HS2633REPI61H-U Renesas Electronics America, HS2633REPI61H-U Datasheet
HS2633REPI61H-U
Specifications of HS2633REPI61H-U
Related parts for HS2633REPI61H-U
HS2633REPI61H-U Summary of contents
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To our customers, Old Company Name in Catalogs and Other Documents st On April 1 , 2010, NEC Electronics Corporation merged with Renesas Technology Corporation, and Renesas Electronics Corporation took over all the business of both companies. Therefore, although the ...
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All information included in this document is current as of the date this document is issued. Such information, however, is subject to change without any prior notice. Before purchasing or using any Renesas Electronics products listed herein, please confirm ...
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... H8S/2633 E6000 Emulator User’s Manual Renesas Microcomputer Development Environment System H8S Family / H8S/2600 Series H8S Family / H8S/2200 Series HS2633REPI61HE-U2 Rev.3.00 2005.11 ...
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Keep safety first in your circuit designs! 1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead ...
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IMPORTANT INFORMATION • READ this user's manual before using this emulator product. • KEEP the user's manual handy for future reference. Do not attempt to use the emulator product until you fully understand its mechanism. Emulator Product: Throughout this document, ...
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LIMITED WARRANTY Renesas warrants its emulator products to be manufactured in accordance with published specifications and free from defects in material and/or workmanship. Renesas, at its option, will repair or replace any emulator products returned intact to the factory, transportation ...
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State Law: Some states do not allow the exclusion or limitation of implied warranties or liability for incidental or consequential damages, so the above limitation or exclusion may not apply to you. This warranty gives you specific legal rights, and ...
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READ this user's manual before using this emulator product. • KEEP the user's manual handy for future reference. Do not attempt to use the emulator product until you fully understand its mechanism. DEFINITION OF SIGNAL WORDS This is the ...
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Observe the precautions listed below. Failure will result in a FIRE HAZARD and will damage the user system and the emulator product or will result in PERSONAL INJURY. The USER PROGRAM will be LOST not ...
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This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment ...
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The E6000 emulator is an advanced realtime in-circuit emulator, which allows programs to be developed and debugged for the H8S family microcomputers. The E6000 emulator can either be used without a user system, for developing and debugging software, or connected ...
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This manual contains the following information. Emulator Debugger Part: Preparation before use, E6000 emulator functions, debugging function, tutorial, and hardware and software specifications of the E6000 emulator. Refer to the High-performance Embedded Workshop User's Manual for details on the information ...
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Emulator Debugger Part Section 1 Overview........................................................................................... 1 1.1 Features ............................................................................................................................. 1 1.2 Warnings ........................................................................................................................... 2 1.3 Environmental Conditions ................................................................................................ 3 1.4 Emulator External Dimensions and Mass ......................................................................... 3 Section 2 Preparation before Use...................................................................... 5 2.1 Emulator Preparation ........................................................................................................ 5 2.2 ...
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Probes .................................................................................................................. 23 3.4 Stack Trace Function ........................................................................................................... 23 3.5 Online Help.......................................................................................................................... 23 Section 4 Preparation before Use ......................................................................25 4.1 Method for Activating High-performance Embedded Workshop..................................... 25 4.1.1 Creating a New Workspace (Toolchain Not Used).............................................. 26 4.1.2 Creating a ...
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Disabling an Event Point...................................................................................... 73 5.7.13 Deleting an Event Point ....................................................................................... 73 5.7.14 Deleting All Event Points .................................................................................... 73 5.7.15 Viewing the Source Line for an Event Point........................................................ 73 5.8 Viewing the Trace Information ......................................................................................... 74 5.8.1 Opening the ...
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Displaying a Trace (when Time Stamping is Available) ..................................... 156 6.16.3 Statistics............................................................................................................... 160 6.16.4 Function Calls ...................................................................................................... 164 6.17 Stack Trace Function ......................................................................................................... 165 6.18 Performance Measurement Function ................................................................................. 167 6.18.1 Time Of Specified Range Measurement .............................................................. 167 6.19 ...
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Emulator Debugger Part ...
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...
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Features • The breakpoint, memory map, performance, and trace can be set through the dialog box. ⎯ Intuitive user interface ⎯ Online help ⎯ Common display and operability • Supported host interfaces The PCI interface, PC card (PCMCIA) interface, ...
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Warnings READ the following warnings before using the emulator product. Incorrect operation will damage the user system and the emulator product. The USER PROGRAM will be LOST. 1. Check all components against the component list after unpacking the emulator. ...
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Environmental Conditions Observe the conditions listed in table 1.1 when using the emulator. Failure will cause illegal operation in the user system, the emulator product, and the user program. Table 1.1 Environmental Conditions Item Specifications Temperature ...
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4 ...
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Section 2 Preparation before Use 2.1 Emulator Preparation Unpack the emulator and prepare it for use as follows: READ the reference sections shaded in figure 2.1 before using the emulator product. Incorrect operation will damage the user system and the ...
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Connecting to the User System To connect the emulator to a user system, proceed as follows: • Connect the user system interface cable head to the user system. • Plug the cable body into the emulator. • Plug the ...
