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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
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<html>
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<head>
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<title>openMSP430 Core</title>
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</head>
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<body>
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<h3>Table of content</h3>
8 
<ul>
9 
        <li><a href="#1. Introduction">1. Introduction</a></li>
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        <li><a href="#2. Design">      2. Design</a>
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        <ul>
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      <li><a href="#2.1 Core">        2.1 Core</a>
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                <ul>
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           <li><a href="#2.1.1 Design structure">              2.1.1 Design structure</a></li>
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           <li><a href="#2.1.2 Limitations">                   2.1.2 Limitations</a></li>
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           <li><a href="#2.1.3 Configuration">                 2.1.3 Configuration</a></li>
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           <li><a href="#2.1.4 Pinout">                        2.1.4 Pinout</a></li>
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           <li><a href="#2.1.5 Instruction Cycles and Lengths">2.1.5 Instruction Cycles and Lengths</a></li>
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           <li><a href="#2.1.6 Serial Debug Interface">        2.1.6 Serial Debug Interface</a></li>
20 
                </ul>
21 
           </li>
22 
      <li><a href="#2.2 Peripherals">        2.2 Peripherals</a>
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                <ul>
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           <li><a href="#2.2.1 Basic Clock Module">            2.2.1 Basic Clock Module</a></li>
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           <li><a href="#2.2.2 Watchdog Timer">                2.2.2 Watchdog Timer</a></li>
26 
           <li><a href="#2.2.3 Digital I/O">                   2.2.3 Digital I/O</a></li>
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           <li><a href="#2.2.4 Timer A">                       2.2.4 Timer A</a></li>
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           <li><a href="#2.2.5 16x16 Hardware Multiplier">     2.2.5 16x16 Hardware Multiplier</a></li>
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                </ul>
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           </li>
31 
        </ul>
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        </li>
33 
</ul>
34 
 
35 
<a name="1. Introduction"></a>
36 
<h1>1. Introduction</h1>
37 
 
38 
The openMSP430 is a 16-bit microcontroller core compatible with TI's MSP430 family (note that the extended version of the architecture, the MSP430X, isn't supported by this IP). It is based on a Von Neumann architecture, with a single address space for instructions and data.
39 
<br /><br />
40 
This design has been implemented to be FPGA friendly. Therefore, the core doesn't contain any clock gate and has only a single clock domain. As a consequence, the clock management block has a few limitations.
41 
<br /><br />
42 
This IP doesn't contain the instruction and data memory blocks internally (these are technology dependent hard macros which are connected to the IP during chip integration).
43 
However the core is fully configurable in regard to the supported RAM and/or ROM sizes.
44 
<br /><br />
45 
In addition to the CPU core itself, several peripherals are also provided and can be easily connected to the core during integration.
46 
<br /><br />
47 
 
48 
<a name="2. Design"></a>
49 
<h1>2. Design</h1>
50 
 
51 
<a name="2.1 Core"></a>
52 
<h2>2.1 Core</h2>
53 
 
54 
<a name="2.1.1 Design structure"></a>
55 
<h3>2.1.1 Design structure</h3>
56 
 
57 
The following diagram shows the openMSP430 design structure:
58 
<br /><br />
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<img src="getimg.php?1267738921" width="100%" alt="CPU Structure" title="CPU Structure" />
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<br />
61 
<ul>
62 
        <li><b>Frontend</b>: This module performs the instruction Fetch and Decode tasks. It also contains the execution state machine.</li>
63 
        <li><b>Execution unit</b>: Containing the ALU and the register file, this module executes the current decoded instruction according to the execution state.</li>
64 
        <li><b>Serial Debug Interface</b>: Contains all the required logic for a Nexus class 3 debugging unit (without trace). Communication with the host is done with a standard 8N1 serial interface.</li>
65 
   <li><b>Memory backbone</b>: This block performs a simple arbitration between the frontend and execution-unit for program, data and peripheral memory access.</li>
66 
   <li><b>Basic Clock Module</b>: Generates the ACLK and SMCLK enable signals.</li>
67 
   <li><b>SFRs</b>: The <b>S</b>pecial <b>F</b>unction <b>R</b>egister<b>s</b> block contain diverse configuration registers (NMI, Watchdog, ...).</li>
68 
   <li><b>Watchdog</b>: Although it is a peripheral, the watchdog is permanently included in the core because of its tight links with the NMI interrupts and the PUC reset generation.</li>
69 
</ul>
70 
 
71 
<a name="2.1.2 Limitations"></a>
72 
<h3>2.1.2 Limitations</h3>
73 
 
74 
The known core limitations are the following:
75 
<br />
76 
<ul>
77 
        <li>Instructions can't be executed from the data memory.</li>
78 
        <li>SCG0 is not implemented (turns off DCO).</li>
79 
        <li>MCLK can't be divided and can only have DCO_CLK as source (see <a href="#2.2.1 Basic Clock Module">Basic Clock Module</a> section).</li>
80 
</ul>
81 
 
