URL https://opencores.org/ocsvn/versatile_library/versatile_library/trunk

Subversion Repositories versatile_library

[/] [versatile_library/] [trunk/] [rtl/] [verilog/] [clk_and_reset.v] - Blame information for rev 8

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


//////////////////////////////////////////////////////////////////////
////                                                              ////
////  Versatile library, clock and reset                          ////
////                                                              ////
////  Description                                                 ////
////  Logic related to clock and reset                            ////
////                                                              ////
////                                                              ////
////  To Do:                                                      ////
////   - add more different registers                             ////
////                                                              ////
////  Author(s):                                                  ////
////      - Michael Unneback, unneback@opencores.org              ////
////        ORSoC AB                                              ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
////                                                              ////
//// 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                     ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
 
// Global buffer
// usage:
// use to enable global buffers for high fan out signals such as clock and reset
 
`ifdef ACTEL
 
`timescale 1 ns/100 ps
// Version: 8.4 8.4.0.33
module gbuf(GL,CLK);
output GL;
input  CLK;
 
    wire GND;
 
    GND GND_1_net(.Y(GND));
    CLKDLY Inst1(.CLK(CLK), .GL(GL), .DLYGL0(GND), .DLYGL1(GND),
        .DLYGL2(GND), .DLYGL3(GND), .DLYGL4(GND)) /* synthesis black_box */;
 
endmodule
`timescale 1 ns/1 ns
module vl_gbuf ( i, o);
input i;
output o;
//E2_ifdef SIM_GBUF
assign o=i;
//E2_else
gbuf gbuf_i0 ( .CLK(i), .GL(o));
//E2_endif
endmodule
`else
`ifdef ALTERA
altera
`else
 
`timescale 1 ns/100 ps
module vl_gbuf ( i, o);
input i;
output o;
assign o = i;
endmodule
`endif // ALTERA
`endif //ACTEL
 
// sync reset
// input active lo async reset, normally from external reset generetaor and/or switch
// output active high global reset sync with two DFFs 
`timescale 1 ns/100 ps
module vl_sync_rst ( rst_n_i, rst_o, clk);
input rst_n_i, clk;
output rst_o;
reg [0:1] tmp;
always @ (posedge clk or negedge rst_n_i)
if (!rst_n_i)
        tmp <= 2'b00;
else
        tmp <= {1'b1,tmp[0]};
vl_gbuf buf_i0( .i(tmp[1]), .o(rst_o));
endmodule
 
// vl_pll
`ifdef ACTEL
`timescale 1 ns/100 ps
module vl_pll ( clk_i, rst_n_i, lock, clk_o, rst_o);
parameter index = 0;
parameter number_of_clk = 1;
parameter period_time_0 = 20;
parameter period_time_1 = 20;
parameter period_time_2 = 20;
parameter lock_delay = 2000;
input clk_i, rst_n_i;
output lock;
output reg [0:number_of_clk-1] clk_o;
output [0:number_of_clk-1] rst_o;
 
//E2_ifdef SIM_PLL
 
always
     #((period_time_0)/2) clk_o[0] <=  (!rst_n_i) ? 0 : ~clk_o[0];
 
generate if (number_of_clk > 1)
always
     #((period_time_1)/2) clk_o[1] <=  (!rst_n_i) ? 0 : ~clk_o[1];
endgenerate
 
generate if (number_of_clk > 2)
always
     #((period_time_2)/2) clk_o[2] <=  (!rst_n_i) ? 0 : ~clk_o[2];
endgenerate
 
genvar i;
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
     vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
end
endgenerate
 
assign #lock_delay lock = rst_n_i;
 
endmodule
//E2_else
generate if (number_of_clk==1 & index==0) begin
        pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
end
endgenerate // index==0
generate if (number_of_clk==1 & index==1) begin
        pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
end
endgenerate // index==1
generate if (number_of_clk==1 & index==2) begin
        pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
end
endgenerate // index==2
generate if (number_of_clk==1 & index==3) begin
        pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));
end
endgenerate // index==0
 