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Screw the cable head to the socket with the screws provided. Progressively tighten the screws in the sequence shown in figure 2.4 until all are ‘finger tight’. Figure 2.4 Sequence of Screw Tightening Note: Be careful not to over-tighten ...
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Power Supply 2.4.1 AC Adapter The AC adapter supplied with the emulator must be used at all times. 2.4.2 Polarity Figure 2.6 shows the polarity of the power-supply plug. Figure 2.6 Polarity of Power Supply Plug 2.4.3 Power Supply ...
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Hardware Interface All signals are directly connected to the MCU in the emulator with no buffering with the exception of those listed in section 7, Hardware Specifications Specific to This Product. 2.6.1 Signal Protection on the emulator All signals ...
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The interface circuit for the external probe 1 is shown in figure 2.8. HD151015 Figure 2.8 Interface Circuit for External Probe 1 The trigger output is controlled by event channel 8 and is an active low signal. The trigger output ...
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Voltage Follower Circuit 1. Do not connect the user system interface cable to the emulator without user system connection. 2. Turn on the user system before starting up the emulator. A voltage follower circuit is implemented on the emulator ...
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System Check When the software is executed, use the procedure below to check that the emulator is connected correctly. Here, use the workspace for a tutorial provided on the product. Refer to section 2.9, Other Methods for Activating the ...
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The [Welcome!] dialog box is displayed. To use a workspace for the tutorial, select the [Browse to another project workspace] radio button and click the [OK] button. When the [Open Workspace] dialog box is opened, specify the following directory: ...
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When no compiler package or that of a different version is installed, the following message box will be displayed. 6. The [E6000 Driver Details] dialog box is displayed. This dialog box is only displayed at the first initiation. When only ...
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Set up the emulator. During this process, the following dialog box is displayed. Figure 2.16 [Connecting] Dialog Box 15 ...
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When "Connected" is displayed in the [Output] window of the High-performance Embedded Workshop, the emulator initiation is completed. Figure 2.17 High-performance Embedded Workshop Window 16 ...
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Communication Problems The following message box will be displayed when the emulator power is turned off or the PC interface cable is not correctly connected. For information on other errors, refer to the Setup Guide for the E6000 Emulator. ...
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Section 3 E6000 Emulator Functions 3.1 Debugging Features 3.1.1 Breakpoints The emulator provides a comprehensive range of alternative types of breakpoints, to give you the maximum flexibility in debugging applications and user system. Hardware Break Conditions break ...
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Bus Monitoring The emulator incorporates a bus monitoring function that monitors and displays the contents of the accessed area in High-performance Embedded Workshop windows without stopping the program execution eight blocks of 256 bytes can be monitored. ...
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Range Channels The range channels can be set triggered on a combination of one or more of the following: • Address or address range (inside the range) • Read or Write or either • Data, with ...
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Hardware Features 3.3.1 Memory The emulator provides standard emulation memory as the substitute for on-chip ROM memory and on-chip RAM memory. When a device type or device mode without an on-chip ROM or on-chip RAM is selected, the standard ...
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Clocks The clock can be specified as emulator internal clock or target clock. The frequencies that can be specified as the emulator internal clock depend on the MCU. For details, refer to section 8, Software Specifications Specific to This ...
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24 ...
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Section 4 Preparation before Use 4.1 Method for Activating High-performance Embedded Workshop To activate the High-performance Embedded Workshop, follow the procedure listed below. 1. Connect the emulator to the host computer. 2. Connect the user system interface cable to the ...
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Creating a New Workspace (Toolchain Not Used the [Welcome!] dialog box that is displayed when the High-performance Embedded Workshop is activated, select [Create a new project workspace] radio button and click the [OK] button. 26 Figure 4.2 ...
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Creation of a new workspace is started. The following dialog box is displayed. Figure 4.3 [New Project Workspace] Dialog Box [Workspace Name] edit box: Enter the new workspace name. [Project Name] edit box: Enter the project name. When the ...
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Select the target platform of the session file. The following dialog box is displayed. Figure 4.4 [New Project – Step 7] Dialog Box The target platform for the session file used when the High-performance Embedded Workshop is activated must ...
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Set the configuration file name. Figure 4.5 [New Project – Step 8] Dialog Box If multiple target platforms were selected in the [New Project – Step 7] dialog box shown in figure 4.5, set the name of a configuration ...
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Creating a New Workspace (Toolchain Used the [Welcome!] dialog box that is displayed when the High-performance Embedded Workshop is activated, select [Create a new project workspace] radio button and click the [OK] button. 30 Figure 4.6 [Welcome!] ...
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Creation of a new workspace is started. The following dialog box is displayed. Figure 4.7 [New Project Workspace] Dialog Box [Workspace Name] edit box: Enter the new workspace name. Here, enter ‘test’. [Project Name] edit box: Enter the project ...
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Make the required setting for the toolchain. When the setting has been completed, the following dialog box is displayed. Figure 4.8 [New Project – Step 7] Dialog Box The target platform for the session file used when the High-performance ...
