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<html><head><title>openMSP430 Core</title></head>
<body>
<h3>Table of content</h3>
<ul>
<li><a href="#1.%20Introduction">						1. Introduction</a></li>
<li><a href="#2.%20Core">							2. Core</a>
	<ul>
	<li><a href="#2.1%20Design%20structure">				2.1 Design structure</a></li>
	<li><a href="#2.2%20Limitations">					2.2 Limitations</a></li>
	<li><a href="#2.3%20Configuration">					2.3 Configuration</a>
		<ul>
		<li><a href="#2.3.1%20Basic%20System%20Configuration">		2.3.1 Basic System Configuration</a></li>
		<li><a href="#2.3.2%20Advanced%20System%20Configuration">	2.3.2 Advanced System Configuration</a></li>
		<li><a href="#2.3.3%20Expert%20System%20Configuration">		2.3.3 Expert System Configuration</a></li>
		<li><a href="#2.3.4%20Parameters%20For%20Multi-Core%20Systems">	2.3.4 Parameters For Multi-Core Systems</a></li>
		</ul>
	</li>
	<li><a href="#2.4%20Memory%20mapping">					2.4 Memory mapping</a></li>
	<li><a href="#2.5%20Interrupt%20mapping">				2.5 Interrupt mapping</a></li>
	<li><a href="#2.6%20Pinout">						2.6 Pinout</a></li>
	<li><a href="#2.7%20Instruction%20Cycles%20and%20Lengths">		2.7 Instruction Cycles and Lengths</a></li>
	<li><a href="#2.8%20Serial%20Debug%20Interface">			2.8 Serial Debug Interface</a></li>
	<li><a href="#2.9%20Benchmark%20results">				2.9 Benchmark results</a>
		<ul>
		<li><a href="#2.9.1%20Dhrystone">				2.9.1 Dhrystone</a></li>
		<li><a href="#2.9.2%20CoreMark">				2.9.2 CoreMark</a></li>
		</ul>
	</li>
	</ul>
</li>	
</ul>
 
<a name="1. Introduction"></a>
<h1>1. Introduction</h1>
 
The openMSP430 is a 16-bit microcontroller core compatible with <b><a href="http://www.ti.com/litv/pdf/slau049f">TI's MSP430 family</a></b>
(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.
<br><br>Depending on the selected configuration, this design can either be:<br>
<ul>
  <ul>
    <ul>
      <li>&nbsp;<span style="font-weight: bold;">FPGA friendly</span>: the core doesn't contain any clock gate and has only a single clock
domain. As a consequence, in this mode, the <span style="font-style: italic;">Basic Clock Module</span> peripheral has a few
limitations.<br>
        <br>
      </li>
      <li>&nbsp;<span style="font-weight: bold;">ASIC friendly</span>: the core contains up to all clock management
options (clock muxes &amp; low-power modes, fine grained clock
gating, ...) and is also ready for scan insertion. In this mode, the <span style="font-style: italic;">Basic Clock Module</span> offers all features listed in the official <a href="http://www.ti.com/litv/pdf/slau049f">documentation</a>.<br>
 
      </li>
    </ul>
  </ul>
</ul>
<br>It is to be noted that 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).
However the core is fully configurable in regard to the supported RAM
and/or ROM sizes.
<br><br>
 
<a name="2. Core"></a>
<h1>2. Core</h1>
 
<a name="2.1 Design structure"></a>
<h2>2.1 Design structure</h2>
 
The following diagram shows the openMSP430 design structure:
<br><br>
<img src="http://opencores.org/usercontent,img,1430426442" alt="CPU Structure" title="CPU Structure" width="80%">
<br>
<ul>
	<li><b>Frontend</b>: This module performs the instruction Fetch and Decode tasks. It also contains the execution state machine.</li>
	<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>
	<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 performed with a standard
two-wire interface following either the UART 8N1 or I<sup>2</sup>C serial protocol.</li>
   <li><b>Memory backbone</b>: This block
performs a simple arbitration between frontend, execution-unit, DMA and Serial-Debug interfaces
for program, data and peripheral memory accesses.</li>
   <li><b>Basic Clock Module</b>: Generates MCLK, ACLK, SMCLK and manage the low power modes.</li>
   <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>
   <li><b>Watchdog</b>:
Although it is a peripheral, the watchdog is directly included in
the core because of its tight links with the NMI interrupts and PUC
reset generation.</li>
   <li><b>16x16 Multiplier</b>: The hardware
multiplier peripheral is transparently supported by the GCC compiler
and is therefore located in the core. It can be included or excluded at will
through a Verilog define.</li>
</ul>
 
<a name="2.2 Limitations"></a>
<h2>2.2 Limitations</h2>
 
The known core limitations are the following:
<br>
<ul>
	<li>Instructions can't be executed from the data memory.</li>
	</ul>
 
<a name="2.3 Configuration"></a>
<h2>2.3 Configuration</h2>
 
It is possible to configure the openMSP430 core through the <b><i>openMSP430_defines.v</i></b> file located in the <b><i>rtl</i></b> directory (see <a href="http://www.opencores.org/project,openmsp430,file%20and%20directory%20description">file and directory description</a>).<br>In
this section, three sets of adjustabe user parameters are discussed in
order to customize the core. A fourth set is available for ASIC
specific options and will be discussed in the <a href="http://opencores.org/project,openmsp430,asic%20implementation">ASIC implementation</a>
section.
 
