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[/] [ha1588/] [trunk/] [rtl/] [reg/] [reg.v] - Blame information for rev 33

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Line No. Rev Author Line
1 15 edn_walter 
`timescale 1ns/1ns
2 
 
3 17 edn_walter 
module rgs (
4 16 edn_walter 
  // generic bus interface
5 
  input         rst,clk,
6 
  input         wr_in,rd_in,
7 21 edn_walter 
  input  [ 7:0] addr_in,
8 16 edn_walter 
  input  [31:0] data_in,
9 
  output [31:0] data_out,
10 
  // rtc interface
11 17 edn_walter 
  input         rtc_clk_in,
12 
  output        rtc_rst_out,
13 
  output        time_ld_out,
14 16 edn_walter 
  output [37:0] time_reg_ns_out,
15 
  output [47:0] time_reg_sec_out,
16 17 edn_walter 
  output        period_ld_out,
17 16 edn_walter 
  output [39:0] period_out,
18 
  output [37:0] time_acc_modulo_out,
19 17 edn_walter 
  output        adj_ld_out,
20 16 edn_walter 
  output [31:0] adj_ld_data_out,
21 17 edn_walter 
  output [39:0] period_adj_out,
22 16 edn_walter 
  input  [37:0] time_reg_ns_in,
23 
  input  [47:0] time_reg_sec_in,
24 18 edn_walter 
  // rx tsu interface
25 
  output        rx_q_rst_out,
26 
  output        rx_q_rd_clk_out,
27 
  output        rx_q_rd_en_out,
28 
  input  [ 7:0] rx_q_stat_in,
29 27 edn_walter 
  input  [63:0] rx_q_data_in,
30 18 edn_walter 
  // tx tsu interface
31 
  output        tx_q_rst_out,
32 
  output        tx_q_rd_clk_out,
33 
  output        tx_q_rd_en_out,
34 
  input  [ 7:0] tx_q_stat_in,
35 27 edn_walter 
  input  [63:0] tx_q_data_in
36 15 edn_walter 
);
37 
 
38 17 edn_walter 
parameter const_00 = 8'h00;
39 
parameter const_04 = 8'h04;
40 
parameter const_08 = 8'h08;
41 18 edn_walter 
parameter const_0c = 8'h0C;
42 17 edn_walter 
parameter const_10 = 8'h10;
43 
parameter const_14 = 8'h14;
44 
parameter const_18 = 8'h18;
45 18 edn_walter 
parameter const_1c = 8'h1C;
46 17 edn_walter 
parameter const_20 = 8'h20;
47 
parameter const_24 = 8'h24;
48 
parameter const_28 = 8'h28;
49 18 edn_walter 
parameter const_2c = 8'h2C;
50 17 edn_walter 
parameter const_30 = 8'h30;
51 
parameter const_34 = 8'h34;
52 
parameter const_38 = 8'h38;
53 18 edn_walter 
parameter const_3c = 8'h3C;
54 17 edn_walter 
parameter const_40 = 8'h40;
55 
parameter const_44 = 8'h44;
56 
parameter const_48 = 8'h48;
57 18 edn_walter 
parameter const_4c = 8'h4C;
58 
parameter const_50 = 8'h50;
59 
parameter const_54 = 8'h54;
60 
parameter const_58 = 8'h58;
61 
parameter const_5c = 8'h5C;
62 33 edn_walter 
parameter const_60 = 8'h60;
63 
parameter const_64 = 8'h64;
64 
parameter const_68 = 8'h68;
65 
parameter const_6c = 8'h6C;
66 17 edn_walter 
 