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Set the configuration file name. Figure 4.9 [New Project – Step 8] Dialog Box If multiple target platforms were selected in the [New Project – Step 7] dialog box shown in figure 4.9, set the name of a configuration ...
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Selecting an Existing Workspace 1. In the [Welcome!] dialog box that is displayed when the High-performance Embedded Workshop is activated, select [Browse to another project workspace] radio button and click the [OK] button. 2. The [Open Workspace] dialog box ...
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Connecting the Emulator Select either of the following two ways to connect the emulator: (a) Connecting the emulator after the setting at emulator activation Select [Debug -> Debug Settings…] to open the [Debug Settings] dialog box possible ...
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Reconnecting the Emulator When the emulator is disconnected, use the following way for reconnection: Select [Debug -> Connect] or click the [Connect] toolbar button ( Note: Before reconnecting the emulator, a load module must be registered to the High-performance ...
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This section describes the debugging operations and their related windows and dialog boxes. Refer to the High-performance Embedded Workshop user's manual about High-performance Embedded Workshop common functions as below. ⎯ Preparations for Debugging ⎯ Viewing a Program ⎯ Operating Memory ...
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Setting the Environment for Emulation 5.1.1 Opening the [Configuration Properties] Dialog Box Selecting [Setup -> Emulator -> System…] or clicking the [Emulator System] toolbar button ( Configuration Properties] dialog box. Figure 5.1 [Configuration Properties] Dialog Box ([General] Page) This ...
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Resolution] [Enable read and write on the fly] [Break on access error] [Enable internal ROM area write] [User VCC Threshold] [User Signals] [Driver] [Change driver in start up] Note: The items that can be ...
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Selecting an MCU Not Included in the List Selecting [Custom] in [Device] of the [Configuration Properties] dialog box adds the [Custom Device] page to the dialog box. Figure 5.2 [Configuration Properties] Dialog Box ([Custom Device] Page) Use this page ...
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Selecting the Interface to be Connected Checking [Change driver in start up] on the [Configuration Properties] dialog box allows a selection of the driver next time the emulator is connected. Figure 5.3 [Driver Details] Dialog Box [Driver]: Selects the ...
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Opening the [Memory Mapping] Dialog Box Selecting [Setup -> Emulator -> Memory Resource…] or clicking the [Emulator Memory Resource] toolbar button ( ) opens the [Memory Mapping] dialog box. Figure 5.4 [Memory Mapping] Dialog Box This dialog box displays ...
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Changing the Memory Map Setting Clicking the [Add…] button on the [Memory Mapping] dialog box or clicking the [Modify…] button after selecting the information on the memory map setting you want to change opens the [Edit Memory Mapping] dialog ...
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Downloading a Program This section describes how to download a program and view it as source code or assembly-language mnemonics. Note: After a break occurs, the High-performance Embedded Workshop displays the location of the program counter (PC) on the ...
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Viewing the Source Code To view a source file’s code, double-click on its icon in the file tree, or right-click on the source file and select the [Open] option on the pop-up menu. The [Editor] window is displayed. In ...
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Source Address column When a program is downloaded, an address for the current source file is displayed on the Source address column. These addresses are helpful when setting the PC value or a breakpoint. Event column The Event column displays ...
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To switch off a column in all source files 1. Right-click on the [Editor] window or select the [Edit] menu. 2. Click the [Define Column Format…] menu item. 3. The [Global Editor Column States] dialog box is displayed ...
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Viewing the Assembly-Language Code If you have a source file open, right-click to open the pop-up menu and select the [View Disassembly] option to open a Disassembly view at the same address as the current Source view ...
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Modifying the Assembly-Language Code You can modify the assembly-language code by double-clicking on the instruction that you want to change. The [Assembler] dialog box will be opened. The address, instruction code, and mnemonic are displayed. Enter the new instruction ...
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Viewing the Current Status Choose [View -> CPU -> Status] or click the [View Status] toolbar button ( see the current status of the debugging platform. The [Status] window has three sheets: • [Memory] sheet Contains information about the ...
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Reading and Displaying the Emulator Information Regularly Use the [Extended Monitor] window to know the changing information on the emulator no matter the user program is running or halted. Note: The Extended Monitor function does not affect the execution ...
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Selecting Items to be Displayed Selecting [Properties…] from the popup menu displays the [Extended Monitor Configuration] dialog box. Figure 5.13 [Extended Monitor Configuration] Dialog Box This dialog box allows the user to set the items to be displayed in ...
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Displaying Memory Contents in Realtime Use the [Monitor] window to monitor the memory contents during user program execution. In the Monitor function, the realtime operation is retained since the bus monitoring circuit of the emulator sets the read/write signal ...
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Decides the name of the monitor window. [Options]: Sets monitor conditions. [Address]: [Size]: [Access]: [Auto-Refresh at rate (ms)]: [Reading the Initial Value]: [Color]: Sets the method to update monitoring and the attribute of colors. [Change Indicator]: [Foreground]: [Background]: [Mayfly]: ...
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During user program execution, the display is updated according to the setting value of the auto-update interval. Note: Select [Refresh] from the popup menu when data is not displayed correctly after changing the address or content of memory. 5.5.2 Changing ...