82 
<a name="2.1.3 Configuration"></a>
83 
<h3>2.1.3 Configuration</h3>
84 
 
85 
It is possible to configure the openMSP430 core through the "openMSP430_defines.v" file located in the "rtl" directory (see <a href="http://www.opencores.org/project,openmsp430,file%20and%20directory%20description">file and directory description</a>).<br />
86 
Two parameters can be adjusted by the user in order to define the program and data memory sizes:
87 
<br /><br />
88 
<table border="0" cellspacing="4" cellpadding="0">
89 
<tr>
90 
<td width="35"></td>
91 
<td bgcolor="#d0d0d0" width="3"></td>
92 
<td width="15"></td>
93 
<td>
94 
        <code>
95 
                      // Program Memory Size
96 
                <br />//                    9 ->  1 kB
97 
                <br />//                   10 ->  2 kB
98 
                <br />//                   11 ->  4 kB
99 
                <br />//                   12 ->  8 kB
100 
                <br />//                   13 -> 16 kB
101 
                <br />//                   14 -> 32 kB
102 
                <br />`define PMEM_AWIDTH   10
103 
                <br />
104 
                <br />// Data Memory Size
105 
                <br />//                    6 ->  128 B
106 
                <br />//                    7 ->  256 B
107 
                <br />//                    8 ->  512 B
108 
                <br />//                    9 ->    1 kB
109 
                <br />//                   10 ->    2 kB
110 
                <br />//                   11 ->    4 kB
111 
                <br />//                   12 ->    8 kB
112 
                <br />//                   13 ->   16 kB
113 
                <br />//                   14 ->   32 kB
114 
                <br />`define DMEM_AWIDTH    6
115 
        </code>
116 
</td>
117 
</tr>
118 
</table>
119 
<br /><br />
120 
<b>Note:</b> Program and data memories <b>SHOULD NOT</b> be both set to 32 kB
121 
<br /><br /><br />
122 
The following parameters define if the debug interface should be included or not and how many hardware breakpoint units should be included.
123 
 
124 
<br /><br />
125 
<table border="0" cellspacing="4" cellpadding="0">
126 
<tr>
127 
<td width="35"></td>
128 
<td bgcolor="#d0d0d0" width="3"></td>
129 
<td width="15"></td>
130 
<td>
131 
        <code>
132 
            //----------------------------------------------------------------------------
133 
                <br />// REMOTE DEBUGGING INTERFACE CONFIGURATION
134 
                <br />//----------------------------------------------------------------------------
135 
                <br />
136 
                <br />// Include Debug interface
137 
                <br />`define DBG_EN
138 
                <br />
139 
                <br />// Debug interface selection
140 
                <br />//             `define DBG_UART -> Enable UART (8N1) debug interface
141 
                <br />//             `define DBG_JTAG -> DON'T UNCOMMENT, NOT SUPPORTED
142 
                <br />//
143 
                <br />`define DBG_UART
144 
                <br />//`define DBG_JTAG
145 
                <br />
146 
                <br />// Number of hardware breakpoints (each unit contains 2 hw address breakpoints)
147 
                <br />//             `define DBG_HWBRK_0 -> Include hardware breakpoints unit 0
148 
                <br />//             `define DBG_HWBRK_1 -> Include hardware breakpoints unit 1
149 
                <br />//             `define DBG_HWBRK_2 -> Include hardware breakpoints unit 2
150 
                <br />//             `define DBG_HWBRK_3 -> Include hardware breakpoints unit 3
151 
                <br />//
152 
                <br />`define  DBG_HWBRK_0
153 
                <br />`define  DBG_HWBRK_1
154 
                <br />`define  DBG_HWBRK_2
155 
                <br />`define  DBG_HWBRK_3
156 
        </code>
157 
</td>
158 
</tr>
159 
</table>
160 
<br /><br />
161 
<b>Note:</b> Since the hardware breakpoint units are relatively big, it is recommended to include as many as you plan to use. These units are particularly useful if your instruction memory is a ROM (i.e. when you can't use software breakpoints) or if you want to be able to stop the CPU whenever some particular data addresses are accessed.
162 
<br /><br /><br />
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At last, this parameter controls if the hardware multiplier is included or not.
164 
<br /><br />
165 
<table border="0" cellspacing="4" cellpadding="0">
166 
<tr>
167 
<td width="35"></td>
168 
<td bgcolor="#d0d0d0" width="3"></td>
169 
<td width="15"></td>
170 
<td>
171 
        <code>
172 
            // Include/Exclude Hardware Multiplier
173 
                <br />`define MULTIPLIER
174 
        </code>
175 
</td>
176 
</tr>
177 
</table>
178 
<br /><br /><br />
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All remaining defines located in this file are system constants and should not be edited.
180 
 
181 
<a name="2.1.4 Pinout"></a>
182 
<h3>2.1.4 Pinout</h3>
183 
 
184 
The full pinout of the openMSP430 core is provided in the following table:
185 
<br /><br />
186 
<table border="1">
187 
        <tr> <td align="center"><b>Port Name</b></td> <td align="center"><b>Direction</b></td> <td align="center"><b>Width</b>    </td> <td align="center"><b>Description</b></td> </tr>
188 
 