67 21 edn_walter 
wire cs_00 = (addr_in[7:2]==const_00[7:2])? 1'b1: 1'b0;
68 
wire cs_04 = (addr_in[7:2]==const_04[7:2])? 1'b1: 1'b0;
69 
wire cs_08 = (addr_in[7:2]==const_08[7:2])? 1'b1: 1'b0;
70 
wire cs_0c = (addr_in[7:2]==const_0c[7:2])? 1'b1: 1'b0;
71 
wire cs_10 = (addr_in[7:2]==const_10[7:2])? 1'b1: 1'b0;
72 
wire cs_14 = (addr_in[7:2]==const_14[7:2])? 1'b1: 1'b0;
73 
wire cs_18 = (addr_in[7:2]==const_18[7:2])? 1'b1: 1'b0;
74 
wire cs_1c = (addr_in[7:2]==const_1c[7:2])? 1'b1: 1'b0;
75 
wire cs_20 = (addr_in[7:2]==const_20[7:2])? 1'b1: 1'b0;
76 
wire cs_24 = (addr_in[7:2]==const_24[7:2])? 1'b1: 1'b0;
77 
wire cs_28 = (addr_in[7:2]==const_28[7:2])? 1'b1: 1'b0;
78 
wire cs_2c = (addr_in[7:2]==const_2c[7:2])? 1'b1: 1'b0;
79 
wire cs_30 = (addr_in[7:2]==const_30[7:2])? 1'b1: 1'b0;
80 
wire cs_34 = (addr_in[7:2]==const_34[7:2])? 1'b1: 1'b0;
81 
wire cs_38 = (addr_in[7:2]==const_38[7:2])? 1'b1: 1'b0;
82 
wire cs_3c = (addr_in[7:2]==const_3c[7:2])? 1'b1: 1'b0;
83 
wire cs_40 = (addr_in[7:2]==const_40[7:2])? 1'b1: 1'b0;
84 
wire cs_44 = (addr_in[7:2]==const_44[7:2])? 1'b1: 1'b0;
85 
wire cs_48 = (addr_in[7:2]==const_48[7:2])? 1'b1: 1'b0;
86 
wire cs_4c = (addr_in[7:2]==const_4c[7:2])? 1'b1: 1'b0;
87 
wire cs_50 = (addr_in[7:2]==const_50[7:2])? 1'b1: 1'b0;
88 
wire cs_54 = (addr_in[7:2]==const_54[7:2])? 1'b1: 1'b0;
89 
wire cs_58 = (addr_in[7:2]==const_58[7:2])? 1'b1: 1'b0;
90 
wire cs_5c = (addr_in[7:2]==const_5c[7:2])? 1'b1: 1'b0;
91 33 edn_walter 
wire cs_60 = (addr_in[7:2]==const_60[7:2])? 1'b1: 1'b0;
92 
wire cs_64 = (addr_in[7:2]==const_64[7:2])? 1'b1: 1'b0;
93 
wire cs_68 = (addr_in[7:2]==const_68[7:2])? 1'b1: 1'b0;
94 
wire cs_6c = (addr_in[7:2]==const_6c[7:2])? 1'b1: 1'b0;
95 17 edn_walter 
 
96 33 edn_walter 
reg [31:0] reg_00;  // ctrl 5 bit
97 
reg [31:0] reg_04;  //
98 18 edn_walter 
reg [31:0] reg_08;  //
99 
reg [31:0] reg_0c;  //
100 17 edn_walter 
reg [31:0] reg_10;  // tout 16 s
101 
reg [31:0] reg_14;  // tout 32 s
102 
reg [31:0] reg_18;  // tout 30 ns
103 
reg [31:0] reg_1c;  // tout  8 nsf
104 
reg [31:0] reg_20;  // peri  8 ns
105 
reg [31:0] reg_24;  // peri 32 nsf
106 
reg [31:0] reg_28;  // amod 30 ns
107 
reg [31:0] reg_2c;  // amod  8 nsf
108 
reg [31:0] reg_30;  // ajld 32 bit
109 
reg [31:0] reg_34;  //
110 
reg [31:0] reg_38;  // ajpr  8 ns
111 
reg [31:0] reg_3c;  // ajpr 32 nsf
112 
reg [31:0] reg_40;  // tmin 16 s
113 
reg [31:0] reg_44;  // tmin 32 s
114 
reg [31:0] reg_48;  // tmin 30 ns
115 
reg [31:0] reg_4c;  // tmin  8 nsf
116 33 edn_walter 
reg [31:0] reg_50;  // ctrl  4 bit
117 
reg [31:0] reg_54;  // qsta  8 bit
118 
reg [31:0] reg_58;  // qsta  8 bit
119 
reg [31:0] reg_5c;  //
120 
reg [31:0] reg_60;  // rxqu 32 bit
121 
reg [31:0] reg_64;  // rxqu 32 bit
122 
reg [31:0] reg_68;  // txqu 32 bit
123 
reg [31:0] reg_6c;  // txqu 32 bit
124 17 edn_walter 
 