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Hiding the [Monitor] Window When using the Monitor function to monitor the value of a variable from the [Watch] window, hide the [Monitor] window for the effective use of the screen. The current monitoring information is listed as the ...
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Managing the [Monitor] Window Selecting [Display -> CPU -> Monitor -> Windows Select…] displays the [Windows Select] dialog box. In this window, the current monitoring condition is checked and the new monitoring condition is added, edited, and deleted in ...
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Viewing the Variables This section describes how you can look at variables in the source program. 5.6.1 [Watch] Window You can view any value in the [Watch] window. The [R] mark shows that the value of the variable can ...
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Read the memory content directly from the High-performance Embedded Workshop to update the values without halting the user program since the bus mastership is owned by the emulator Note: While the emulator reserves the bus mastership, the realtime operation ...
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Using the Event Points The emulator has the event point function that performs breaking, tracing, and execution time measurement by specifying higher-level conditions along with the software breakpoints standard for the High-performance Embedded Workshop. 5.7.1 Software Breakpoints When the ...
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A maximum of eight points can be used as a combination in a sequence. The program is activated or halted by an occurrence of the previous event in each sequence. Range Channels (Ch9 to Ch12): The emulator has 4 range ...
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Table 5.2 Area Signals Acquired by the Emulator Area Trace Display (Status) On-chip ROM ROM On-chip RAM RAM On-chip I/O 16bit I/O-16 On-chip I/O 8bit I/O-8 External I/O 16bit EXT-16 External I/O 8bit EXT-8 DTC RAM RAM/DTC Note: The signals ...
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Select [Add...] or the software breakpoint displayed in this window and then select [Edit...] from the popup menu to display the [Breakpoint/Event Properties] dialog box. Figure 5.20 [Breakpoint/Event Properties] Dialog Box (Setting a Software Break) In this dialog box, select ...
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Setting Event Points On the [Event] sheet, the settings for event points are displayed, modified, and added. Figure 5.21 [Event] Window ([Event] Sheet) Select [Add...] or the event point displayed in this window and then select [Edit...] from the ...
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The address and data conditions are set. Figure 5.22 [Breakpoint/Event Properties] Dialog Box ([General] Page) [Type]: Select the type of a breakpoint. Note that the [Breakpoint/Event Properties] dialog box is used for setting software breakpoints and event ...
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Compare]: Sets the data condition. [Compare]: Checking this box compares data. [Use Mask]: Sets a mask condition (available when [Compare] has been selected). [Value]: Specifies the data bus value as numerics. The size of data for access can also ...
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Use this page to set the bus status and the memory area being accessed. Figure 5.23 [Breakpoint/Event Properties] Dialog Box ([Bus/Area] Page) [Bus State]: Sets the bus status as the condition. When the [Don't care] check box ...
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Use this page to set external signals. Figure 5.24 [Breakpoint/Event Properties] Dialog Box ([Signals] Page) [Probe4]: Detects the status of the input probe signal 4 [High]: Detects the high level of the input probe signal [Low]: Detects ...
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Detects the status of the input probe signal 1 [High]: Detects the high level of the input probe signal [Low]: Detects the low level of the input probe signal [Don’t care]: The status of the input probe signal is ...
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Allows a 16-bit pass count to be set. The event must occur the specified number of times before the action is taken. The range of values is D’0 to D’65,535. [Enable Sequencing]: Allows the event ...
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The state where the condition is satisfied is retained until the user program is stopped or the event point is reset. When the condition on the event point is satisfied, no action will be taken even if the condition is ...
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Setting Trigger Points The trigger point is an event to output a trigger when the specified address has been accessed four trigger points can be set by using the trigger outputs (four channels) on the bus monitoring ...
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Notes: 1. When the condition set for the trigger output ( satisfied, the high-level signal will be output from the corresponding pin ( the external probe 2 (EXT2) during reading or writing. 2. Some ...
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Viewing the Trace Information The emulator acquires the results of each instruction execution into the trace buffer as trace information and displays it in the [Trace] window. The conditions for the trace information acquisition can be specified in the ...
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Bus status during this cycle; DTC operation, PROG (prefetch), Data (CPU data access cycle), Refresh (refresh cycle), or DMAC (DMAC cycle) (not available when a time stamp is acquired) [Clock]: Number of clock cycles in bus cycle as 1 ...
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Specifying Trace Acquisition Conditions The capacity of the trace buffer is limited. When the buffer becomes full, the oldest trace information is overwritten. Setting the trace acquisition condition allows acquisition of useful trace information and effective use of the ...
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Acquires no trace information of the specified types of bus cycle. [Time Stamp]: Sets a condition for time stamping. [Clock]: Select either from Disabled, 125 ns, 250 ns, 500 ns, 1 us, 2 us, 4 us, 8 us, 16 ...
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Sets trace stop conditions possible to set trace stop conditions with and without delay, with both allowed simultaneously. Figure 5.31 [Trace Acquisition] Dialog Box ([Stop] Page) [Stop Without Delay]: Defines a trace stop condition. [Enable]: ...
