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[/] [xgate/] [trunk/] [rtl/] [verilog/] [xgate_top.v] - Blame information for rev 25

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1 2 rehayes 
////////////////////////////////////////////////////////////////////////////////
2 
//
3 
//  XGATE Coprocessor - XGATE Top Level Module
4 
//
5 
//  Author: Robert Hayes
6 
//          rehayes@opencores.org
7 
//
8 
//  Downloaded from: http://www.opencores.org/projects/xgate.....
9 
//
10 
////////////////////////////////////////////////////////////////////////////////
11 
// Copyright (c) 2009, Robert Hayes
12 
//
13 
// This source file is free software: you can redistribute it and/or modify
14 
// it under the terms of the GNU Lesser General Public License as published
15 
// by the Free Software Foundation, either version 3 of the License, or
16 
// (at your option) any later version.
17 
//
18 
// Supplemental terms.
19 
//     * Redistributions of source code must retain the above copyright
20 
//       notice, this list of conditions and the following disclaimer.
21 
//     * Neither the name of the <organization> nor the
22 
//       names of its contributors may be used to endorse or promote products
23 
//       derived from this software without specific prior written permission.
24 
//
25 
// THIS SOFTWARE IS PROVIDED BY Robert Hayes ''AS IS'' AND ANY
26 
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
27 
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
28 
// DISCLAIMED. IN NO EVENT SHALL Robert Hayes BE LIABLE FOR ANY
29 
// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
30 
// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
31 
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
32 
// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
33 
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
34 
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
35 
//
36 
// You should have received a copy of the GNU General Public License
37 
// along with this program.  If not, see <http://www.gnu.org/licenses/>.
38 
////////////////////////////////////////////////////////////////////////////////
39 
// 45678901234567890123456789012345678901234567890123456789012345678901234567890
40 
 
41 
module xgate_top #(parameter ARST_LVL = 1'b0,      // asynchronous reset level
42 
                   parameter SINGLE_CYCLE = 1'b0,  //
43 
                   parameter MAX_CHANNEL = 127,    // Max XGATE Interrupt Channel Number
44 
                   parameter DWIDTH = 16)          // Data bus width
45 
  (
46 5 rehayes 
  // Wishbone Slave Signals
47 
  output    [DWIDTH-1:0] wbs_dat_o,     // databus output
48 
  output                 wbs_ack_o,     // bus cycle acknowledge output
49 
  input                  wbs_clk_i,     // master clock input
50 
  input                  wbs_rst_i,     // synchronous active high reset
51 
  input                  arst_i,        // asynchronous reset
52 
  input            [4:0] wbs_adr_i,     // lower address bits
53 
  input     [DWIDTH-1:0] wbs_dat_i,     // databus input
54 
  input                  wbs_we_i,      // write enable input
55 
  input                  wbs_stb_i,     // stobe/core select signal
56 
  input                  wbs_cyc_i,     // valid bus cycle input
57 
  input            [1:0] wbs_sel_i,     // Select byte in word bus transaction
58 
  // Wishbone Master Signals
59 
  output    [DWIDTH-1:0] wbm_dat_o,     // databus output
60 
  output                 wbm_we_o,      // write enable output
61 
  output                 wbm_stb_o,     // stobe/core select signal
62 
  output                 wbm_cyc_o,     // valid bus cycle output
63 
  output          [ 1:0] wbm_sel_o,     // Select byte in word bus transaction
64 
  output          [15:0] wbm_adr_o,     // Address bits
65 
  input     [DWIDTH-1:0] wbm_dat_i,     // databus input
66 
  input                  wbm_ack_i,     // bus cycle acknowledge input
67 2 rehayes 
  // XGATE IO Signals
68 5 rehayes 
  output          [ 7:0] xgswt,         // XGATE Software Trigger Register
69 2 rehayes 
  output                 write_mem_strb_l, // Strobe for writing low data byte
70 
  output                 write_mem_strb_h, // Strobe for writing high data bye
71 12 rehayes 
  output                 xg_sw_irq,        // Xgate Software interrupt
72 2 rehayes 
  output [MAX_CHANNEL:0] xgif,             // XGATE Interrupt Flag
73 
  input  [MAX_CHANNEL:0] chan_req_i,       // XGATE Interrupt request
74 
  input                  risc_clk,         // Clock for RISC core
75 
  input                  scantestmode      // Chip in in scan test mode
76 
  );
77 
 