125 
// write registers
126 
always @(posedge clk) begin
127 
  if (wr_in && cs_00) reg_00 <= data_in;
128 
  if (wr_in && cs_04) reg_04 <= data_in;
129 
  if (wr_in && cs_08) reg_08 <= data_in;
130 
  if (wr_in && cs_0c) reg_0c <= data_in;
131 
  if (wr_in && cs_10) reg_10 <= data_in;
132 
  if (wr_in && cs_14) reg_14 <= data_in;
133 
  if (wr_in && cs_18) reg_18 <= data_in;
134 
  if (wr_in && cs_1c) reg_1c <= data_in;
135 
  if (wr_in && cs_20) reg_20 <= data_in;
136 
  if (wr_in && cs_24) reg_24 <= data_in;
137 
  if (wr_in && cs_28) reg_28 <= data_in;
138 
  if (wr_in && cs_2c) reg_2c <= data_in;
139 
  if (wr_in && cs_30) reg_30 <= data_in;
140 
  if (wr_in && cs_34) reg_34 <= data_in;
141 
  if (wr_in && cs_38) reg_38 <= data_in;
142 
  if (wr_in && cs_3c) reg_3c <= data_in;
143 
  if (wr_in && cs_40) reg_40 <= data_in;
144 
  if (wr_in && cs_44) reg_44 <= data_in;
145 
  if (wr_in && cs_48) reg_48 <= data_in;
146 
  if (wr_in && cs_4c) reg_4c <= data_in;
147 18 edn_walter 
  if (wr_in && cs_50) reg_50 <= data_in;
148 
  if (wr_in && cs_54) reg_54 <= data_in;
149 
  if (wr_in && cs_58) reg_58 <= data_in;
150 
  if (wr_in && cs_5c) reg_5c <= data_in;
151 33 edn_walter 
  if (wr_in && cs_60) reg_60 <= data_in;
152 
  if (wr_in && cs_64) reg_64 <= data_in;
153 
  if (wr_in && cs_68) reg_68 <= data_in;
154 
  if (wr_in && cs_6c) reg_6c <= data_in;
155 17 edn_walter 
end
156 
 
157 
// read registers
158 
reg  [37:0] time_reg_ns_int;
159 
reg  [47:0] time_reg_sec_int;
160 27 edn_walter 
reg  [63:0] rx_q_data_int;
161 18 edn_walter 
reg  [ 7:0] rx_q_stat_int;
162 27 edn_walter 
reg  [63:0] tx_q_data_int;
163 18 edn_walter 
reg  [ 7:0] tx_q_stat_int;
164 23 edn_walter 
reg         time_ok;
165 31 edn_walter 
reg         rxqu_ok;
166 
reg         txqu_ok;
167 17 edn_walter 
 