generate if (number_of_clk==2 & index==0) begin
        pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
end
endgenerate // index==0
generate if (number_of_clk==2 & index==1) begin
        pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
end
endgenerate // index==1
generate if (number_of_clk==2 & index==2) begin
        pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
end
endgenerate // index==2
generate if (number_of_clk==2 & index==3) begin
        pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));
end
endgenerate // index==0
 
generate if (number_of_clk==3 & index==0) begin
        pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
end
endgenerate // index==0
generate if (number_of_clk==3 & index==1) begin
        pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
end
endgenerate // index==1
generate if (number_of_clk==3 & index==2) begin
        pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
end
endgenerate // index==2
generate if (number_of_clk==3 & index==3) begin
        pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));
end
endgenerate // index==0
 
genvar i;
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
        vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o), .clk(clk_o[i]));
end
endgenerate
endmodule
//E2_endif
 
`else
 
`ifdef ALTERA
 
`else
 
// generic PLL
`timescale 1 ns/100 ps
module vl_pll ( clk_i, rst_n_i, lock, clk_o, rst_o);
parameter index = 0;
parameter number_of_clk = 1;
parameter period_time_0 = 20;
parameter period_time_1 = 20;
parameter period_time_2 = 20;
parameter lock_delay = 2000;
input clk_i, rst_n_i;
output lock;
output reg [0:number_of_clk-1] clk_o;
output [0:number_of_clk-1] rst_o;
 
always
     #((period_time_0)/2) clk_o[0] <=  (!rst_n_i) ? 0 : ~clk_o[0];
 
generate if (number_of_clk > 1)
always
     #((period_time_1)/2) clk_o[1] <=  (!rst_n_i) ? 0 : ~clk_o[1];
endgenerate
 
generate if (number_of_clk > 2)
always
     #((period_time_2)/2) clk_o[2] <=  (!rst_n_i) ? 0 : ~clk_o[2];
endgenerate
 
genvar i;
generate for (i=0;i<number_of_clk;i=i+1) begin: clock
     vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i | lock), .rst_o(rst_o[i]), .clk(clk_o[i]));
end
endgenerate
 
assign #lock_delay lock = rst_n_i;
 