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Stop] page Sets trace stop conditions possible to set trace stop conditions with and without delay, with both allowed simultaneously. Figure 5.32 [Trace Acquisition] Dialog Box ([Delayed Stop] Page) [Stop With Delay]: Defines a trace stop ...
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Sets a range trace. This is only available when the free trace mode is disabled. Select either of the following four modes: [Disabled], [Point to Point], [Range], and [Event]. • Disabled Disables a range trace. ...
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Point to Point Acquires trace information in the specified range. Figure 5.34 Range Trace Setting (Point to Point) [Start Address]: Address where trace acquisition starts [Stop Address]: Address where trace acquisition stops [Cyclic]: When this box is checked, the ...
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Range Only acquires the trace information that satisfies the specified condition. Figure 5.35 Range Trace Setting (Range) [Range Event]: Selects an event point for which a trace acquisition condition has been set. [Edit…]: Changes the setting for the selected ...
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Event Acquires trace information, controlling the start and end of trace acquisition with the specified condition. Figure 5.36 Range Trace Setting (Event) [Start Event]: Selects the event point for which the condition to start trace acquisition has been set. ...
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Searching for a Trace Record Use the [Trace Find] dialog box to search for a trace record. To open this dialog box, choose [Find...] from the popup menu. The [Trace Find] dialog box has the following options: Table 5.5 ...
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Set the range for searching. Figure 5.37 [Trace Find] Dialog Box ([General] Page) [Trace search range]: Sets the range for searching. [Not designation]: [Upward search]: [Start PTR]: [End PTR]: Note: Along with setting the range for searching, ...
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Set an address condition. Figure 5.38 [Trace Find] Dialog Box ([Address] Page) [Don't care]: Detects no address when this box is checked. [Setting]: Detects the specified address. [Value]: Enter the address value (not available when [Don’t care] ...
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Set a data condition. Figure 5.39 [Trace Find] Dialog Box ([Data] Page) [Don't care]: Detects no data when this box is checked. [Setting]: Detects the specified data. [Value]: Enter the data value (not available when [Don’t care] ...
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Select the type of access cycles. Figure 5.40 [Trace Find] Dialog Box ([R/W] Page) [Don't care]: Detects no read/write condition when this box is checked. [Setting]: Detects the specified read/write condition. [String]: Select a read/write condition (not ...
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Select the area being accessed. The selection is not available when a time stamp is acquired. Figure 5.41 [Trace Find] Dialog Box ([Area] Page) [Don't care]: Detects no area condition when this box is checked. [Setting]: Detects ...
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Select the status of a bus. The selection is not available when a time stamp is acquired. Figure 5.42 [Trace Find] Dialog Box ([Status] Page) [Don't care]: Detects no bus condition when this box is checked. [Setting]: ...
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Select the status of four probe signals. The selection is not available when a time stamp is acquired. Figure 5.43 [Trace Find] Dialog Box ([Probes] Page) [Don't care]: Detects no probe signal condition when this box is ...
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Select the status of IRQ signals. The selection is not available when a time stamp is acquired. Figure 5.44 [Trace Find] Dialog Box ([IRQ7-0] Page) [Don't care]: Detects no IRQ input condition when this box is checked. ...
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Specify the time stamp value for bus cycles. The specification is not available when a time stamp is acquired. Figure 5.45 [Trace Find] Dialog Box ([Timestamp] Page) [Don't care]: Detects no time stamp value when this box ...
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Viewing the [Editor] Window The [Editor] window corresponding to the selected trace record can be displayed in the following two ways: • Select a trace record and choose [View Source] from the popup menu. • Double-click a trace record ...
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Extracting Records from the Acquired Information Use the filtering function to extract the records you need from the acquired trace information. The filtering function allows the trace information acquired by hardware to be filtered by software. Unlike the settings ...
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Set the range for filtering. Figure 5.46 [Trace Filter] Dialog Box ([General] Page) [Don't care other pages]: Only selects the cycle number when this box is checked. Other options become invalid. [Enable Filter]: Enables the filter when ...
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Set address conditions. Figure 5.47 [Trace Filter] Dialog Box ([Address] Page) [Don't care]: Detects no address when this box is checked. [Setting]: Detects the specified address. [Point]: Specifies a single address (not available when [Don’t care] has ...
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Set a data condition. Figure 5.48 [Trace Filter] Dialog Box ([Data] Page) [Don't care]: Detects no data when this box is checked. [Setting]: Detects the specified data. [Point]: Specifies single data (not available when [Don’t care] has ...
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Select the type of access cycles. Figure 5.49 [Trace Filter] Dialog Box ([R/W] Page) [Don't care]: Detects no read/write condition when this box is checked. [Setting]: Detects the specified read/write condition. RD: Detects read cycles when this ...
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Select the area being accessed. The selection is not available when a time stamp is acquired. Figure 5.50 [Trace Filter] Dialog Box ([Area] Page) [Don't care]: Detects no area condition when this box is checked. [Setting]: Detects ...
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Select the status of a bus. The selection is not available when a time stamp is acquired. Figure 5.51 [Trace Filter] Dialog Box ([Status] Page) [Don't care]: Detects no bus condition when this box is checked. [Setting]: ...