168 
reg  [31:0] data_out_reg;
169 
always @(posedge clk) begin
170 33 edn_walter 
  if (rd_in && cs_00) data_out_reg <= {reg_00[31:1 ], time_ok};
171 
  if (rd_in && cs_04) data_out_reg <= reg_04;
172 
  if (rd_in && cs_08) data_out_reg <= reg_08;
173 18 edn_walter 
  if (rd_in && cs_0c) data_out_reg <= reg_0c;
174 
  if (rd_in && cs_10) data_out_reg <= reg_10;
175 
  if (rd_in && cs_14) data_out_reg <= reg_14;
176 
  if (rd_in && cs_18) data_out_reg <= reg_18;
177 
  if (rd_in && cs_1c) data_out_reg <= reg_1c;
178 
  if (rd_in && cs_20) data_out_reg <= reg_20;
179 
  if (rd_in && cs_24) data_out_reg <= reg_24;
180 
  if (rd_in && cs_28) data_out_reg <= reg_28;
181 
  if (rd_in && cs_2c) data_out_reg <= reg_2c;
182 
  if (rd_in && cs_30) data_out_reg <= reg_30;
183 
  if (rd_in && cs_34) data_out_reg <= reg_34;
184 
  if (rd_in && cs_38) data_out_reg <= reg_38;
185 
  if (rd_in && cs_3c) data_out_reg <= reg_3c;
186 
  if (rd_in && cs_40) data_out_reg <= {16'd0, time_reg_sec_int[47:32]};
187 
  if (rd_in && cs_44) data_out_reg <=         time_reg_sec_int[31: 0];
188 
  if (rd_in && cs_48) data_out_reg <= { 2'd0, time_reg_ns_int [37: 8]};
189 
  if (rd_in && cs_4c) data_out_reg <= {24'd0, time_reg_ns_int [ 7: 0]};
190 33 edn_walter 
  if (rd_in && cs_50) data_out_reg <= {reg_50[31: 4], reg_50[ 3], rxqu_ok, reg_50[ 1], txqu_ok};
191 
  if (rd_in && cs_54) data_out_reg <= {24'd0, rx_q_stat_int[ 7: 0]};
192 
  if (rd_in && cs_58) data_out_reg <= {24'd0, tx_q_stat_int[ 7: 0]};
193 
  if (rd_in && cs_5c) data_out_reg <= reg_5c;
194 
  if (rd_in && cs_60) data_out_reg <= rx_q_data_int[63:32];
195 
  if (rd_in && cs_64) data_out_reg <= rx_q_data_int[31: 0];
196 
  if (rd_in && cs_68) data_out_reg <= tx_q_data_int[63:32];
197 
  if (rd_in && cs_6c) data_out_reg <= tx_q_data_int[31: 0];
198 17 edn_walter 
end
199 
assign data_out = data_out_reg;
200 
 
201 33 edn_walter 
// register mapping: RTC
202 18 edn_walter 
//wire       = reg_00[ 7];
203 
//wire       = reg_00[ 6];
204 
//wire       = reg_00[ 5];
205 
wire rtc_rst = reg_00[ 4];
206 
wire time_ld = reg_00[ 3];
207 
wire perd_ld = reg_00[ 2];
208 
wire adjt_ld = reg_00[ 1];
209 
wire time_rd = reg_00[ 0];
210 17 edn_walter 
assign time_reg_sec_out   [47:0] = {reg_10[15: 0], reg_14[31: 0]};
211 
assign time_reg_ns_out    [37:0] = {reg_18[29: 0], reg_1c[ 7: 0]};
212 
assign period_out         [39:0] = {reg_20[ 7: 0], reg_24[31: 0]};
213 
assign time_acc_modulo_out[37:0] = {reg_28[29: 0], reg_2c[ 7: 0]};
214 
assign adj_ld_data_out    [31:0] =  reg_30[31: 0];
215 
assign period_adj_out     [39:0] = {reg_38[ 7: 0], reg_3c[31: 0]};
216 33 edn_walter 
// register mapping: TSU
217 
//wire       = reg_50[ 7];
218 
//wire       = reg_50[ 6];
219 
//wire       = reg_50[ 5];
220 
//wire       = reg_50[ 4];
221 
wire rxq_rst = reg_50[ 3];
222 
wire rxqu_rd = reg_50[ 2];
223 
wire txq_rst = reg_50[ 1];
224 
wire txqu_rd = reg_50[ 0];
225 17 edn_walter 
 