78 
  wire        zero_flag;
79 
  wire        negative_flag;
80 
  wire        carry_flag;
81 
  wire        overflow_flag;
82 
  wire [15:0] xgr1;          // XGATE Register #1
83 
  wire [15:0] xgr2;          // XGATE Register #2
84 
  wire [15:0] xgr3;          // XGATE Register #3
85 
  wire [15:0] xgr4;          // XGATE Register #4
86 
  wire [15:0] xgr5;          // XGATE Register #5
87 
  wire [15:0] xgr6;          // XGATE Register #6
88 
  wire [15:0] xgr7;          // XGATE Register #7
89 
 
90 
  wire [15:0] xgisp74;       // XGATE Interrupt level 7-4 stack pointer
91 
  wire [15:0] xgisp30;       // XGATE Interrupt level 3-0 stack pointer
92 
 
93 
  wire        write_xgmctl;  // Write Strobe for XGMCTL register
94 17 rehayes 
  wire        write_xgchid;  // Write Strobe for XGCHID register
95 2 rehayes 
  wire        write_xgisp74; // Write Strobe for XGISP74 register
96 25 rehayes 
  wire        write_xgisp30; // Write Strobe for XGISP30 register
97 2 rehayes 
  wire        write_xgvbr;   // Write Strobe for XGVBR_LO register
98 
  wire        write_xgif_7;  // Write Strobe for Interrupt Flag Register 7
99 
  wire        write_xgif_6;  // Write Strobe for Interrupt Flag Register 6
100 
  wire        write_xgif_5;  // Write Strobe for Interrupt Flag Register 5
101 
  wire        write_xgif_4;  // Write Strobe for Interrupt Flag Register 4
102 
  wire        write_xgif_3;  // Write Strobe for Interrupt Flag Register 3
103 
  wire        write_xgif_2;  // Write Strobe for Interrupt Flag Register 2
104 
  wire        write_xgif_1;  // Write Strobe for Interrupt Flag Register 1
105 
  wire        write_xgif_0;  // Write Strobe for Interrupt Flag Register 0
106 
  wire        write_xgswt;   // Write Strobe for XGSWT register
107 
  wire        write_xgsem;   // Write Strobe for XGSEM register
108 
  wire        write_xgccr;   // Write Strobe for XGATE Condition Code Register
109 
  wire        write_xgpc;    // Write Strobe for XGATE Program Counter
110 
  wire        write_xgr7;    // Write Strobe for XGATE Data Register R7
111 
  wire        write_xgr6;    // Write Strobe for XGATE Data Register R6
112 
  wire        write_xgr5;    // Write Strobe for XGATE Data Register R5
113 
  wire        write_xgr4;    // Write Strobe for XGATE Data Register R4
114 
  wire        write_xgr3;    // Write Strobe for XGATE Data Register R3
115 
  wire        write_xgr2;    // Write Strobe for XGATE Data Register R2
116 
  wire        write_xgr1;    // Write Strobe for XGATE Data Register R1
117 
 
118 
  wire        clear_xgif_7;    // Strobe for decode to clear interrupt flag bank 7
119 
  wire        clear_xgif_6;    // Strobe for decode to clear interrupt flag bank 6
120 
  wire        clear_xgif_5;    // Strobe for decode to clear interrupt flag bank 5
121 
  wire        clear_xgif_4;    // Strobe for decode to clear interrupt flag bank 4
122 
  wire        clear_xgif_3;    // Strobe for decode to clear interrupt flag bank 3
123 
  wire        clear_xgif_2;    // Strobe for decode to clear interrupt flag bank 2
124 
  wire        clear_xgif_1;    // Strobe for decode to clear interrupt flag bank 1
125 
  wire        clear_xgif_0;    // Strobe for decode to clear interrupt flag bank 0
126 
  wire [15:0] clear_xgif_data; // Data for decode to clear interrupt flag
127 
 