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Select the status of four probe signals. The selection is not available when a time stamp is acquired. Figure 5.52 [Trace Filter] Dialog Box ([Probes] Page) [Don't care]: Detects no probe signal condition when this box is ...
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Select the status of IRQ signals. The selection is not available when a time stamp is acquired. Figure 5.53 [Trace Filter] Dialog Box ([IRQ7-0] Page) [Don't care]: Detects no IRQ input condition when this box is checked. ...
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Specify the time stamp value for bus cycles. The specification is not available when a time stamp is acquired. Figure 5.54 [Trace Filter] Dialog Box ([Timestamp] Page) [Don't care]: Detects no time stamp value when this box ...
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Calculating the Difference in Time Stamping Select [Timestamp Difference…] from the popup menu to calculate the time difference between the two points selected by the result of tracing in acquisition of time stamp information. Figure 5.55 [Timestamp Difference] Dialog ...
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Analyzing Statistical Information Choose [Statistic] from the popup menu to open the [Statistic] dialog box and analyze statistical information under the specified conditions. [Statistic Analysis]: Setting required for analysis of statistical information. [Default]: Sets a single input value or ...
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This dialog box allows the user to analyze statistical information concerning the trace information. Set the target of analysis in [Item] and the input value or character string by [Start] and [End]. Click the [Result] button after setting a condition ...
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Analyzing Performance Use the performance analysis function to measure the rate of execution time. The performance analysis function does not affect the realtime operation because it measures the rate of execution time in the specified range by using the ...
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Table 5.8 Mode Settings for Measurement Page 1 Time Of Specified Range Ο Measurement Start Point To End Point Ο Measurement Ο Start Range To End Range Measurement Access Count Of Ο Specified Range Measurement Called Count Of Ο Specified ...
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Opening the [Performance Analysis] Window Choose [View -> Performance -> Performance Analysis] or click the [PA] toolbar button ( [Select Performance Analysis Type] dialog box. Figure 5.58 [Select Performance Analysis Type] Window Select [E6000 Performance Analysis] and then click ...
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Setting Conditions for Measurement Conditions for measurement can be displayed and changed in the [Performance Analysis] window. Select a point where a condition set, and then select [Set…] from the popup menu to display the [Performance ...
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Time Of Specified Range Measurement Figure 5.61 Time Of Specified Range Settings [Range Name]: The name of the range to be measured [Range]: The range for the Time Of Specified Range Measurement [Start Address]: [End Address]: Measures the execution ...
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Start Point To End Point Measurement Figure 5.62 Start Point To End Point Measurement Settings [Range Name]: The name of the range to be measured [Point]: The range for the Start Point To End Point Measurement [Start Address]: [End ...
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Notes: 1. When [Time Out] is selected in the Start Point To End Point Measurement mode, the execution time will not be measured correctly. 2. When [Time Out] and [Count] are selected, satisfaction of either of these options stops execution ...
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Start Range To End Range Measurement Figure 5.63 Start Range To End Range Measurement Settings [Range Name]: The name of the range to be measured [Start Range]: The start range for the Start Range To End Range Measurement [Start ...
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Access Count Of Specified Range Measurement Figure 5.64 Access Count Of Specified Range Measurement Settings [Range Name]: The name of the range to be measured [Range]: The range for the Access Count Of Specified Range Measurement [Start Address]: [End ...
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Called Count Of Specified Range Measurement Figure 5.65 Called Count Of Specified Range Measurement Settings [Range Name]: The name of the range to be measured [Range]: The range for the Called Count Of Specified Range Measurement [Start Address]: [End ...
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Selecting the Address Detection Mode and Resolution In measurement of hardware performance, there are two types of address detection modes: prefetch address detection mode and PC address detection mode. Select the appropriate address detection mode according to the measurement ...
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Introduction The following describes the main functions of the emulator by using a tutorial program. The tutorial program is based on the C++ program that sorts ten random data items in ascending or descending order. The tutorial program performs ...
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Running the High-performance Embedded Workshop Open a workspace by following the procedure listed in section 4.1.3, Selecting an Existing Workspace. Select the following directory: OS installation drive \Workspace\Tutorial\E6000\2646 Note: The file path differs depending on the product. Refer to ...
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Downloading the Tutorial Program 6.3.1 Downloading the Tutorial Program Download the object program to be debugged. • Select [Download module] from the popupmenu opened by clicking the right-hand mouse button on [Tutorial.abs] of [Download modules]. Figure 6.2 Downloading the ...
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Displaying the Source Program The High-performance Embedded Workshop allows the user to debug a user program at the source level. • Double-click [Tutorial.cpp] under [C++ source file]. Figure 6.3 [Editor] Window (Displaying the Source Program) • Select a font ...
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Setting a Software Breakpoint A software breakpoint is a simple debugging function. The [Editor] window provides a very simple way of setting a software breakpoint at any point in a program. For example, to set a software breakpoint at ...
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Setting Registers Set a value of the program counter before executing the program. • Select [Registers] from the [CPU] submenu of the [View] menu. The [Register] window is displayed. • To change the value of the program counter (PC), ...