189 
        <tr> <td colspan="4" align="center"> <b><i>Clocks</i></b>                         </td></tr>
190 
        <tr>
191 
             <td> dco_clk                                                          </td>
192 
             <td> Input                                                            </td>
193 
             <td> 1                                                                </td>
194 
             <td> Fast oscillator (fast clock), CPU clock                          </td>
195 
        </tr>
196 
        <tr>
197 
             <td> lfxt_clk                                                         </td>
198 
             <td> Input                                                            </td>
199 
             <td> 1                                                                </td>
200 
             <td> Low frequency oscillator (typ. 32kHz)                            </td>
201 
   </tr>
202 
        <tr>
203 
             <td> mclk                                                             </td>
204 
             <td> Output                                                           </td>
205 
             <td> 1                                                                </td>
206 
             <td> Main system clock                                                </td>
207 
        </tr>
208 
        <tr>
209 
             <td> aclk_en                                                          </td>
210 
             <td> Output                                                           </td>
211 
             <td> 1                                                                </td>
212 
             <td> ACLK enable                                                      </td>
213 
   </tr>
214 
        <tr>
215 
             <td> smclk_en                                                         </td>
216 
             <td> Output                                                           </td>
217 
             <td> 1                                                                </td>
218 
             <td> SMCLK enable                                                     </td>
219 
   </tr>
220 
 
221 
        <tr> <td colspan="4" align="center"> <b><i>Resets</i></b>                         </td></tr>
222 
        <tr>
223 
             <td> puc                                                              </td>
224 
             <td> Output                                                           </td>
225 
             <td> 1                                                                </td>
226 
             <td> Main system reset                                                </td>
227 
   </tr>
228 
        <tr>
229 
             <td> reset_n                                                          </td>
230 
             <td> Input                                                            </td>
231 
             <td> 1                                                                </td>
232 
             <td> Reset Pin (low active)                                           </td>
233 
        </tr>
234 
 
235 
 
236 
        <tr> <td colspan="4" align="center"> <b><i>Program Memory interface</i></b>       </td></tr>
237 
        <tr>
238 
             <td> pmem_addr                                                        </td>
239 
             <td> Output                                                           </td>
240 
             <td> `PMEM_AWIDTH<sup>1</sup>                                        </td>
241 
             <td> Program Memory address                                           </td>
242 
        </tr>
243 
        <tr>
244 
             <td> pmem_cen                                                         </td>
245 
             <td> Output                                                           </td>
246 
             <td> 1                                                                </td>
247 
             <td> Program Memory chip enable (low active)                          </td>
248 
        </tr>
249 
        <tr>
250 
             <td> pmem_din                                                         </td>
251 
             <td> Output                                                           </td>
252 
             <td> 16                                                               </td>
253 
             <td> Program Memory data input (optional<sup>2</sup>)                </td>
254 
        </tr>
255 
        <tr>
256 
             <td> pmem_dout                                                        </td>
257 
             <td> Input                                                            </td>
258 
             <td> 16                                                               </td>
259 
             <td> Program Memory data output                                       </td>
260 
        </tr>
261 
        <tr>
262 
             <td> pmem_wen                                                         </td>
263 
             <td> Output                                                           </td>
264 
             <td> 2                                                                </td>
265 
             <td> Program Memory write enable (low active) (optional<sup>2</sup>) </td>
266 
        </tr>
267 
 
268 
        <tr> <td colspan="4" align="center"> <b><i>Data Memory interface</i></b>          </td></tr>
269 
        <tr>
270 
             <td> dmem_addr                                                        </td>
271 
             <td> Output                                                           </td>
272 
             <td> `DMEM_AWIDTH<sup>1</sup>                                        </td>
273 
             <td> Data Memory address                                              </td>
274 
        </tr>
275 
        <tr>
276 
             <td> dmem_cen                                                         </td>
277 
             <td> Output                                                           </td>
278 
             <td> 1                                                                </td>
279 
             <td> Data Memory chip enable (low active)                             </td>
280 
        </tr>
281 
        <tr>
282 
             <td> dmem_din                                                         </td>
283 
             <td> Output                                                           </td>
284 
             <td> 16                                                               </td>
285 
             <td> Data Memory data input                                           </td>
286 
        </tr>
287 
        <tr>
288 
             <td> dmem_dout                                                        </td>
289 
             <td> Input                                                            </td>
290 
             <td> 16                                                               </td>
291 
             <td> Data Memory data output                                          </td>
292 
        </tr>
293 
        <tr>
294 
             <td> dmem_wen                                                         </td>
295 
             <td> Output                                                           </td>
296 
             <td> 2                                                                </td>
297 
             <td> Data Memory write enable (low active)                            </td>
298 
        </tr>
299 
 