128 
  wire        xge;           // XGATE Module Enable
129 
  wire        xgfrz;         // Stop XGATE in Freeze Mode
130 15 rehayes 
  wire        xgdbg_set;     // Enter XGATE Debug Mode
131 
  wire        xgdbg_clear;   // Leave XGATE Debug Mode
132 2 rehayes 
  wire        xgss;          // XGATE Single Step
133 
  wire        xgsweif_c;     // Clear XGATE Software Error Interrupt FLag
134 
  wire        xgie;          // XGATE Interrupt Enable
135 
  wire [ 6:0] int_req;       // Encoded interrupt request
136 
  wire [ 6:0] xgchid;        // Channel actively being processed
137 
  wire [15:1] xgvbr;         // XGATE vector Base Address Register
138 12 rehayes 
  wire        brk_irq_ena;   // Enable BRK instruction to generate interrupt
139 2 rehayes 
 
140 5 rehayes 
  wire [15:0] xgate_address;   //
141 
  wire [15:0] write_mem_data;  //
142 
  wire [15:0] read_mem_data;   //
143 
  wire        mem_req_ack;     //
144 12 rehayes 
 
145 
  wire        debug_active;    // RISC state machine in Debug mode
146 5 rehayes 
 
147 2 rehayes 
  wire [ 7:0] host_semap;    // Semaphore status for host
148 
//  wire [15:0] write_mem_data;
149 
//  wire [15:0] read_mem_data;
150 
//  wire [15:0] perif_data;
151 
 
152 
 
153 
  // ---------------------------------------------------------------------------
154 
  // Wishbone Slave Bus interface
155 
  xgate_wbs_bus #(.ARST_LVL(ARST_LVL),
156 5 rehayes 
                  .SINGLE_CYCLE(SINGLE_CYCLE))
157 2 rehayes 
    wishbone_s(
158 
    .wbs_dat_o( wbs_dat_o ),
159 
    .wbs_ack_o( wbs_ack_o ),
160 
    .wbs_clk_i( wbs_clk_i ),
161 
    .wbs_rst_i( wbs_rst_i ),
162 
    .arst_i( arst_i ),
163 
    .wbs_adr_i( wbs_adr_i ),
164 
    .wbs_dat_i( wbs_dat_i ),
165 
    .wbs_we_i( wbs_we_i ),
166 
    .wbs_stb_i( wbs_stb_i ),
167 
    .wbs_cyc_i( wbs_cyc_i ),
168 
    .wbs_sel_i( wbs_sel_i ),
169 
 
170 
    // outputs
171 
    .sync_reset( sync_reset ),
172 
    .write_xgmctl( write_xgmctl ),
173 17 rehayes 
    .write_xgchid( write_xgchid ),
174 2 rehayes 
    .write_xgisp74( write_xgisp74 ),
175 
    .write_xgisp30( write_xgisp30 ),
176 
    .write_xgvbr( write_xgvbr ),
177 
    .write_xgif_7( write_xgif_7 ),
178 
    .write_xgif_6( write_xgif_6 ),
179 
    .write_xgif_5( write_xgif_5 ),
180 
    .write_xgif_4( write_xgif_4 ),
181 
    .write_xgif_3( write_xgif_3 ),
182 
    .write_xgif_2( write_xgif_2 ),
183 
    .write_xgif_1( write_xgif_1 ),
184 
    .write_xgif_0( write_xgif_0 ),
185 
    .write_xgswt( write_xgswt ),
186 
    .write_xgsem( write_xgsem ),
187 
    .write_xgccr( write_xgccr ),
188 
    .write_xgpc( write_xgpc ),
189 
    .write_xgr7( write_xgr7 ),
190 
    .write_xgr6( write_xgr6 ),
191 
    .write_xgr5( write_xgr5 ),
192 
    .write_xgr4( write_xgr4 ),
193 
    .write_xgr3( write_xgr3 ),
194 
    .write_xgr2( write_xgr2 ),
195 
    .write_xgr1( write_xgr1 ),
196 
    // inputs
197 
    .async_rst_b  ( async_rst_b ),
198 
    .read_regs    (               // in  -- read register bits
199 
                   { xgr7,             // XGR7
200 
                     xgr6,             // XGR6
201 
                     xgr5,             // XGR5
202 
                     xgr4,             // XGR4
203 
                     xgr3,             // XGR3
204 
                     xgr2,             // XGR2
205 
                     xgr1,             // XGR1
206 
                     16'b0,            // Reserved (XGR0)
207 
                     xgate_address,    // XGPC
208 
                     {12'h000,  negative_flag, zero_flag, overflow_flag, carry_flag},  // XGCCR
209 17 rehayes 
                     16'b0,                // Reserved
210 2 rehayes 
                     {8'h00, host_semap},  // XGSEM
211 17 rehayes 
                     {8'h00, xgswt},       // XGSWT
212 
                     xgif[ 15:  0],        // XGIF_0
213 
                     xgif[ 31: 16],        // XGIF_1
214 
                     xgif[ 47: 32],        // XGIF_2
215 
                     xgif[ 63: 48],        // XGIF_3
216 
                     xgif[ 79: 64],        // XGIF_4
217 
                     xgif[ 95: 80],        // XGIF_5
218 
                     xgif[111: 96],        // XGIF_6
219 
                     xgif[127:112],        // XGIF_7
220 2 rehayes 
                     {xgvbr[15:1], 1'b0},  // XGVBR
221 17 rehayes 
                     xgisp30,              // Reserved
222 
                     xgisp74,              // Reserved
223 
                     {8'b0, 1'b0, xgchid}, // XGCHID
224 
                     {8'b0, xge, xgfrz, debug_active, 1'b0, 1'b0, brk_irq_ena, xg_sw_irq, xgie}  // XGMCTL
225 2 rehayes 
                   }
226 
                  )
227 
  );
228 
 