<a name="2.3.1 Basic System Configuration"></a>
<h3>2.3.1 Basic System Configuration</h3>
 
The basic system can be adjusted with the following set of defines in order to match the target system requirements.
<br><br>
<table border="0" cellpadding="0" cellspacing="4">
<tbody><tr>
<td width="35"><br>
</td>
<td bgcolor="#d0d0d0" width="3"><br>
</td>
<td width="15"><br>
</td>
<td>
	<code>
             //============================================================================<br>
//============================================================================<br>
// BASIC SYSTEM CONFIGURATION<br>
//============================================================================<br>
//============================================================================<br>
//<br>
// Note: the sum of program, data and peripheral memory spaces must not<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; exceed 64 kB<br>
//<br>
      <br>
// Program Memory Size:<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
Uncomment the required memory size<br>
//-------------------------------------------------------<br>
//`define PMEM_SIZE_CUSTOM<br>
//`define PMEM_SIZE_59_KB<br>
//`define PMEM_SIZE_55_KB<br>
//`define PMEM_SIZE_54_KB<br>
//`define PMEM_SIZE_51_KB<br>
//`define PMEM_SIZE_48_KB<br>
//`define PMEM_SIZE_41_KB<br>
//`define PMEM_SIZE_32_KB<br>
//`define PMEM_SIZE_24_KB<br>
//`define PMEM_SIZE_16_KB<br>
//`define PMEM_SIZE_12_KB<br>
//`define PMEM_SIZE_8_KB<br>
//`define PMEM_SIZE_4_KB<br>
`define PMEM_SIZE_2_KB<br>
//`define PMEM_SIZE_1_KB<br>
      <br>
      <br>
// Data Memory Size:<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
Uncomment the required memory size<br>
//-------------------------------------------------------<br>
//`define DMEM_SIZE_CUSTOM<br>
//`define DMEM_SIZE_32_KB<br>
//`define DMEM_SIZE_24_KB<br>
//`define DMEM_SIZE_16_KB<br>
//`define DMEM_SIZE_10_KB<br>
//`define DMEM_SIZE_8_KB<br>
//`define DMEM_SIZE_5_KB<br>
//`define DMEM_SIZE_4_KB<br>
//`define DMEM_SIZE_2p5_KB<br>
//`define DMEM_SIZE_2_KB<br>
//`define DMEM_SIZE_1_KB<br>
//`define DMEM_SIZE_512_B<br>
//`define DMEM_SIZE_256_B<br>
`define DMEM_SIZE_128_B<br>
      <br>
      <br>
// Include/Exclude Hardware Multiplier<br>
`define MULTIPLIER<br>
      <br>
      <br>
// Include/Exclude Serial Debug interface<br>
`define DBG_EN<br>
      </code></td></tr></tbody></table><br><br>
The only design considerations at this stage are:
<ul>
	<li>Make sure that the program and data memories have the correct size :-P</li>
	<li>The sum of program, data and peripheral memory space <b>MUST NOT</b> exceed 64 kB</li>
</ul>
<br> 
<b><u>Note:</u></b> when selected, full custom memory sizes can be specified in the "Expert System Configuration" section.
<br> 
<br> 
 
<a name="2.3.2 Advanced System Configuration"></a>
<h3>2.3.2 Advanced System Configuration</h3>
 
In this section, some additional features are available in order to match the needs of more experienced users.
<br><br>
<table border="0" cellpadding="0" cellspacing="4">
<tbody><tr>
<td width="35"><br>
</td>
<td bgcolor="#d0d0d0" width="3"><br>
</td>
<td width="15"><br>
</td>
<td><code>//============================================================================<br>
//============================================================================<br>
// ADVANCED SYSTEM CONFIGURATION (FOR EXPERIENCED USERS)<br>
//============================================================================<br>
//============================================================================<br>
      <br>
//-------------------------------------------------------<br>
// Custom user version number<br>
//-------------------------------------------------------<br>
// This 5 bit field can be freely used in order to allow<br>
// custom identification of the system through the debug<br>
// interface.<br>
// (see CPU_ID.USER_VERSION field in the documentation)<br>
//-------------------------------------------------------<br>
`define USER_VERSION 5'b00000<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Include/Exclude Watchdog timer<br>
//-------------------------------------------------------<br>
// When excluded, the following functionality will be<br>
// lost:<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; - Watchog (both interval and watchdog modes)<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; - NMI interrupt edge selection<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; - Possibility to generate a software PUC reset<br>
//-------------------------------------------------------<br>
`define WATCHDOG<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Include/Exclude DMA interface support<br>
//-------------------------------------------------------<br>
//`define DMA_IF_EN<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Include/Exclude Non-Maskable-Interrupt support<br>
//--------------------------------------------------------<br>
`define NMI<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Number of available IRQs<br>
//-------------------------------------------------------<br>
// Indicates the number of interrupt vectors supported<br>
// (16, 32 or 64).<br>
//-------------------------------------------------------<br>
`define IRQ_16<br>
//`define IRQ_32<br>
//`define IRQ_64<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Input synchronizers<br>
//-------------------------------------------------------<br>
// In some cases, the asynchronous input ports might<br>
// already be synchronized externally.<br>
// If an extensive CDC design review showed that this<br>
// is really the case,&nbsp; the individual synchronizers<br>
// can be disabled with the following defines.<br>
//<br>
// Notes:<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; - all three signals are all sampled in the MCLK domain<br>
//<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; - the dbg_en signal reset the debug interface<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; when 0. Therefore make sure it is glitch free.<br>
//<br>
//-------------------------------------------------------<br>
`define SYNC_NMI<br>
//`define SYNC_CPU_EN<br>
//`define SYNC_DBG_EN<br>
</code><code><br>
      <br>
</code><code>//-------------------------------------------------------<br>
// Peripheral Memory Space:<br>
//-------------------------------------------------------<br>
// The original MSP430 architecture map the peripherals<br>
// from 0x0000 to 0x01FF (i.e. 512B of the memory space).<br>
// The following defines allow you to expand this space<br>
// up to 32 kB (i.e. from 0x0000 to 0x7fff).<br>
// As a consequence, the data memory mapping will be<br>
// shifted up and a custom linker script will therefore<br>
// be required by the GCC compiler.<br>
//-------------------------------------------------------<br>
//`define PER_SIZE_CUSTOM<br>
//`define PER_SIZE_32_KB<br>
//`define PER_SIZE_16_KB<br>
//`define PER_SIZE_8_KB<br>
//`define PER_SIZE_4_KB<br>
//`define PER_SIZE_2_KB<br>
//`define PER_SIZE_1_KB<br>
`define PER_SIZE_512_B<br>
      <br>
      <br></code><code>//-------------------------------------------------------<br>
// Defines the debugger CPU_CTL.RST_BRK_EN reset value<br>
// (CPU break on PUC reset)<br>
//-------------------------------------------------------<br>
// When defined, the CPU will automatically break after<br>
// a PUC occurrence by default. This is typically useful<br>
// when the program memory can only be initialized through<br>
// the serial debug interface.<br>
//-------------------------------------------------------<br>
`define DBG_RST_BRK_EN</code><br>
</td></tr></tbody></table><br><br>
Design consideration at this stage are:
<ul>
	<li>Setting a peripheral memory space to something else than 512B
will shift the data memory mapping up, which in turn will require the
use of a custom linker script. If you don't know what a linker script
is and if you don't want to know what it is, you should probably not
modify this section.</li>
	<li>The sum of program, data and peripheral memory space <b>MUST NOT</b> exceed 64 kB</li>
</ul>
<br>
<b><u>Note:</u></b> when selected, full custom peripheral memory space can be specified in the "Expert System Configuration" section.
<br> 
<br> 
 