endmodule
 
`endif //altera
`endif //actel

Line No.	Rev	Author	Line
1	3	unneback	`//////////////////////////////////////////////////////////////////////`
2			`//// ////`
3			`//// Versatile library, clock and reset ////`
4			`//// ////`
5			`//// Description ////`
6			`//// Logic related to clock and reset ////`
7			`//// ////`
8			`//// ////`
9			`//// To Do: ////`
10			`//// - add more different registers ////`
11			`//// ////`
12			`//// Author(s): ////`
13			`//// - Michael Unneback, unneback@opencores.org ////`
14			`//// ORSoC AB ////`
15			`//// ////`
16			`//////////////////////////////////////////////////////////////////////`
17			`//// ////`
18			`//// Copyright (C) 2010 Authors and OPENCORES.ORG ////`
19			`//// ////`
20			`//// This source file may be used and distributed without ////`
21			`//// restriction provided that this copyright statement is not ////`
22			`//// removed from the file and that any derivative work contains ////`
23			`//// the original copyright notice and the associated disclaimer. ////`
24			`//// ////`
25			`//// This source file is free software; you can redistribute it ////`
26			`//// and/or modify it under the terms of the GNU Lesser General ////`
27			`//// Public License as published by the Free Software Foundation; ////`
28			`//// either version 2.1 of the License, or (at your option) any ////`
29			`//// later version. ////`
30			`//// ////`
31			`//// This source is distributed in the hope that it will be ////`
32			`//// useful, but WITHOUT ANY WARRANTY; without even the implied ////`
33			`//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////`
34			`//// PURPOSE. See the GNU Lesser General Public License for more ////`
35			`//// details. ////`
36			`//// ////`
37			`//// You should have received a copy of the GNU Lesser General ////`
38			`//// Public License along with this source; if not, download it ////`
39			`//// from http://www.opencores.org/lgpl.shtml ////`
40			`//// ////`
41			`//////////////////////////////////////////////////////////////////////`
42
43			`// Global buffer`
44			`// usage:`
45	4	unneback	`// use to enable global buffers for high fan out signals such as clock and reset`
46	3	unneback
47			`ifdef ACTEL
48
49			`timescale 1 ns/100 ps
50			`// Version: 8.4 8.4.0.33`
51			`module gbuf(GL,CLK);`
52			`output GL;`
53			`input CLK;`
54
55			`wire GND;`
56
57			`GND GND_1_net(.Y(GND));`
58			`CLKDLY Inst1(.CLK(CLK), .GL(GL), .DLYGL0(GND), .DLYGL1(GND),`
59			`.DLYGL2(GND), .DLYGL3(GND), .DLYGL4(GND)) /* synthesis black_box */;`
60
61			`endmodule`
62			`timescale 1 ns/1 ns
63			`module vl_gbuf ( i, o);`
64			`input i;`
65			`output o;`
66	4	unneback	`//E2_ifdef SIM_GBUF`
67			`assign o=i;`
68			`//E2_else`
69	3	unneback	`gbuf gbuf_i0 ( .CLK(i), .GL(o));`
70	4	unneback	`//E2_endif`
71	3	unneback	`endmodule`
72			`else
73			`ifdef ALTERA
74			`altera`
75			`else
76
77	4	unneback	`timescale 1 ns/100 ps
78	3	unneback	`module vl_gbuf ( i, o);`
79			`input i;`
80			`output o;`
81			`assign o = i;`
82			`endmodule`
83			`endif // ALTERA
84			`endif //ACTEL
85
86			`// sync reset`
87			`// input active lo async reset, normally from external reset generetaor and/or switch`
88			`// output active high global reset sync with two DFFs`
89	4	unneback	`timescale 1 ns/100 ps
90	3	unneback	`module vl_sync_rst ( rst_n_i, rst_o, clk);`
91			`input rst_n_i, clk;`
92			`output rst_o;`
93			`reg [0:1] tmp;`
94			`always @ (posedge clk or negedge rst_n_i)`
95			`if (!rst_n_i)`
96			`tmp <= 2'b00;`
97			`else`
98			`tmp <= {1'b1,tmp[0]};`
99			`vl_gbuf buf_i0( .i(tmp[1]), .o(rst_o));`
100			`endmodule`
101
102			`// vl_pll`
103			`ifdef ACTEL
104	4	unneback	`timescale 1 ns/100 ps
105	3	unneback	`module vl_pll ( clk_i, rst_n_i, lock, clk_o, rst_o);`
106			`parameter index = 0;`
107	4	unneback	`parameter number_of_clk = 1;`
108			`parameter period_time_0 = 20;`
109			`parameter period_time_1 = 20;`
110			`parameter period_time_2 = 20;`
111			`parameter lock_delay = 2000;`
112	3	unneback	`input clk_i, rst_n_i;`
113			`output lock;`
114			`output reg [0:number_of_clk-1] clk_o;`
115			`output [0:number_of_clk-1] rst_o;`
116
117			`//E2_ifdef SIM_PLL`
118
119	4	unneback	`always`
120			`#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];`
121
122			`generate if (number_of_clk > 1)`
123			`always`