229 
  // ---------------------------------------------------------------------------
230 
  xgate_regs #(.ARST_LVL(ARST_LVL),
231 
               .MAX_CHANNEL(MAX_CHANNEL))
232 
    regs(
233 
    // outputs
234 
    .xge( xge ),
235 
    .xgfrz( xgfrz ),
236 15 rehayes 
    .xgdbg_set( xgdbg_set ),
237 
    .xgdbg_clear( xgdbg_clear ),
238 2 rehayes 
    .xgss( xgss ),
239 
    .xgsweif_c( xgsweif_c ),
240 
    .xgie( xgie ),
241 12 rehayes 
    .brk_irq_ena( brk_irq_ena ),
242 2 rehayes 
    .xgvbr( xgvbr ),
243 
    .xgswt( xgswt ),
244 
    .xgisp74( xgisp74 ),
245 
    .xgisp30( xgisp30 ),
246 
    .clear_xgif_7( clear_xgif_7 ),
247 
    .clear_xgif_6( clear_xgif_6 ),
248 
    .clear_xgif_5( clear_xgif_5 ),
249 
    .clear_xgif_4( clear_xgif_4 ),
250 
    .clear_xgif_3( clear_xgif_3 ),
251 
    .clear_xgif_2( clear_xgif_2 ),
252 
    .clear_xgif_1( clear_xgif_1 ),
253 
    .clear_xgif_0( clear_xgif_0 ),
254 
    .clear_xgif_data( clear_xgif_data ),
255 
 
256 
    // inputs
257 
    .async_rst_b( async_rst_b ),
258 
    .sync_reset( sync_reset ),
259 
    .bus_clk( wbs_clk_i ),
260 
    .write_bus( wbs_dat_i ),
261 
    .write_xgmctl( write_xgmctl ),
262 
    .write_xgisp74( write_xgisp74 ),
263 
    .write_xgisp30( write_xgisp30 ),
264 
    .write_xgvbr( write_xgvbr ),
265 
    .write_xgif_7( write_xgif_7 ),
266 
    .write_xgif_6( write_xgif_6 ),
267 
    .write_xgif_5( write_xgif_5 ),
268 
    .write_xgif_4( write_xgif_4 ),
269 
    .write_xgif_3( write_xgif_3 ),
270 
    .write_xgif_2( write_xgif_2 ),
271 
    .write_xgif_1( write_xgif_1 ),
272 
    .write_xgif_0( write_xgif_0 ),
273 
    .write_xgswt( write_xgswt )
274 
  );
275 
 
276 
  // ---------------------------------------------------------------------------
277 
  xgate_risc #(.MAX_CHANNEL(MAX_CHANNEL))
278 
    risc(
279 
    // outputs
280 
    .xgate_address( xgate_address ),
281 
    .write_mem_strb_l( write_mem_strb_l ),
282 
    .write_mem_strb_h( write_mem_strb_h ),
283 
    .write_mem_data( write_mem_data ),
284 
    .zero_flag( zero_flag ),
285 
    .negative_flag( negative_flag ),
286 
    .carry_flag( carry_flag ),
287 
    .overflow_flag( overflow_flag ),
288 
    .xgchid( xgchid ),
289 
    .host_semap( host_semap ),
290 
    .xgr1( xgr1 ),
291 
    .xgr2( xgr2 ),
292 
    .xgr3( xgr3 ),
293 
    .xgr4( xgr4 ),
294 
    .xgr5( xgr5 ),
295 
    .xgr6( xgr6 ),
296 
    .xgr7( xgr7 ),
297 
    .xgif( xgif ),
298 12 rehayes 
    .debug_active( debug_active ),
299 
    .xg_sw_irq( xg_sw_irq ),
300 2 rehayes 
 