<a name="2.3.3 Expert System Configuration"></a>
<h3>2.3.3 Expert System Configuration</h3>
 
In this section, you will find configuration options which are
relevant for roughly 0.1% of the users (according to a highly
reliable market analysis ;-) ).
<br><br>
<table border="0" cellpadding="0" cellspacing="4">
<tbody><tr>
<td width="35"><br>
</td>
<td bgcolor="#d0d0d0" width="3"><br>
</td>
<td width="15"><br>
</td>
<td>
	<code> //============================================================================<br>
//============================================================================<br>
// EXPERT SYSTEM CONFIGURATION ( !!!! EXPERTS ONLY !!!! )<br>
//============================================================================<br>
//============================================================================<br>
//<br>
// IMPORTANT NOTE:&nbsp; Please update following configuration options ONLY if<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
you have a good reason to do so... and if you know what<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; you are doing :-P<br>
//<br>
//============================================================================<br>
      <br>
//-------------------------------------------------------<br>
// Select serial debug interface protocol<br>
//-------------------------------------------------------<br>
//&nbsp;&nbsp;&nbsp; DBG_UART -&gt; Enable UART (8N1) debug interface<br>
//&nbsp;&nbsp;&nbsp; DBG_I2C&nbsp; -&gt; Enable I2C debug interface<br>
//-------------------------------------------------------<br>
`define DBG_UART<br>
//`define DBG_I2C<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Enable the I2C broadcast address<br>
//-------------------------------------------------------<br>
// For multicore systems, a common I2C broadcast address<br>
// can be given to all oMSP cores in order to<br>
// synchronously RESET, START, STOP, or STEP all CPUs<br>
// at once with a single I2C command.<br>
// If you have a single openMSP430 in your system,<br>
// this option can stay commented-out.<br>
//-------------------------------------------------------<br>
//`define DBG_I2C_BROADCAST<br>
      <br>
<br>
//-------------------------------------------------------<br>// Number of hardware breakpoint/watchpoint units<br>
// (each unit contains two hardware addresses available<br>
// for breakpoints or watchpoints):<br>
//&nbsp;&nbsp; - DBG_HWBRK_0 -&gt; Include hardware breakpoints unit 0<br>
//&nbsp;&nbsp; - DBG_HWBRK_1 -&gt; Include hardware breakpoints unit 1<br>
//&nbsp;&nbsp; - DBG_HWBRK_2 -&gt; Include hardware breakpoints unit 2<br>
//&nbsp;&nbsp; - DBG_HWBRK_3 -&gt; Include hardware breakpoints unit 3<br>
//-------------------------------------------------------<br>
// Please keep in mind that hardware breakpoints only<br>
// make sense whenever the program memory is not an SRAM<br>
// (i.e. Flash/OTP/ROM/...) or when you are interested<br>
// in data breakpoints.<br>
//-------------------------------------------------------<br>
//`define&nbsp; DBG_HWBRK_0<br>
//`define&nbsp; DBG_HWBRK_1<br>
//`define&nbsp; DBG_HWBRK_2<br>
//`define&nbsp; DBG_HWBRK_3<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Enable/Disable the hardware breakpoint RANGE mode<br>
//-------------------------------------------------------<br>
// When enabled this feature allows the hardware breakpoint<br>
// units to stop the cpu whenever an instruction or data<br>
// access lays within an address range.<br>
// Note that this feature is not supported by GDB.<br>
//-------------------------------------------------------<br>
//`define DBG_HWBRK_RANGE<br>
      <br>
      <br>
//-------------------------------------------------------<br>
// Custom Program/Data and Peripheral Memory Spaces<br>
//-------------------------------------------------------<br>
// The following values are valid only if the<br>
// corresponding *_SIZE_CUSTOM defines are uncommented:<br>
//<br>
//  - *_SIZE   : size of the section in bytes.<br>
//  - *_AWIDTH : address port width, this value must allow<br>
//               to address all WORDS of the section<br>
//               (i.e. the *_SIZE divided by 2)<br>
//-------------------------------------------------------<br>
<br>
// Custom Program memory (enabled with PMEM_SIZE_CUSTOM)<br>
`define PMEM_CUSTOM_AWIDTH      10<br>
`define PMEM_CUSTOM_SIZE      2048<br>
<br>
// Custom Data memory    (enabled with DMEM_SIZE_CUSTOM)<br>
`define DMEM_CUSTOM_AWIDTH       6<br>
`define DMEM_CUSTOM_SIZE       128<br>
<br>
// Custom Peripheral memory  (enabled with PER_SIZE_CUSTOM)<br>
`define PER_CUSTOM_AWIDTH        8<br>
`define PER_CUSTOM_SIZE        512<br>
<br>
<br>
//-------------------------------------------------------<br>
// ASIC version<br>
//-------------------------------------------------------<br>
// When uncommented, this define will enable the<br>
// ASIC system configuration section (see below) and<br>
// will activate scan support for production test.<br>
//<br>
// WARNING: if you target an FPGA, leave this define<br>
//&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; commented.<br>
//-------------------------------------------------------<br>
//`define ASIC<br></code></td></tr></tbody></table><br><br>
Design consideration at this stage are:
<ul>
	<li>This is the expert section... so you know what your are doing anyway, right ;-)</li>
</ul>
<br>
All remaining defines located after the ASIC section in the <b><i>openMSP430_defines.v</i></b> file are system constants and <b>MUST NOT</b> be edited.
<br> 
<br> 
 