300 
        <tr> <td colspan="4" align="center"> <b><i>External Peripherals interface</i></b> </td></tr>
301 
        <tr>
302 
             <td> per_addr                                                         </td>
303 
             <td> Output                                                           </td>
304 
             <td> 8                                                                </td>
305 
             <td> Peripheral address                                               </td>
306 
        </tr>
307 
        <tr>
308 
             <td> per_din                                                          </td>
309 
             <td> Output                                                           </td>
310 
             <td> 16                                                               </td>
311 
             <td> Peripheral data input                                            </td>
312 
   </tr>
313 
        <tr>
314 
             <td> per_dout                                                         </td>
315 
             <td> Input                                                            </td>
316 
             <td> 16                                                               </td>
317 
             <td> Peripheral data output                                           </td>
318 
        </tr>
319 
        <tr>
320 
             <td> per_en                                                           </td>
321 
             <td> Output                                                           </td>
322 
             <td> 1                                                                </td>
323 
             <td> Peripheral enable (high active)                                  </td>
324 
        </tr>
325 
        <tr>
326 
             <td> per_wen                                                          </td>
327 
             <td> Output                                                           </td>
328 
             <td> 2                                                                </td>
329 
             <td> Peripheral write enable (high active)                            </td>
330 
        </tr>
331 
 
332 
        <tr> <td colspan="4" align="center"> <b><i>Interrupts</i></b>                     </td></tr>
333 
        <tr>
334 
                  <td> irq                                                              </td>
335 
                  <td> Input                                                            </td>
336 
                  <td> 14                                                               </td>
337 
                  <td> Maskable interrupts (one-hot signal)                             </td>
338 
   </tr>
339 
        <tr>
340 
             <td> nmi                                                              </td>
341 
             <td> Input                                                            </td>
342 
             <td> 1                                                                </td>
343 
             <td> Non-maskable interrupt (asynchronous)                            </td>
344 
        </tr>
345 
        <tr>
346 
             <td> irq_acc                                                          </td>
347 
             <td> Output                                                           </td>
348 
             <td> 14                                                               </td>
349 
             <td> Interrupt request accepted (one-hot signal)                      </td>
350 
        </tr>
351 
 
352 
        <tr> <td colspan="4" align="center"> <b><i>Serial Debug interface</i></b>         </td></tr>
353 
        <tr>
354 
             <td> dbg_freeze                                                       </td>
355 
             <td> Output                                                           </td>
356 
             <td> 1                                                                </td>
357 
             <td> Freeze peripherals                                               </td>
358 
        </tr>
359 
        <tr>
360 
             <td> dbg_uart_txd                                                     </td>
361 
             <td> Output                                                           </td>
362 
             <td> 1                                                                </td>
363 
             <td> Debug interface: UART TXD                                        </td>
364 
        </tr>
365 
        <tr>
366 
             <td> dbg_uart_rxd                                                     </td>
367 
             <td> Input                                                            </td>
368 
             <td> 1                                                                </td>
369 
             <td> Debug interface: UART RXD                                        </td>
370 
        </tr>
371 
</table>
372 
<br />
373 
<sup>1</sup>: This parameter is declared in the "openMSP430_defines.v" file and defines the RAM/ROM size.<br />
374 
<sup>2</sup>: These two optional ports can be connected whenever the program memory is a RAM. This will allow the user to load a program through the serial debug interface and to use software breakpoints.
375 
<br /><br />
376 
 
377 
<a name="2.1.5 Instruction Cycles and Lengths"></a>
378 
<h3>2.1.5 Instruction Cycles and Lengths</h3>
379 
 
380 
The number of CPU clock cycles required for an instruction depends on the instruction format and the addressing modes used, not the instruction itself.
381 
<br />In the following tables, the number of clock cycles refers to the main clock (<i>MCLK</i>).
382 
Differences with the original MSP430 are highlighted in green (the original value being red).
383 
<ul>
384 
        <li><b>Interrupt and Reset Cycles</b></li>
385 
</ul>
386 
<table border="1">
387 
        <tr> <td align="center"><b>Action</b>  </td> <td align="center"><b>No. of Cycles</b></td> <td align="center"><b>Length of Instruction</b></td> </tr>
388 
        <tr> <td> Return from interrupt (RETI) </td> <td align="center">       5            </td> <td align="center">           1                </td> </tr>
389 
        <tr> <td> Interrupt accepted           </td> <td align="center">       6            </td> <td align="center">           -                </td> </tr>
390 
        <tr> <td> WDT reset                    </td> <td align="center">       4            </td> <td align="center">           -                </td> </tr>
391 
        <tr> <td> Reset (!RST/NMI)             </td> <td align="center">       4            </td> <td align="center">           -                </td> </tr>
392 
</table>
393 
 
394 
<ul>
395 
        <li><b>Format-II (Single Operand) Instruction Cycles and Lengths</b></li>
396 
</ul>
397 
<table border="1">
398 
        <tr> <td rowspan="2" align="center"><b>Addressing Mode</b>  </td> <td colspan="3" align="center"><b>No. of Cycles</b></td> <td rowspan="2" align="center"><b>Length of Instruction</b></td> </tr>
399 
        <tr>                                                              <td><b>RRA, RRC, SWPB, SXT</b></td> <td><b>PUSH</b></td> <td><b>CALL</b></td> </tr>
400 
 