301 
    // inputs
302 
    .risc_clk( risc_clk ),
303 
    .perif_data( wbs_dat_i ),
304 
    .async_rst_b( async_rst_b ),
305 
    .read_mem_data( read_mem_data ),
306 5 rehayes 
    .mem_req_ack( mem_req_ack ),
307 2 rehayes 
    .xge( xge ),
308 
    .xgfrz( xgfrz ),
309 15 rehayes 
    .xgdbg_set( xgdbg_set ),
310 
    .xgdbg_clear( xgdbg_clear ),
311 2 rehayes 
    .xgss( xgss ),
312 
    .xgvbr( xgvbr ),
313 5 rehayes 
    .int_req( int_req ),
314 12 rehayes 
    .xgie( xgie ),
315 
    .brk_irq_ena( brk_irq_ena ),
316 2 rehayes 
    .write_xgsem( write_xgsem ),
317 17 rehayes 
    .write_xgchid( write_xgchid ),
318 2 rehayes 
    .write_xgccr( write_xgccr ),
319 
    .write_xgpc( write_xgpc ),
320 
    .write_xgr7( write_xgr7 ),
321 
    .write_xgr6( write_xgr6 ),
322 
    .write_xgr5( write_xgr5 ),
323 
    .write_xgr4( write_xgr4 ),
324 
    .write_xgr3( write_xgr3 ),
325 
    .write_xgr2( write_xgr2 ),
326 
    .write_xgr1( write_xgr1 ),
327 
    .clear_xgif_7( clear_xgif_7 ),
328 
    .clear_xgif_6( clear_xgif_6 ),
329 
    .clear_xgif_5( clear_xgif_5 ),
330 
    .clear_xgif_4( clear_xgif_4 ),
331 
    .clear_xgif_3( clear_xgif_3 ),
332 
    .clear_xgif_2( clear_xgif_2 ),
333 
    .clear_xgif_1( clear_xgif_1 ),
334 
    .clear_xgif_0( clear_xgif_0 ),
335 12 rehayes 
    .xgsweif_c( xgsweif_c ),
336 2 rehayes 
    .clear_xgif_data( clear_xgif_data )
337 
  );
338 
 
339 
  xgate_irq_encode #(.MAX_CHANNEL(MAX_CHANNEL))
340 
    irq_encode(
341 
    // outputs
342 
    .int_req( int_req ),
343 
    // inputs
344 
    .chan_req_i( chan_req_i )
345 
  );
346 
 
347 5 rehayes 
  // ---------------------------------------------------------------------------
348 
  // Wishbone Master Bus interface
349 
  xgate_wbm_bus #(.ARST_LVL(ARST_LVL))
350 
    wishbone_m(
351 
  // Wishbone Master Signals
352 
    .wbm_dat_o( wbm_dat_o ),
353 
    .wbm_we_o( wbm_we_o ),
354 
    .wbm_stb_o( wbm_stb_o ),
355 
    .wbm_cyc_o( wbm_cyc_o ),
356 
    .wbm_sel_o( wbm_sel_o ),
357 
    .wbm_adr_o( wbm_adr_o ),
358 
    .wbm_dat_i( wbm_dat_i ),
359 
    .wbm_ack_i( wbm_ack_i ),
360 
    .wbs_clk_i( wbs_clk_i ),
361 
    .wbs_rst_i( wbs_rst_i ),
362 
    .arst_i( arst_i ),
363 
 // XGATE Control Signals
364 
    .read_mem_data( read_mem_data ),
365 
    .xgate_address( xgate_address ),
366 
    .mem_req_ack( mem_req_ack ),
367 
    .write_mem_strb_l( write_mem_strb_l ),
368 
    .write_mem_strb_h( write_mem_strb_h ),
369 
    .write_mem_data( write_mem_data )
370 
  );
371 2 rehayes 
 
372 5 rehayes 
 
373 2 rehayes 
endmodule  // xgate_top
374 
 

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