226 
// real time clock
227 23 edn_walter 
reg rtc_rst_s1, rtc_rst_s2, rtc_rst_s3;
228 
assign rtc_rst_out = rtc_rst_s2 && !rtc_rst_s3;
229 
always @(posedge rtc_clk_in) begin
230 
  rtc_rst_s1 <= rtc_rst;
231 
  rtc_rst_s2 <= rtc_rst_s1;
232 
  rtc_rst_s3 <= rtc_rst_s2;
233 17 edn_walter 
end
234 
 
235 23 edn_walter 
reg time_ld_s1, time_ld_s2, time_ld_s3;
236 
assign time_ld_out = time_ld_s2 && !time_ld_s3;
237 
always @(posedge rtc_clk_in) begin
238 
  time_ld_s1 <= time_ld;
239 
  time_ld_s2 <= time_ld_s1;
240 
  time_ld_s3 <= time_ld_s2;
241 17 edn_walter 
end
242 
 
243 23 edn_walter 
reg perd_ld_s1, perd_ld_s2, perd_ld_s3;
244 
assign period_ld_out  = perd_ld_s2 && !perd_ld_s3;
245 
always @(posedge rtc_clk_in) begin
246 
  perd_ld_s1 <= perd_ld;
247 
  perd_ld_s2 <= perd_ld_s1;
248 
  perd_ld_s3 <= perd_ld_s2;
249 17 edn_walter 
end
250 
 
251 23 edn_walter 
reg adjt_ld_s1, adjt_ld_s2, adjt_ld_s3;
252 
assign adj_ld_out = adjt_ld_s2 && !adjt_ld_s3;
253 
always @(posedge rtc_clk_in) begin
254 
  adjt_ld_s1 <= adjt_ld;
255 
  adjt_ld_s2 <= adjt_ld_s1;
256 
  adjt_ld_s3 <= adjt_ld_s2;
257 17 edn_walter 
end
258 
 
259 23 edn_walter 
// RTC time read CDC hand-shaking
260 
reg time_rd_s1, time_rd_s2, time_rd_s3;
261 
wire time_rd_ack = time_rd_s2 && !time_rd_s3;
262 17 edn_walter 
always @(posedge rtc_clk_in) begin
263 23 edn_walter 
  time_rd_s1 <= time_rd;
264 
  time_rd_s2 <= time_rd_s1;
265 
  time_rd_s3 <= time_rd_s2;
266 17 edn_walter 
end
267 
 
268 
always @(posedge rtc_clk_in) begin
269 23 edn_walter 
  if (time_rd_ack) begin
270 17 edn_walter 
    time_reg_ns_int  <= time_reg_ns_in;
271 
    time_reg_sec_int <= time_reg_sec_in;
272 
  end
273 
end
274 
 
275 23 edn_walter 
reg time_rd_d1;
276 
wire time_rd_req = time_rd && !time_rd_d1;
277 
always @(posedge clk) begin
278 
  time_rd_d1 <= time_rd;
279 
end
280 
 
281 
always @(posedge clk or posedge time_rd_ack) begin
282 
  if (time_rd_ack)
283 
    time_ok <= 1'b1;
284 
  else if (time_rd_req)
285 
    time_ok <= 1'b0;
286 
end
287 
 
288 18 edn_walter 
// rx time stamp queue
289 
assign rx_q_rd_clk_out = clk;
290 17 edn_walter 
 