<a name="2.3.4 Parameters For Multi-Core Systems"></a>
<h3>2.3.4 Parameters For Multi-Core Systems</h3>
 
In addition to the define file, two Verilog parameters are available to facilitate software development on multi-core systems.<br> 
For example, in a dual-core openMSP430 system, the cores can be instantiated as following:
<br>
<br>
<table border="0" cellpadding="0" cellspacing="4">
<tbody><tr>
<td width="35"><br></td>
<td bgcolor="#d0d0d0" width="3"><br></td>
<td width="15"><br></td>
<td>
	<code>
		          openMSP430 #(.INST_NR (<strong>0</strong>), .TOTAL_NR(<strong>1</strong>)) openMSP430_core_0 (
		      <br>...
		      <br>);
		      <br>
		      <br>openMSP430 #(.INST_NR (<strong>1</strong>), .TOTAL_NR(<strong>1</strong>)) openMSP430_core_1 (
		      <br>...
		      <br>);
	</code>
</td>
</tr>
</tbody>
</table>
<br>
The values of these parameters are then directly accessible by software through the CPU_NR register of the SFR peripheral.<br>
For example, if both cores share the same program memory, the software can take advantage of this information as following:
<br><br>
<table border="0" cellpadding="0" cellspacing="4">
<tbody><tr>
<td width="35"><br></td>
<td bgcolor="#d0d0d0" width="3"><br></td>
<td width="15"><br></td>
<td>
	<code>
		           "...
		      <br>int main(void) {
		      <br>&nbsp;&nbsp;if (CPU_NR==<strong>0x0100</strong>) {
		      <br>&nbsp;&nbsp;&nbsp;&nbsp;main_core_0();&nbsp;// Main routine call for core 0
		      <br>&nbsp;&nbsp;}
		      <br>&nbsp;&nbsp;if (CPU_NR==<strong>0x0101</strong>) {
		      <br>&nbsp;&nbsp;&nbsp;&nbsp;main_core_1();&nbsp;// Main routine call for core 1
		      <br>&nbsp;&nbsp;}
		      <br>}
		      <br>..."
	</code>
</td>
</tr>
</tbody>
</table>
<br><br>
 
<a name="2.4 Memory mapping"></a>
<h2>2.4 Memory mapping</h2>
 
As discussed earlier, the openMSP430 memory mapping is fully configurable.<br>The
basic system configuration section allows to adjust program and data
memory sizes while keeping 100% compatibility with the pre-existing
linker scripts provided by MSPGCC (or any other toolchain for that
matter).<br>
However, an increasing number of users saw the 512B space available for
peripherals in the standard MSP430 architecture as a limitation.
Therefore, the advanced system configuration section gives the
possibility to up-scale the reserved peripheral address space anywhere
between 512B and 32kB. As a consequence, the data memory space will be
shifted up, which means that the linker script of your favorite
toolchain will have to be modified accordingly.<br>
The following schematic should hopefully illustrate this:<br>
<br><br>
<img src="http://opencores.org/usercontent,img,1306066277" alt="Memory mapping" title="Memory mapping" width="80%">
<br>
<br><br>
 