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Executing the Program Execute the program as described in the following: • To execute the program, select [Go] from the [Debug] menu, or click the [Go] button on the toolbar. While the program is executing, the current address bus ...
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Figure 6.8 [Editor] Window (Break Status) 126 ...
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The user can see the cause of the break that occurred last time in the [Status] window. • Select [Status] from the [CPU] submenu of the [View] menu. After the [Status] window is displayed, open the [Platform] sheet, and check ...
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Reviewing Breakpoints The user can see all the breakpoints set in the program in the [Event] window. • Select [Eventpoints] from the [Code] submenu of the [View] menu. The [Event] window is displayed. Select the [Breakpoint] sheet. The popup ...
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Referring to Symbols The [Label] window can be used to display the information on symbols in modules. Select [Label] from the [Symbol] submenu of the [View] menu. The [Label] window is displayed so that the user can refer to ...
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Viewing Memory When the label name is specified, the user can view the memory contents that the label has been registered in the [Memory] window. For example, to view the memory contents corresponding to _main in byte size: • ...
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Watching Variables As the user steps through a program possible to watch that the values of variables used in the user program are changed. For example, set a watch on the long-type array a declared at the ...
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The user can also add a variable to the [Watch] window by specifying its name. • Click the [Watch] window with the right-hand mouse button and select [Add Watch…] from the popup menu. The following dialog box will be displayed. ...
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The user can click mark ‘+’ at the left side of array a in the [Watch] window to watch all the elements. Figure 6.18 [Watch] Window (Displaying Array Elements) 133 ...
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Displaying Local Variables The user can display local variables in a function using the [Locals] window. For example, we will examine the local variables in the tutorial function, which declares four local variables and p_sam. • ...
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Stepping Through a Program The High-performance Embedded Workshop provides a range of step menu commands that allow efficient program debugging. Table 6.1 Step Option Menu Command Description Step In Executes each statement, including statements within functions. Step Over Executes ...
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Figure 6.21 [Editor] Window (Step In) • The highlighted line moves to the first statement of the sort function in the [Editor] window. 136 ...
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Executing the [Step Out] Command The [Step Out] command steps out of the called function and stops at the next statement of the calling statement in the main function. • To step out of the sort function, select [Step ...
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Executing the [Step Over] Command The [Step Over] executes a function call as a single step and stops at the next statement of the main program. • To step through all statements in the change function at a single ...
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Forced Breaking of Program Executions The High-performance Embedded Workshop can force a break in the execution of a program. • Cancel all the breaks. • To execute the remaining sections of the tutorial function, select [Go] from the [Debug] ...
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Break Function The emulator’s break functions are of two types: software breaks and breaks at event points. software breakpoints and event points are set in the High-performance Embedded Workshop’s [Event] window. An overview and setting of the break function ...
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Figure 6.31 [Breakpoint/Event Properties] Dialog Box • Check the [Software Break] radio button in the [Type] group box. • Use the [Editor] window to refer to the address on the line that has ‘p_sam->s0=a[0];’ within the tutorial function and enter ...
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The software breakpoint that has been set is displayed in the [Event] window. Figure 6.32 [Event] Window (Software Breakpoint Setting) Note: The items that can be displayed in this window differ depending on the product. For the items that can ...
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Close the [Event] window. • To stop the tutorial program at the breakpoint, select [Reset Go] from the [Debug] menu. The program runs until it stops at the breakpoint that has been set. Figure 6.33 [Editor] Window at Execution ...
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The [Status] window displays the following contents: Figure 6.34 Displayed Contents of the [Status] Window (Software Break) Note: The items that can be displayed in this window differ depending on the product. For the items that can be displayed, refer ...
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Breaking Execution at Event Points Setting event point on event channel 1 (Ch1) such that a break is triggered when the event point’s conditions have been satisfied five times is explained as an example of the ...
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Figure 6.36 [General] Page ([Breakpoint/Event Properties] Dialog Box) • Click the [OK] button. The [Event] window is displayed, as shown below. Figure 6.37 [Event] Window (Setting Completed) Note: The items that can be displayed in this window differ depending on ...
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Select [Reset Go] from the [Debug] menu to stop the tutorial program at breakpoints. The program runs then stops at the condition specified under Ch1. Figure 6.38 [Editor] Window at Execution Stop 147 ...
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The [Status] window displays the following contents. Figure 6.39 Displayed Contents of the [Status] Window Refer to the [Watch] window for the value of variable i. The value is 4, indicating that the break occurred after the condition had been ...
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Trace Functions The trace functions of the emulator use the realtime trace buffer, which is able to store the information 32,768 bus cycles. The content of this buffer, which is constantly updated during execution, is displayed ...
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Displaying a Trace (when Time Stamping is not Available) The method used to specify an address as an event condition for the tracing of read/write cycles and display the trace is described below. (1) Clicking the right-hand mouse button ...
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Register an address as an event condition for trace acquisition. Click the [Add…] button in the [Trace Events] group box on the [General] page to display the [Breakpoint/Event Properties] dialog box. Figure 6.42 [Breakpoint/Event Properties] Dialog Box (3) Use ...