401 
        <tr> <td align="center"> Rn    </td> <td align="center"> 1   </td> <td align="center"> 3 </td> <td align="center"><b><font color="green">3 </font><font color="red"> (4)</font></b></td> <td align="center"> 1 </td> </tr>
402 
        <tr> <td align="center"> @Rn   </td> <td align="center"> 3   </td> <td align="center"> 4 </td> <td align="center"> 4 </td> <td align="center"> 1 </td> </tr>
403 
        <tr> <td align="center"> @Rn+  </td> <td align="center"> 3   </td> <td align="center"><b><font color="green">4 </font><font color="red"> (5)</font></b></td> <td align="center"><b><font color="green">4 </font><font color="red"> (5)</font></b></td> <td align="center"> 1 </td> </tr>
404 
        <tr> <td align="center"> #N    </td> <td align="center"> N/A </td> <td align="center"> 4 </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
405 
        <tr> <td align="center"> X(Rn) </td> <td align="center"> 4   </td> <td align="center"> 5 </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
406 
        <tr> <td align="center"> EDE   </td> <td align="center"> 4   </td> <td align="center"> 5 </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
407 
        <tr> <td align="center"> &EDE  </td> <td align="center"> 4   </td> <td align="center"> 5 </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
408 
</table>
409 
 
410 
<ul>
411 
        <li><b>Format-III (Jump) Instruction Cycles and Lengths</b></li>
412 
</ul>
413 
All jump instructions require one code word, and take two CPU cycles to execute, regardless of whether the jump is taken or not.
414 
 
415 
<ul>
416 
        <li><b>Format-I (Double Operand) Instruction Cycles and Lengths</b></li>
417 
</ul>
418 
<table border="1">
419 
        <tr> <td colspan="2" align="center"><b>Addressing Mode</b>  </td> <td rowspan="2" align="center"><b>No. of Cycles</b></td> <td rowspan="2" align="center"><b>Length of Instruction</b></td> </tr>
420 
        <tr> <td align="center"><b>Src</b></td> <td align="center"><b>Dst</b></td> </tr>
421 
 
422 
        <tr> <td rowspan="5" align="center"> Rn    </td> <td align="center"> Rm    </td> <td align="center"> 1 </td> <td align="center"> 1 </td> </tr>
423 
        <tr>                                             <td align="center"> PC    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
424 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
425 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
426 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
427 
        <tr> <td rowspan="5" align="center"> @Rn   </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
428 
        <tr>                                             <td align="center"> PC    </td> <td align="center"><b><font color="green">3 </font><font color="red"> (2)</font></b></td> <td align="center"> 1 </td> </tr>
429 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
430 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
431 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
432 
        <tr> <td rowspan="5" align="center"> @Rn+  </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
433 
        <tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 1 </td> </tr>
434 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
435 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
436 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
437 
        <tr> <td rowspan="5" align="center"> #N    </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 2 </td> </tr>
438 
        <tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
439 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
440 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
441 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
442 
        <tr> <td rowspan="5" align="center"> x(Rn) </td> <td align="center"> Rm    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
443 
        <tr>                                             <td align="center"> PC    </td> <td align="center"><b><font color="green">3 </font><font color="red"> (4)</font></b></td> <td align="center"> 2 </td> </tr>
444 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
445 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
446 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
447 
        <tr> <td rowspan="5" align="center"> EDE   </td> <td align="center"> Rm    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
448 
        <tr>                                             <td align="center"> PC    </td> <td align="center"><b><font color="green">3 </font><font color="red"> (4)</font></b></td> <td align="center"> 2 </td> </tr>
449 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
450 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
451 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
452 
        <tr> <td rowspan="5" align="center"> &EDE  </td> <td align="center"> Rm    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
453 
        <tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
454 
        <tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
455 
        <tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
456 
        <tr>                                             <td align="center"> &EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
457 
</table>
458 
 
459 
<a name="2.1.6 Serial Debug Interface"></a>
460 
<h3>2.1.6 Serial Debug Interface</h3>
461 
 
462 
All the details about the Serial Debug Interface are located <a href="http://www.opencores.org/project/openmsp430/serial%20debug%20interface">here</a>.
463 
<a name="2.2 Peripherals"></a>
464 
<h2>2.2 Peripherals</h2>
465 
 
466 
In addition to the CPU core itself, several peripherals are also provided and can be easily connected to the core during integration.
467 
 
468 
<a name="2.2.1 Basic Clock Module"></a>
469 
<h3>2.2.1 Basic Clock Module</h3>
470 
 
471 
In order to make an FPGA implementation as simple as possible (ideally, a non-designer should be able to do it), clock gates are not used in the design and neither are clock muxes.
472 
<br />
473 
With these constrains, the Basic Clock Module is implemented as following:
474 
<br /><br />
475 
<img src="getimg.php?1249244393" alt="Clock structure diagram" title="Clock structure diagram" />
476 
<br />
477 
<b>Note</b>: CPUOFF doesn't switch MCLK off and will instead bring the CPU state machines in an IDLE state while MCLK will still be running.
478 
<br /><br />
479 
 
