Can be any integer from 1 to 32
138
        .CLKFX_MULTIPLY(4),                     // Can be any integer from 2 to 32
139
        .CLKIN_DIVIDE_BY_2("FALSE"),            // TRUE/FALSE to enable CLKIN divide by two feature
140
        .CLKIN_PERIOD(0.0),                     // Specify period of input clock
141
        .CLKOUT_PHASE_SHIFT("NONE"),            // Specify phase shift of NONE, FIXED or VARIABLE
142
        .CLK_FEEDBACK("1X"),                    // Specify clock feedback of NONE, 1X or 2X
143
        .DESKEW_ADJUST("SYSTEM_SYNCHRONOUS"),   // SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or
144
                                                //   an integer from 0 to 15
145
        .DLL_FREQUENCY_MODE("LOW"),             // HIGH or LOW frequency mode for DLL
146
        .DUTY_CYCLE_CORRECTION("TRUE"),         // Duty cycle correction, TRUE or FALSE
147
        .PHASE_SHIFT(0),                         // Amount of fixed phase shift from -255 to 255
148
        .STARTUP_WAIT("FALSE")                  // Delay configuration DONE until DCM LOCK, TRUE/FALSE
149
) DCM_SP_inst (
150
        .CLK0(CLK0_BUF),                        // 0 degree DCM CLK output
151
        .CLK180(),                              // 180 degree DCM CLK output
152
        .CLK270(),                              // 270 degree DCM CLK output
153
        .CLK2X(),                               // 2X DCM CLK output
154
        .CLK2X180(),                            // 2X, 180 degree DCM CLK out
155
        .CLK90(),                               // 90 degree DCM CLK output
156
        .CLKDV(CLKDV_BUF),                      // Divided DCM CLK out (CLKDV_DIVIDE)
157
        .CLKFX(),                               // DCM CLK synthesis out (M/D)
158
        .CLKFX180(),                            // 180 degree CLK synthesis out
159
        .LOCKED(),                              // DCM LOCK status output
160
        .PSDONE(),                              // Dynamic phase adjust done output
161
        .STATUS(),                              // 8-bit DCM status bits output
162
        .CLKFB(CLKFB_IN),                       // DCM clock feedback
163
        .CLKIN(CLKIN_IBUFG),                    // Clock input (from IBUFG, BUFG or DCM)
164
        .PSCLK(1'b0),                           // Dynamic phase adjust clock input
165
        .PSEN(1'b0),                            // Dynamic phase adjust enable input
166
        .PSINCDEC(1'b0),                        // Dynamic phase adjust increment/decrement
167
        .RST(1'b0)                              // DCM asynchronous reset input
168
);
169
 
170
`elsif XILINX_DCM_ADV
171
 
172
DCM_ADV #(
173
        .CLKDV_DIVIDE(divisor),                 // Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5
174
                                                //   7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0
175
        .CLKFX_DIVIDE(1),                       // Can be any integer from 1 to 32
176
        .CLKFX_MULTIPLY(4),                     // Can be any integer from 2 to 32
177
        .CLKIN_DIVIDE_BY_2("FALSE"),            // TRUE/FALSE to enable CLKIN divide by two feature
178
        .CLKIN_PERIOD(10.0),                    // Specify period of input clock in ns from 1.25 to 1000.00
179
        .CLKOUT_PHASE_SHIFT("NONE"),            // Specify phase shift mode of NONE, FIXED,
180
                                                // VARIABLE_POSITIVE, VARIABLE_CENTER or DIRECT
181
        .CLK_FEEDBACK("1X"),                    // Specify clock feedback of NONE, 1X or 2X
182
        .DCM_AUTOCALIBRATION("TRUE"),           // DCM calibration circuitry "TRUE"/"FALSE"
183
        .DCM_PERFORMANCE_MODE("MAX_SPEED"),     // Can be MAX_SPEED or MAX_RANGE
184
        .DESKEW_ADJUST("SYSTEM_SYNCHRONOUS"),   // SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or
185
                                                //   an integer from 0 to 15
186
        .DFS_FREQUENCY_MODE("LOW"),             // HIGH or LOW frequency mode for frequency synthesis
187
        .DLL_FREQUENCY_MODE("LOW"),             // LOW, HIGH, or HIGH_SER frequency mode for DLL
188
        .DUTY_CYCLE_CORRECTION("TRUE"),         // Duty cycle correction, "TRUE"/"FALSE"
189
        .FACTORY_JF(16'hf0f0),                  // FACTORY JF value suggested to be set to 16’hf0f0
190
        .PHASE_SHIFT(0),                         // Amount of fixed phase shift from -255 to 1023
191
        .SIM_DEVICE(`XILINX_DCM_COMPONENT),     // Set target device, "VIRTEX4" or "VIRTEX5"
192
        .STARTUP_WAIT("FALSE")                  // Delay configuration DONE until DCM LOCK, "TRUE"/"FALSE"
193
) DCM_ADV_inst (
194
        .CLK0(CLK0_BUF),                        // 0 degree DCM CLK output
195
        .CLK180(),                              // 180 degree DCM CLK output
196
        .CLK270(),                              // 270 degree DCM CLK output
197
        .CLK2X(),                               // 2X DCM CLK output
198
        .CLK2X180(),                            // 2X, 180 degree DCM CLK out
199
        .CLK90(),                               // 90 degree DCM CLK output
200
        .CLKDV(CLKDV_BUF),                      // Divided DCM CLK out (CLKDV_DIVIDE)
201
        .CLKFX(),                               // DCM CLK synthesis out (M/D)
202
        .CLKFX180(),                            // 180 degree CLK synthesis out
203
        .DO(),                                  // 16-bit data output for Dynamic Reconfiguration Port (DRP)
204
        .DRDY(),                                // Ready output signal from the DRP
205
        .LOCKED(),                              // DCM LOCK status output
206
        .PSDONE(),                              // Dynamic phase adjust done output
207
        .CLKFB(CLKFB_IN),                       // DCM clock feedback
208
        .CLKIN(CLKIN_IBUFG),                    // Clock input (from IBUFG, BUFG or DCM)
209
        .DADDR(7'h00),                          // 7-bit address for the DRP
210
        .DCLK(1'b0),                            // Clock for the DRP
211
        .DEN(1'b0),                             // Enable input for the DRP
212
        .DI(16'h0000),                          // 16-bit data input for the DRP
213
        .DWE(1'b0),                             // Active high allows for writing configuration memory
214
        .PSCLK(1'b0),                           // Dynamic phase adjust clock input
215
        .PSEN(1'b0),                            // Dynamic phase adjust enable input
216
        .PSINCDEC(1'b0),                        // Dynamic phase adjust increment/decrement
217
        .RST(1'b0)                              // DCM asynchronous reset input
218
);
219
 
220
`endif  // !XILINX_DLL/XILINX_DCM/XILINX_DCM_SP/XILINX_DCM_ADV
221
 
222
 
223
endmodule

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.