<a name="2.5 Interrupt mapping"></a>
<h2>2.5 Interrupt mapping</h2>
 
The number of supported interrupts is configurable with the IRQ_xx macros.
The interrupt vectors are then mapped as following:
<br><br>
<img src="http://opencores.org/usercontent,img,1387146236" alt="Interrupt mapping" title="Interrupt mapping" width="70%">
 
<br><br>
<a name="2.6 Pinout"></a>
<h2>2.6 Pinout</h2>
 
The full pinout of the openMSP430 core is provided in the following table:
<br><br>
<table border="1">
	<tbody><tr> <td align="center"><b>Port Name</b></td> <td align="center"><b>Direction</b></td> <td align="center"><b>Width</b>    </td> <td style="vertical-align: top; text-align: center;"><span style="font-weight: bold;">Clock</span><br style="font-weight: bold;">
      <span style="font-weight: bold;">Domain</span><br>
      </td>
<td align="center"><b>Description</b></td> </tr>
 
	<tr> <td colspan="5" align="center"> <b><i>Clocks &amp; Power-Managment</i></b>                         </td></tr>
	<tr>
	     <td> cpu_en                                                           </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
<td> Enable CPU code execution (asynchronous and non-glitchy).<br>
 Set to 1 if unused.    </td>
	</tr> 
	<tr>
	     <td> dco_clk                                                          </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">-<br>
      </td>
<td> Fast oscillator (fast clock)                          </td>
	</tr> 
	<tr>
      <td style="vertical-align: top;"> lfxt_clk</td>
      <td style="vertical-align: top;">Input<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">-<br>
      </td>
<td style="vertical-align: top;"> Low frequency oscillator (typ. 32kHz)<br>
Set to 0 if unused.<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;"> mclk</td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">-<br>
      </td>
<td style="vertical-align: top;"> Main system clock</td>
    </tr>
    <tr>
      <td style="vertical-align: top;"> aclk_en</td>
      <td style="vertical-align: top;">Output</td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td style="vertical-align: top;">FPGA ONLY: ACLK enable</td>
    </tr>
    <tr>
      <td style="vertical-align: top;">smclk_en</td>
      <td style="vertical-align: top;">Output</td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td style="vertical-align: top;">FPGA ONLY: SMCLK enable</td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dco_enable<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">dco_clk<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Fast oscillator enable<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dco_wkup<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Fast oscillator wakeup (asynchronous)<br>
      </td>
    </tr>
 
	<tr>
      <td style="vertical-align: top;">lfxt_enable<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">lfxt_clk<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Low frequency oscillator enable<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;">lfxt_wkup<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Low frequency oscillator wakeup (asynchronous)<br>
      </td>
    </tr>
 
	<tr>
      <td style="vertical-align: top;">aclk<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">-<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: ACLK<br>
      </td>
    </tr>
 
	<tr>
      <td style="vertical-align: top;">smclk<br>
      </td>
      <td style="vertical-align: top;">Output<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">-<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: SMCLK<br>
      </td>
    </tr>
 
 
	<tr>
      <td style="vertical-align: top;">wkup<br>
      </td>
      <td style="vertical-align: top;">Input<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: System Wake-up (asynchronous and non-glitchy)<br>
Set to 0 if unused.<br>
      </td>
    </tr>
<tr> <td colspan="5" align="center"> <b><i>Resets</i></b>                         </td></tr>
	<tr>
	     <td> puc_rst                                                          </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Main system reset                                                </td>
   </tr>
	<tr>
	     <td> reset_n                                                          </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td> Reset Pin (active low, asynchronous and non-glitchy)                             </td>
	</tr>
 
	<tr> <td colspan="5" align="center"> <b><i>Interrupts</i></b>                     </td></tr>
	<tr>
		  <td> irq                                                              </td>
		  <td> Input                                                            </td>
		  <td> `IRQ_NR-2<b><sup><font color="#ff0000">1</font></sup></b>        </td>
		  <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Maskable interrupts (one-hot signal)                             </td>
   </tr>
	<tr> 
	     <td> nmi                                                              </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
<td> Non-maskable interrupt (asynchronous and non-glitchy)<br>
Set to 0 if unused.<br>
                            </td>
	</tr>
	<tr>
	     <td> irq_acc                                                          </td>
	     <td> Output                                                           </td>
	     <td> `IRQ_NR-2<b><sup><font color="#ff0000">1</font></sup></b>        </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Interrupt request accepted (one-hot signal)                      </td>
	</tr>
 
	<tr> <td colspan="5" align="center"> <b><i>Program Memory interface</i></b>       </td></tr>
	<tr> 
	     <td> pmem_addr                                                        </td>
	     <td> Output                                                           </td>
	     <td><small> `PMEM_AWIDTH</small> <b><sup><font color="#ff0000">1</font></sup></b> </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Program Memory address                                           </td>
	</tr>
	<tr> 
	     <td> pmem_cen                                                         </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Program Memory chip enable (low active)                          </td>
	</tr>
	<tr> 
	     <td> pmem_din                                                         </td>
	     <td> Output                                                           </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Program Memory data input (optional <b><sup><font color="#ff0000">2</font></sup></b>)</td>
	</tr>
	<tr> 
	     <td> pmem_dout                                                        </td>
	     <td> Input                                                            </td> 
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Program Memory data output                                       </td>
	</tr>
	<tr> 
	     <td> pmem_wen                                                         </td>
	     <td> Output                                                           </td>
	     <td> 2                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Program Memory write byte enable (low active) (optional <b><sup><font color="#ff0000">2</font></sup></b>) </td>
	</tr>
 