480 
In order to '<i>clock</i>' a register with ACLK or SMCLK, the following structure needs to be implemented:
481 
<br /><br />
482 
<img src="getimg.php?1246434793" alt="Clock implementation example" title="Clock implementation example" />
483 
<br /><br />
484 
The following Verilog code would implement a counter clocked with SMCLK:
485 
<br />
486 
<table border="0" cellspacing="4" cellpadding="0">
487 
<tr>
488 
<td width="35"></td>
489 
<td bgcolor="#d0d0d0" width="3"></td>
490 
<td width="15"></td>
491 
<td>
492 
        <code>
493 
                      reg  [7:0] test_cnt;
494 
                <br />
495 
                <br />always @ (posedge mclk or posedge puc)
496 
                <br />  if (puc)           test_cnt <=  8'h00;
497 
                <br />  else if (smclk_en) test_cnt <=  test_cnt + 8'h01;
498 
        </code>
499 
</td>
500 
</tr>
501 
</table>
502 
<br /><br />
503 
<b>Register Description</b>
504 
<ul>
505 
        <li>DCOCTL: Not implemented</li>
506 
        <li>BCSCTL1:
507 
        <ul>
508 
      <li>BCSCTL1[7:6]: Unused</li>
509 
      <li>BCSCTL1[5:4]: DIVAx</li>
510 
      <li>BCSCTL1[4:0]: Unused</li>
511 
        </ul>
512 
        </li>
513 
        <li>BCSCTL2:
514 
        <ul>
515 
      <li>BCSCTL2[7:4]: Unused</li>
516 
      <li>BCSCTL2[3]&nbsp;&nbsp;&nbsp;: SELS</li>
517 
      <li>BCSCTL2[2:1]: DIVSx</li>
518 
      <li>BCSCTL2[0]&nbsp;&nbsp;&nbsp;: Unused</li>
519 
        </ul>
520 
        </li>
521 
</ul>
522 
 
523 
<a name="2.2.2 Watchdog Timer"></a>
524 
<h3>2.2.2 Watchdog Timer</h3>
525 
 
526 69 olivier.gi 
100% of the features advertised in the <a href="http://www.ti.com/litv/pdf/slau049f">MSP430x1xx Family User's Guide</a> (Chapter 10) have been implemented.
527 50 olivier.gi 
 