291 18 edn_walter 
reg rxq_rst_d1, rxq_rst_d2, rxq_rst_d3;
292 
assign rx_q_rst_out = rxq_rst_d2 && !rxq_rst_d3;
293 17 edn_walter 
always @(posedge clk) begin
294 18 edn_walter 
  rxq_rst_d1 <= rxq_rst;
295 
  rxq_rst_d2 <= rxq_rst_d1;
296 
  rxq_rst_d3 <= rxq_rst_d2;
297 17 edn_walter 
end
298 
 
299 31 edn_walter 
reg rxqu_rd_d1, rxqu_rd_d2, rxqu_rd_d3, rxqu_rd_d4, rxqu_rd_d5;
300 18 edn_walter 
assign rx_q_rd_en_out = rxqu_rd_d2 && !rxqu_rd_d3;
301 31 edn_walter 
wire   rx_q_rd_req    = rxqu_rd_d2 && !rxqu_rd_d3;
302 
wire   rx_q_rd_ack    = rxqu_rd_d4 && !rxqu_rd_d5;
303 17 edn_walter 
always @(posedge clk) begin
304 18 edn_walter 
  rxqu_rd_d1 <= rxqu_rd;
305 
  rxqu_rd_d2 <= rxqu_rd_d1;
306 
  rxqu_rd_d3 <= rxqu_rd_d2;
307 31 edn_walter 
  rxqu_rd_d4 <= rxqu_rd_d3;
308 
  rxqu_rd_d5 <= rxqu_rd_d4;
309 17 edn_walter 
end
310 
 
311 
always @(posedge clk) begin
312 31 edn_walter 
  if (rx_q_rd_ack)
313 
    rxqu_ok <= 1'b1;
314 
  else if (rx_q_rd_req)
315 
    rxqu_ok <= 1'b0;
316 
end
317 
 
318 
always @(posedge clk) begin
319 18 edn_walter 
  rx_q_data_int <= rx_q_data_in;
320 
  rx_q_stat_int <= rx_q_stat_in;
321 17 edn_walter 
end
322 
 
323 18 edn_walter 
// tx time stamp queue
324 
assign tx_q_rd_clk_out = clk;
325 
 
326 
reg txq_rst_d1, txq_rst_d2, txq_rst_d3;
327 
assign tx_q_rst_out = txq_rst_d2 && !txq_rst_d3;
328 
always @(posedge clk) begin
329 
  txq_rst_d1 <= txq_rst;
330 
  txq_rst_d2 <= txq_rst_d1;
331 
  txq_rst_d3 <= txq_rst_d2;
332 
end
333 
 
334 31 edn_walter 
reg txqu_rd_d1, txqu_rd_d2, txqu_rd_d3, txqu_rd_d4, txqu_rd_d5;
335 18 edn_walter 
assign tx_q_rd_en_out = txqu_rd_d2 && !txqu_rd_d3;
336 31 edn_walter 
wire   tx_q_rd_req    = txqu_rd_d2 && !txqu_rd_d3;
337 
wire   tx_q_rd_ack    = txqu_rd_d4 && !txqu_rd_d5;
338 18 edn_walter 
always @(posedge clk) begin
339 
  txqu_rd_d1 <= txqu_rd;
340 
  txqu_rd_d2 <= txqu_rd_d1;
341 
  txqu_rd_d3 <= txqu_rd_d2;
342 31 edn_walter 
  txqu_rd_d4 <= txqu_rd_d3;
343 
  txqu_rd_d5 <= txqu_rd_d4;
344 18 edn_walter 
end
345 
 
346 
always @(posedge clk) begin
347 31 edn_walter 
  if (tx_q_rd_ack)
348 
    txqu_ok <= 1'b1;
349 
  else if (tx_q_rd_req)
350 
    txqu_ok <= 1'b0;
351 
end
352 
 
353 
always @(posedge clk) begin
354 18 edn_walter 
  tx_q_data_int <= tx_q_data_in;
355 
  tx_q_stat_int <= tx_q_stat_in;
356 
end
357 
 
358 15 edn_walter 
endmodule

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