	<tr> <td colspan="5" align="center"> <b><i>Data Memory interface</i></b>          </td></tr>
	<tr>
	     <td> dmem_addr                                                        </td>
	     <td> Output                                                           </td>
	     <td><small> `DMEM_AWIDTH</small> <b><sup><font color="#ff0000">1</font></sup></b></td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Data Memory address                                              </td>
	</tr>
	<tr>
	     <td> dmem_cen                                                         </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Data Memory chip enable (low active)                             </td>
	</tr>
	<tr>
	     <td> dmem_din                                                         </td>
	     <td> Output                                                           </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Data Memory data input                                           </td>
	</tr>
	<tr>
	     <td> dmem_dout                                                        </td>
	     <td> Input                                                            </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Data Memory data output                                          </td>
	</tr>
	<tr>
	     <td> dmem_wen                                                         </td>
	     <td> Output                                                           </td>
	     <td> 2                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Data Memory write byte enable (low active)                       </td>
	</tr>
 
	<tr> <td colspan="5" align="center"> <b><i>External Peripherals interface</i></b> </td></tr>
	<tr>
	     <td> per_addr                                                         </td>
	     <td> Output                                                           </td>
	     <td> 14                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Peripheral address                                               </td>
	</tr>
	<tr>
	     <td> per_din                                                          </td>
	     <td> Output                                                           </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Peripheral data input                                            </td>
   </tr>
	<tr>
	     <td> per_dout                                                         </td>
	     <td> Input                                                            </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Peripheral data output                                           </td>
	</tr>
	<tr>
	     <td> per_en                                                           </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Peripheral enable (high active)                                  </td>
	</tr>
	<tr>
	     <td> per_we                                                           </td>
	     <td> Output                                                           </td>
	     <td> 2                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Peripheral write enable (high active)                            </td>
	</tr>
	<tr> <td colspan="5" align="center"> <b><i>Direct Memory Access interface</i></b> </td></tr>
	<tr>
	     <td> dma_addr                                                         </td>
	     <td> Input                                                            </td>
	     <td> 15                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access address                                              </td>
	</tr>
	<tr>
	     <td> dma_din                                                          </td>
	     <td> Input                                                            </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access data input                                           </td>
   </tr>
	<tr>
	     <td> dma_dout                                                         </td>
	     <td> Output                                                           </td>
	     <td> 16                                                               </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access data output                                          </td>
	</tr>
	<tr>
	     <td> dma_en                                                           </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access enable (high active)                                 </td>
	</tr>
	<tr>
	     <td> dma_priority                                                     </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access priority (0:low / 1:high)                            </td>
	</tr>
	<tr>
	     <td> dma_ready                                                        </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access is complete                                          </td>
	</tr>
	<tr>
	     <td> dma_resp                                                         </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access response (0:Okay / 1:Error)                          </td>
	</tr>
	<tr>
	     <td> dma_we                                                           </td>
	     <td> Input                                                            </td>
	     <td> 2                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Direct Memory Access write byte enable (high active)                      </td>
	</tr>
	<tr>
	     <td> dma_wkup                                                         </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td> ASIC ONLY: DMA Wake-up (asynchronous and non-glitchy)                     </td>
	</tr>
 
	<tr> <td colspan="5" align="center"> <b><i>Serial Debug interface</i></b>         </td></tr>
	<tr> 
	     <td> dbg_en                                                           </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
 
or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
<td> Debug interface enable (asynchronous) <b><sup><font color="#ff0000">3</font></sup></b> </td>
	</tr>
	<tr> 
	     <td> dbg_freeze                                                       </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Freeze peripherals                                               </td>
	</tr>
	<tr> 
	     <td> dbg_uart_txd                                                     </td>
	     <td> Output                                                           </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">mclk<br>
      </td>
<td> Debug interface: UART TXD                                        </td>
	</tr>
	<tr> 
	     <td> dbg_uart_rxd                                                     </td>
	     <td> Input                                                            </td>
	     <td> 1                                                                </td>
	     <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
      </td>
<td> Debug interface: UART RXD (asynchronous)                         </td>
	</tr><tr>
      <td style="vertical-align: top;">dbg_i2c_addr<br>
      </td>
      <td style="vertical-align: top;"> Input</td>
      <td style="vertical-align: top;"> 7</td>
      <td style="vertical-align: top; text-align: center;">mclk</td>
      <td style="vertical-align: top;">Debug interface: I2C Address<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dbg_i2c_broadcast<br>
      </td>
      <td style="vertical-align: top;"> Input</td>
      <td style="vertical-align: top;"> 7</td>
      <td style="vertical-align: top; text-align: center;">mclk</td>
      <td style="vertical-align: top;">Debug interface: I2C Broadcast Address (for multicore systems)<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dbg_i2c_scl<br>
      </td>
      <td style="vertical-align: top;"> Input</td>
      <td style="vertical-align: top;"> 1</td>
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;</td>
      <td style="vertical-align: top;">Debug interface: I2C SCL (asynchronous)</td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dbg_i2c_sda_in<br>
      </td>
      <td style="vertical-align: top;"> Input</td>
      <td style="vertical-align: top;"> 1</td>
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;</td>
      <td style="vertical-align: top;">Debug interface: I2C SDA IN (asynchronous)</td>
    </tr>
    <tr>
      <td style="vertical-align: top;">dbg_i2c_sda_out<br>
      </td>
      <td style="vertical-align: top;"> Output</td>
      <td style="vertical-align: top;"> 1</td>
      <td style="vertical-align: top; text-align: center;">mclk</td>
      <td style="vertical-align: top;">Debug interface: I2C SDA OUT<br>
      </td>
    </tr>
<tr align="center">
      <td colspan="5" rowspan="1" style="vertical-align: top;"><b><i>Scan</i></b></td>
    </tr>
    <tr>
      <td style="vertical-align: top;">scan_enable<br>
      </td>
      <td style="vertical-align: top;">Input<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">dco_clk<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Scan enable (active during scan shifting)<br>
      </td>
    </tr>
    <tr>
      <td style="vertical-align: top;">scan_mode<br>
      </td>
      <td style="vertical-align: top;">Input<br>
      </td>
      <td style="vertical-align: top;">1<br>
      </td>
      <td style="vertical-align: top; text-align: center;">&lt;stable&gt;<br>
      </td>
<td style="vertical-align: top;">ASIC ONLY: Scan mode<br>
      </td>
    </tr>
 