124			`#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];`
125			`endgenerate`
126
127			`generate if (number_of_clk > 2)`
128			`always`
129			`#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];`
130			`endgenerate`
131
132	3	unneback	`genvar i;`
133			`generate for (i=0;i<number_of_clk;i=i+1) begin: clock`
134			`vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i \| lock), .rst_o(rst_o[i]), .clk(clk_o[i]));`
135			`end`
136			`endgenerate`
137
138			`assign #lock_delay lock = rst_n_i;`
139	4	unneback
140	3	unneback	`endmodule`
141			`//E2_else`
142			`generate if (number_of_clk==1 & index==0) begin`
143			`pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));`
144			`end`
145			`endgenerate // index==0`
146			`generate if (number_of_clk==1 & index==1) begin`
147			`pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));`
148			`end`
149			`endgenerate // index==1`
150			`generate if (number_of_clk==1 & index==2) begin`
151			`pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));`
152			`end`
153			`endgenerate // index==2`
154			`generate if (number_of_clk==1 & index==3) begin`
155			`pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]));`
156			`end`
157			`endgenerate // index==0`
158
159			`generate if (number_of_clk==2 & index==0) begin`
160			`pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));`
161			`end`
162			`endgenerate // index==0`
163			`generate if (number_of_clk==2 & index==1) begin`
164			`pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));`
165			`end`
166			`endgenerate // index==1`
167			`generate if (number_of_clk==2 & index==2) begin`
168			`pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));`
169			`end`
170			`endgenerate // index==2`
171			`generate if (number_of_clk==2 & index==3) begin`
172			`pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]));`
173			`end`
174			`endgenerate // index==0`
175
176			`generate if (number_of_clk==3 & index==0) begin`
177			`pll0 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));`
178			`end`
179			`endgenerate // index==0`
180			`generate if (number_of_clk==3 & index==1) begin`
181			`pll1 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));`
182			`end`
183			`endgenerate // index==1`
184			`generate if (number_of_clk==3 & index==2) begin`
185			`pll2 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));`
186			`end`
187			`endgenerate // index==2`
188			`generate if (number_of_clk==3 & index==3) begin`
189			`pll3 pll_i0 (.POWERDOWN(1'b1), .CLKA(clk_i), .LOCK(lock), .GLA(clk_o[0]), .GLB(clk_o[1]), .GLC(clk_o[2]));`
190			`end`
191			`endgenerate // index==0`
192
193			`genvar i;`
194			`generate for (i=0;i<number_of_clk;i=i+1) begin: clock`
195			`vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i \| lock), .rst_o(rst_o), .clk(clk_o[i]));`
196			`end`
197			`endgenerate`
198			`endmodule`
199			`//E2_endif`
200
201			`else
202
203			`ifdef ALTERA
204
205			`else
206
207			`// generic PLL`
208	4	unneback	`timescale 1 ns/100 ps
209	3	unneback	`module vl_pll ( clk_i, rst_n_i, lock, clk_o, rst_o);`
210			`parameter index = 0;`
211	4	unneback	`parameter number_of_clk = 1;`
212			`parameter period_time_0 = 20;`
213			`parameter period_time_1 = 20;`
214			`parameter period_time_2 = 20;`
215	3	unneback	`parameter lock_delay = 2000;`
216			`input clk_i, rst_n_i;`
217			`output lock;`
218			`output reg [0:number_of_clk-1] clk_o;`
219			`output [0:number_of_clk-1] rst_o;`
220
221	4	unneback	`always`
222			`#((period_time_0)/2) clk_o[0] <= (!rst_n_i) ? 0 : ~clk_o[0];`
223
224			`generate if (number_of_clk > 1)`
225			`always`
226			`#((period_time_1)/2) clk_o[1] <= (!rst_n_i) ? 0 : ~clk_o[1];`
227			`endgenerate`
228
229			`generate if (number_of_clk > 2)`
230			`always`
231			`#((period_time_2)/2) clk_o[2] <= (!rst_n_i) ? 0 : ~clk_o[2];`
232			`endgenerate`
233
234	3	unneback	`genvar i;`
235	4	unneback	`generate for (i=0;i<number_of_clk;i=i+1) begin: clock`
236	3	unneback	`vl_sync_rst rst_i0 ( .rst_n_i(rst_n_i \| lock), .rst_o(rst_o[i]), .clk(clk_o[i]));`
237			`end`
238			`endgenerate`
239
240			`assign #lock_delay lock = rst_n_i;`
241
242			`endmodule`
243
244			`endif //altera
245			`endif //actel

Browse

Tools

Subversion Repositories versatile_library

[/] [versatile_library/] [trunk/] [rtl/] [verilog/] [clk_and_reset.v] - Blame information for rev 8