528 
<a name="2.2.3 Digital I/O"></a>
529 
<h3>2.2.3 Digital I/O</h3>
530 
 
531 69 olivier.gi 
100% of the features advertised in the <a href="http://www.ti.com/litv/pdf/slau049f">MSP430x1xx Family User's Guide</a> (Chapter 9) have been implemented.
532 50 olivier.gi 
<br /><br />
533 
The following Verilog parameters will enable or disable the corresponding ports in order to save area (i.e. FPGA utilization):
534 
<br /><br />
535 
<table border="0" cellspacing="4" cellpadding="0">
536 
<tr>
537 
<td width="35"></td>
538 
<td bgcolor="#d0d0d0" width="3"></td>
539 
<td width="15"></td>
540 
<td>
541 
        <code>
542 
                      parameter           P1_EN = 1'b1;   // Enable Port 1
543 
                <br />parameter           P2_EN = 1'b1;   // Enable Port 2
544 
                <br />parameter           P3_EN = 1'b0;   // Enable Port 3
545 
                <br />parameter           P4_EN = 1'b0;   // Enable Port 4
546 
                <br />parameter           P5_EN = 1'b0;   // Enable Port 5
547 
                <br />parameter           P6_EN = 1'b0;   // Enable Port 6
548 
        </code>
549 
</td>
550 
</tr>
551 
</table>
552 
<br />
553 
They can be updated as following during the module instantiation (here port 1, 2 and 3 are enabled):
554 
<br /><br />
555 
<table border="0" cellspacing="4" cellpadding="0">
556 
<tr>
557 
<td width="35"></td>
558 
<td bgcolor="#d0d0d0" width="3"></td>
559 
<td width="15"></td>
560 
<td>
561 
        <code>
562 
                      gpio #(.P1_EN(1),
563 
                <br />       .P2_EN(1),
564 
                <br />       .P3_EN(1),
565 
                <br />       .P4_EN(0),
566 
                <br />       .P5_EN(0),
567 
                <br />       .P6_EN(0)) gpio_0 (
568 
        </code>
569 
</td>
570 
</tr>
571 
</table>
572 
<br />
573 
The full pinout of the GPIO module is provided in the following table:
574 
<br /><br />
575 
<table border="1">
576 
        <tr> <td align="center"><b>Port Name</b></td> <td align="center"><b>Direction</b></td> <td align="center"><b>Width</b>    </td> <td align="center"><b>Description</b></td> </tr>
577 
        <tr> <td colspan="4" align="center"> <b><i>Clocks & Resets</i></b>  </td></tr>
578 
        <tr> <td> mclk           </td> <td>  Input         </td> <td>       1        </td> <td> Main system clock                           </td> </tr>
579 
        <tr> <td> puc            </td> <td>  Input         </td> <td>       1        </td> <td> Main system reset                           </td> </tr>
580 
        <tr> <td colspan="4" align="center"> <b><i>Interrupts</i></b>  </td></tr>
581 
        <tr> <td> irq_port1      </td> <td>  Output        </td> <td>       1        </td> <td> Port 1 interrupt                            </td> </tr>
582 
        <tr> <td> irq_port2      </td> <td>  Output        </td> <td>       1        </td> <td> Port 2 interrupt                            </td> </tr>
583 
        <tr> <td colspan="4" align="center"> <b><i>External Peripherals interface</i></b>  </td></tr>
584 
        <tr> <td> per_addr       </td> <td>  Input         </td> <td>       8        </td> <td> Peripheral address                          </td> </tr>
585 
        <tr> <td> per_din        </td> <td>  Input         </td> <td>      16        </td> <td> Peripheral data input                       </td> </tr>
586 
        <tr> <td> per_dout       </td> <td>  Output        </td> <td>      16        </td> <td> Peripheral data output                      </td> </tr>
587 
        <tr> <td> per_en         </td> <td>  Input         </td> <td>       1        </td> <td> Peripheral enable (high active)             </td> </tr>
588 
        <tr> <td> per_wen        </td> <td>  Input         </td> <td>       2        </td> <td> Peripheral write enable (high active)       </td> </tr>
589 
        <tr> <td colspan="4" align="center"> <b><i>Port 1</i></b>  </td></tr>
590 
        <tr> <td> p1_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 1 data input                           </td> </tr>
591 
        <tr> <td> p1_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 1 data output                          </td> </tr>
592 
        <tr> <td> p1_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 1 data output enable                   </td> </tr>
593 
        <tr> <td> p1_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 1 function select                      </td> </tr>
594 
        <tr> <td colspan="4" align="center"> <b><i>Port 2</i></b>  </td></tr>
595 
        <tr> <td> p2_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 2 data input                           </td> </tr>
596 
        <tr> <td> p2_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 2 data output                          </td> </tr>
597 
        <tr> <td> p2_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 2 data output enable                   </td> </tr>
598 
        <tr> <td> p2_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 2 function select                      </td> </tr>
599 
        <tr> <td colspan="4" align="center"> <b><i>Port 3</i></b>  </td></tr>
600 
        <tr> <td> p3_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 3 data input                           </td> </tr>
601 
        <tr> <td> p3_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 3 data output                          </td> </tr>
602 
        <tr> <td> p3_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 3 data output enable                   </td> </tr>
603 
        <tr> <td> p3_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 3 function select                      </td> </tr>
604 
        <tr> <td colspan="4" align="center"> <b><i>Port 4</i></b>  </td></tr>
605 
        <tr> <td> p4_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 4 data input                           </td> </tr>
606 
        <tr> <td> p4_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 4 data output                          </td> </tr>
607 
        <tr> <td> p4_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 4 data output enable                   </td> </tr>
608 
        <tr> <td> p4_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 4 function select                      </td> </tr>
609 
        <tr> <td colspan="4" align="center"> <b><i>Port 5</i></b>  </td></tr>
610 
        <tr> <td> p5_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 5 data input                           </td> </tr>
611 
        <tr> <td> p5_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 5 data output                          </td> </tr>
612 
        <tr> <td> p5_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 5 data output enable                   </td> </tr>
613 
        <tr> <td> p5_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 5 function select                      </td> </tr>
614 
        <tr> <td colspan="4" align="center"> <b><i>Port 6</i></b>  </td></tr>
615 
        <tr> <td> p6_din         </td> <td>  Input         </td> <td>       8        </td> <td> Port 6 data input                           </td> </tr>
616 
        <tr> <td> p6_dout        </td> <td>  Output        </td> <td>       8        </td> <td> Port 6 data output                          </td> </tr>
617 
        <tr> <td> p6_dout_en     </td> <td>  Output        </td> <td>       8        </td> <td> Port 6 data output enable                   </td> </tr>
618 
        <tr> <td> p6_sel         </td> <td>  Output        </td> <td>       8        </td> <td> Port 6 function select                      </td> </tr>
619 
      </table>
620 
 