</tbody></table> 
<br>
<b><sup><font color="#ff0000">1</font></sup></b>: This parameter is declared in the "openMSP430_defines.v" file and defines the RAM/ROM size or the number of interrupts vectors (16, 32 or 64).<br>
<b><sup><font color="#ff0000">2</font></sup></b>: 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.<br>
<b><sup><font color="#ff0000">3</font></sup></b>: When disabled, the debug interface is hold into reset (and clock gated in ASIC mode). As a consequence, the <b><i>dbg_en</i></b> port can be used to reset the debug interface without disrupting the CPU execution.<br>
<b><sup><font color="#ff0000">4</font></sup></b>: Clock domain is selectable through configuration in the "openMSP430_defines.v" file (see Advanced System Configuration).<br>
<br>
<span style="text-decoration: underline; font-weight: bold;">Note:</span> in the FPGA configuration, the <span style="font-style: italic;">ASIC ONLY</span> signals must be left unconnected (for the outputs) and tied low (for the inputs).<br>
 
<a name="2.7 Instruction Cycles and Lengths"></a>
<h2>2.7 Instruction Cycles and Lengths</h2>
 
Please note that a detailed description of the instruction and addressing modes can be found in the <b><a href="http://www.ti.com/litv/pdf/slau049f">MSP430x1xx Family User's Guide</a></b> (Chapter 3).<br><br>
The number of CPU clock cycles required for an instruction depends on
the instruction format and the addressing modes used, not the
instruction itself.<br>
In the following tables, the number of clock cycles refers to the main clock (<i>MCLK</i>).
Differences with the original MSP430 are highlighted in green (the original value being red).
<ul>
	<li><b>Interrupt and Reset Cycles</b></li>
</ul>
<table border="1">
	<tbody><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>
	<tr> <td> Return from interrupt (RETI) </td> <td align="center">       5            </td> <td align="center">           1                </td> </tr>
	<tr> <td> Interrupt accepted           </td> <td align="center">       6            </td> <td align="center">           -                </td> </tr>
	<tr> <td> WDT reset                    </td> <td align="center">       4            </td> <td align="center">           -                </td> </tr>
	<tr> <td> Reset (!RST/NMI)             </td> <td align="center">       4            </td> <td align="center">           -                </td> </tr>
</tbody></table>
 
<ul>
	<li><b>Format-II (Single Operand) Instruction Cycles and Lengths</b></li>
</ul>
<table border="1">
	<tbody><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>
	<tr>                                                              <td><b>RRA, RRC, SWPB, SXT</b></td> <td><b>PUSH</b></td> <td><b>CALL</b></td> </tr>
 
	<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>
	<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>
	<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>
	<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>
	<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>
	<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>
	<tr> <td align="center"> &amp;EDE  </td> <td align="center"> 4   </td> <td align="center"> 5 </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
</tbody></table>
 
<ul>
	<li><b>Format-III (Jump) Instruction Cycles and Lengths</b></li>
</ul>
All jump instructions require one code word, and take two CPU cycles to execute, regardless of whether the jump is taken or not.
 
<ul>
	<li><b>Format-I (Double Operand) Instruction Cycles and Lengths</b></li>
</ul>
<table border="1">
	<tbody><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>
	<tr> <td align="center"><b>Src</b></td> <td align="center"><b>Dst</b></td> </tr>
 
	<tr> <td rowspan="5" align="center"> Rn    </td> <td align="center"> Rm    </td> <td align="center"> 1 </td> <td align="center"> 1 </td> </tr>
	<tr>                                             <td align="center"> PC    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 4 </td> <td align="center"> 2 </td> </tr>
	<tr> <td rowspan="5" align="center"> @Rn   </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
	<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>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr> <td rowspan="5" align="center"> @Rn+  </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 1 </td> </tr>
	<tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 1 </td> </tr>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 5 </td> <td align="center"> 2 </td> </tr>
	<tr> <td rowspan="5" align="center"> #N    </td> <td align="center"> Rm    </td> <td align="center"> 2 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 5 </td> <td align="center"> 3 </td> </tr>
	<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>
	<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>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr> <td rowspan="5" align="center"> EDE   </td> <td align="center"> Rm    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
	<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>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr> <td rowspan="5" align="center"> &amp;EDE  </td> <td align="center"> Rm    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> PC    </td> <td align="center"> 3 </td> <td align="center"> 2 </td> </tr>
	<tr>                                             <td align="center"> x(Rm) </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> EDE   </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
	<tr>                                             <td align="center"> &amp;EDE  </td> <td align="center"> 6 </td> <td align="center"> 3 </td> </tr>
</tbody></table>
 