621 
<a name="2.2.4 Timer A"></a>
622 
<h3>2.2.4 Timer A</h3>
623 
 
624 69 olivier.gi 
100% of the features advertised in the <a href="http://www.ti.com/litv/pdf/slau049f">MSP430x1xx Family User's Guide</a> (Chapter 11) have been implemented.
625 50 olivier.gi 
<br /><br />
626 
The full pinout of the Timer A module is provided in the following table:
627 
<br /><br />
628 
<table border="1">
629 
        <tr> <td align="center"><b>Port Name</b></td> <td align="center"><b>Direction</b></td> <td align="center"><b>Width</b>    </td> <td align="center"><b>Description</b></td> </tr>
630 
        <tr> <td colspan="4" align="center"> <b><i>Clocks, Resets & Debug</i></b>  </td></tr>
631 
        <tr> <td> mclk           </td> <td>  Input         </td> <td>       1        </td> <td> Main system clock                          </td> </tr>
632 
        <tr> <td> aclk_en        </td> <td>  Input         </td> <td>       1        </td> <td> ACLK enable (from CPU)                     </td> </tr>
633 
        <tr> <td> smclk_en       </td> <td>  Input         </td> <td>       1        </td> <td> SMCLK enable (from CPU)                    </td> </tr>
634 
        <tr> <td> inclk          </td> <td>  Input         </td> <td>       1        </td> <td> INCLK external timer clock (SLOW)          </td> </tr>
635 
        <tr> <td> taclk          </td> <td>  Input         </td> <td>       1        </td> <td> TACLK external timer clock (SLOW)          </td> </tr>
636 
        <tr> <td> puc            </td> <td>  Input         </td> <td>       1        </td> <td> Main system reset                          </td> </tr>
637 
        <tr> <td> dbg_freeze     </td> <td>  Input         </td> <td>       1        </td> <td> Freeze Timer A counter                     </td> </tr>
638 
        <tr> <td colspan="4" align="center"> <b><i>Interrupts</i></b>  </td></tr>
639 
        <tr> <td> irq_ta0        </td> <td>  Output        </td> <td>       1        </td> <td> Timer A interrupt: TACCR0                  </td> </tr>
640 
        <tr> <td> irq_ta1        </td> <td>  Output        </td> <td>       1        </td> <td> Timer A interrupt: TAIV, TACCR1, TACCR2    </td> </tr>
641 
        <tr> <td> irq_ta0_acc    </td> <td>  Input         </td> <td>       1        </td> <td> Interrupt request TACCR0 accepted          </td> </tr>
642 
        <tr> <td colspan="4" align="center"> <b><i>External Peripherals interface</i></b>  </td></tr>
643 
        <tr> <td> per_addr       </td> <td>  Input         </td> <td>       8        </td> <td> Peripheral address                         </td> </tr>
644 
        <tr> <td> per_din        </td> <td>  Input         </td> <td>      16        </td> <td> Peripheral data input                      </td> </tr>
645 
        <tr> <td> per_dout       </td> <td>  Output        </td> <td>      16        </td> <td> Peripheral data output                     </td> </tr>
646 
        <tr> <td> per_en         </td> <td>  Input         </td> <td>       1        </td> <td> Peripheral enable (high active)            </td> </tr>
647 
        <tr> <td> per_wen        </td> <td>  Input         </td> <td>       2        </td> <td> Peripheral write enable (high active)      </td> </tr>
648 
        <tr> <td colspan="4" align="center"> <b><i>Capture/Compare Unit 0</i></b>  </td></tr>
649 
        <tr> <td> ta_cci0a       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 0 input A                  </td> </tr>
650 
        <tr> <td> ta_cci0b       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 0 input B                  </td> </tr>
651 
        <tr> <td> ta_out0        </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 0                           </td> </tr>
652 
        <tr> <td> ta_out0_en     </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 0 enable                    </td> </tr>
653 
        <tr> <td colspan="4" align="center"> <b><i>Capture/Compare Unit 1</i></b>  </td></tr>
654 
        <tr> <td> ta_cci1a       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 1 input A                  </td> </tr>
655 
        <tr> <td> ta_cci1b       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 1 input B                  </td> </tr>
656 
        <tr> <td> ta_out1        </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 1                           </td> </tr>
657 
        <tr> <td> ta_out1_en     </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 1 enable                    </td> </tr>
658 
        <tr> <td colspan="4" align="center"> <b><i>Capture/Compare Unit 2</i></b>  </td></tr>
659 
        <tr> <td> ta_cci2a       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 2 input A                  </td> </tr>
660 
        <tr> <td> ta_cci2b       </td> <td>  Input         </td> <td>       1        </td> <td> Timer A capture 2 input B                  </td> </tr>
661 
        <tr> <td> ta_out2        </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 2                           </td> </tr>
662 
        <tr> <td> ta_out2_en     </td> <td>  Output        </td> <td>       1        </td> <td> Timer A output 2 enable                    </td> </tr>
663 
</table>
664 
<br />
665 
<b>Note</b>: for the same reason as with the Basic Clock Module, the two additional clock inputs (TACLK and INCLK) are internally synchronized with the MCLK domain.
666 
As a consequence, TACLK and INCLK should be at least 2 times slowlier than MCLK, and if these clock are used toghether with the Timer A output unit, some jitter might be observed on the generated output.
667 
If this jitter is critical for the application, ACLK and INCLK should idealy be derivated from DCO_CLK.
668 69 olivier.gi 
<br /><br />
669 
<a name="2.2.5 16x16 Hardware Multiplier"></a>
670 
<h3>2.2.5 16x16 Hardware Multiplier</h3>
671 50 olivier.gi 
 
672 69 olivier.gi 
100% of the features advertised in the <a href="http://www.ti.com/litv/pdf/slau049f">MSP430x1xx Family User's Guide</a> (Chapter 7) have been implemented.
673 
<br /><br />
674 
The following parameter in the <i>openMSP430_defines.v</i> file controls if the hardware multiplier should be included or not.
675 
<br /><br />
676 
<table border="0" cellspacing="4" cellpadding="0">
677 
<tr>
678 
<td width="35"></td>
679 
<td bgcolor="#d0d0d0" width="3"></td>
680 
<td width="15"></td>
681 
<td>
682 
        <code>
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            // Include/Exclude Hardware Multiplier
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                <br />`define MULTIPLIER
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        </code>
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</td>
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