<a name="2.8 Serial Debug Interface"></a>
<h2>2.8 Serial Debug Interface</h2>
 
All the details about the Serial Debug Interface are located <a href="http://opencores.org/project,openmsp430,serial%20debug%20interface">here</a>.<br>
<br>
 
<a name="2.9 Benchmark results"></a>
<h2>2.9 Benchmark results</h2>
 
<a name="2.9.1 Dhrystone"></a>
<h3>2.9.1 Dhrystone (DMIPS/MHz)</h3>
Dhrystone is known for being susceptible to compiler optimizations (among other issues).<br>However,
as it is still quite a popular metric, some results are provided here
(ranging from 0.30 to 0.45 DMIPS/MHz depending on the compiler version
and options).<br>
Note that the used C-code is available in the repository <a href="http://opencores.org/websvn,listing?repname=openmsp430&amp;path=%2Fopenmsp430%2Ftrunk%2Fcore%2Fsim%2Frtl_sim%2Fsrc-c%2Fdhrystone_v2.1%2F#path_openmsp430_trunk_core_sim_rtl_sim_src-c_dhrystone_v2.1_">here</a> and <a href="http://opencores.org/websvn,listing?repname=openmsp430&amp;path=%2Fopenmsp430%2Ftrunk%2Fcore%2Fsim%2Frtl_sim%2Fsrc-c%2Fdhrystone_4mcu%2F#path_openmsp430_trunk_core_sim_rtl_sim_src-c_dhrystone_4mcu_">here</a>.<br>
<br>
 
<table style="text-align: left; width: 40%;" border="1" cellpadding="2" cellspacing="2">
  <tbody>
    <tr>
      <td style="text-align: center;" colspan="1" rowspan="2"><span style="font-weight: bold;">Dhrystone flavor</span></td>
      <td style="font-weight: bold; text-align: right;">Compiler options</td>    
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-Os</td>
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-O2</td>
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-O3</td>
    </tr>
    <tr align="left">
      <td style="font-weight: bold;">Compiler version
      </td>
    </tr>
    <tr>
      <td style="text-align: center;" colspan="1" rowspan="2">Dhrystone v2.1<br>
                     (<a href="http://ftp.unicamp.br/pub/unix-c/benchmark/system/">common version</a>)</td>
      <td style="text-align: left;">mspgcc v4.4.5</td>
      <td style="text-align: center;">0.30</td>
      <td style="text-align: center;">0.32</td>
      <td style="text-align: center;">0.33</td>
    </tr>
    <tr>
      <td style="text-align: left;">mspgcc v4.6.3</td>
      <td style="text-align: center;">0.37</td>
      <td style="text-align: center;">0.39</td>
      <td style="text-align: center;">0.40</td>
    </tr>
    <tr>
      <td style="text-align: center;" colspan="1" rowspan="2">Dhrystone v2.1<br>
                     (<a href="http://www.ecrostech.com/Other/Resources/Dhrystone.htm">MCU adapted</a>)</td>
      <td style="text-align: left;">mspgcc v4.4.5</td>
      <td style="text-align: center;">0.30</td>
      <td style="text-align: center;">0.30</td>
      <td style="text-align: center;">0.31</td>
    </tr>
    <tr>
      <td style="text-align: left;">mspgcc v4.6.3</td>
      <td style="text-align: center;">0.37</td>
      <td style="text-align: center;">0.44</td>
      <td style="text-align: center;">0.45</td>
    </tr>
  </tbody>
</table>
 
<a name="2.9.2 CoreMark"></a>
<h3>2.9.2 CoreMark (CoreMark/MHz)</h3>
CoreMark tries to address most of Dhrystone's pitfall by preventing the
compiler to optimize some code away and using "real-life" algorithm.<br>
Note that the used C-code is available in the repository <a href="http://opencores.org/websvn,listing?repname=openmsp430&amp;path=%2Fopenmsp430%2Ftrunk%2Fcore%2Fsim%2Frtl_sim%2Fsrc-c%2Fcoremark_v1.0%2F#path_openmsp430_trunk_core_sim_rtl_sim_src-c_coremark_v1.0_">here</a>.<br>
<br>
 
<table style="text-align: left; width: 40%;" border="1" cellpadding="2" cellspacing="2">
  <tbody>
    <tr>
      <td style="text-align: center;" colspan="1" rowspan="2"><br>
</td>
      <td style="font-weight: bold; text-align: right;">Compiler options</td>
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-Os</td>
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-O2</td>
      <td colspan="1" rowspan="2" style="vertical-align: top; text-align: center; font-weight: bold;">-O3</td>
    </tr>
    <tr align="left">
      <td style="font-weight: bold;">Compiler version</td>
    </tr>
    <tr>
      <td style="text-align: center;" colspan="1" rowspan="2">CoreMark v1.0<br>
                     (<a href="http://www.coremark.org/">official version</a>)</td>
      <td style="text-align: left;">mspgcc v4.4.5</td>
      <td style="text-align: center;">0.78</td>
      <td style="text-align: center;">0.85</td>
      <td style="text-align: center;">0.83</td>
    </tr>
    <tr>
      <td style="text-align: left;">mspgcc v4.6.3</td>
      <td style="text-align: center;">0.74</td>
      <td style="text-align: center;">0.91</td>
      <td style="text-align: center;">0.87</td>
    </tr>
  </tbody>
</table>
<br><br>
</body></html>

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