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The event that has been set is now displayed in the [Event] combo box of the [Trace Events] group box on the [General] page of the [Trace Acquisition] dialog box. Figure 6.44 [Trace Acquisition] Dialog Box (Adding an Event) ...
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To enable the event condition that has been set, uncheck the [Free Trace] check box on the [General] page. This will add pages [1] to [4] to the [Trace Acquisition] dialog box. Figure 6.45 [Trace Acquisition] Dialog Box (Pages ...
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Select page [1] and click the [Range] radio button in the [Conditions] group box. This will display the [Range Event] combo box and the [Edit…] button. Figure 6.46 [Trace Acquisition] Dialog Box (Displaying Page [1]) 154 ...
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Select the event you have registered from the [Range Event] combo box. The event is now enabled. Click the [OK] button to complete the trace setting. Figure 6.47 [Trace Acquisition] Dialog Box (Setting Completed) (8) Make the setting such ...
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Remove the event points that have been set and clear the trace information. Click the right-hand mouse button on the [Event] window to display a popup menu. Select [Delete All] from this menu to remove all of the event ...
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The event that has been set in the [Event] combo box of the [Trace Events] group box on the [General] page of the [Trace Acquisition] dialog box is displayed. Figure 6.50 [Trace Acquisition] Dialog Box (Adding an Event) (6) ...
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To enable the event condition that has been set, uncheck the [Free Trace] check box on the [General] page. This will add pages [1] to [4] (see figure 6.45, [Trace Acquisition] dialog box). (8) Select page [1] and click ...
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Select [Reset Go] from the [Debug] menu. Processing stops when the break condition is satisfied, and the [Trace] window then displays the following content. Figure 6.53 [Trace] Window (Displaying the Result) If you have trouble viewing a column, drag ...
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Statistics The number of times the internal RAM has been written to can be included in the acquired trace information. (1) Make the setting such that a break occurs at the address on the line that has ‘p_sam->s0=a[0];’ within ...
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Select R/W in the [Item] combo box and enter WR in the [Start] edit box. After that, click the [New] button. “R/W=WR” is now displayed in the [Condition] column of the [Result] list box. Figure 6.55 [Statistic] Dialog Box ...
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Then, select Area from the [Item] combo box and enter RAM in the [Start] edit box. After that, click the [Add] button; the new condition is now added to the “R/W=WR” display in the [Condition] column of the [Result] ...
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To start statistical analysis of the specified condition, press the [Result] button. The number of write operations that satisfy the condition and the PTR values will be displayed. Figure 6.57 [Statistic] Dialog Box (Result of Analysis) (7) Click the ...
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Function Calls This mechanism is used to only collect trace information on the function calls. (1) Make the setting such that a break occurs at the address on the line that has ‘p_sam->s0=a[0];’ within the tutorial function (H’00001082 in ...
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Stack Trace Function The emulator uses the information on the stack to display the function call history. Notes: 1. This function can be used only when the load module that has the Dwarf2-type debugging information is loaded. Such load ...
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Figure 6.61 shows that the position of the program counter is currently at the selected line of the sort() function, and that the sort() function is called from the tutorial() function. To remove the software breakpoint, double-click the [Editor] column ...
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Performance Measurement Function Performance measurement by the emulator is in the following modes: • Time Of Specified Range Measurement • Start Point To End Point Measurement • Start Range To End Range Measurement • Access Count Of Specified Range ...
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Select the line of the [Performance Analysis] window that has 1 in its [No] column and click the right-hand mouse button to display a popup menu. Select [Set…] from this popup menu to display the [Performance Analysis Properties] dialog ...
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Click the [Settings…] button in the [Common Settings of Performance(PA1-8)] group box to display the [Common Settings of Performance(PA1-8)] dialog box. Select [PC] from the [Address Control Mode] combo box and then click the [OK] button now ...
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Monitor Function The emulator allows monitoring of the content of specified addresses in memory during execution of the user program. In this example, we monitor the content of the address range where variable a of the tutorial function is ...
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Set the items in the [Monitor Setting] dialog box as follows: • Enter monitor1 in the [Name] edit box. • Set the parameters in the [Options] group box as follows: (a) Use the [Locals] window to refer to the ...
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Click the [OK] button to open the [Monitor] window. (4) Select [Reset Go] from the [Debug] menu. When the content of the address range changes with execution, the updated values are red (i.e. the color that was selected in ...
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Section 7 Hardware Specifications Specific to This Product This section describes the hardware specifications on the H8S/2633 E6000 emulator. 7.1 H8S/2633 E6000 Emulator Specifications The H8S/2633 E6000 emulator supports the system development using the following microcomputers: • H8S/2643 group • ...
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... H8S/2237 group H8S/2227 group 7 H8S/2258 group Note: Only the HS2633REPI61H can support the frequency MHz. The maximum frequency supported by the HS2633EPI61H is 25 MHz. group For details on the operating voltage and frequency specifications, refer to the MCU hardware manual. 7.2 User System Interface ...
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User System Interface Circuits The interface circuit between the MCU in the emulator and the user system has a signal delay of about 8 ns due to the user system interface cable and it includes pull-up resistors. Therefore, high-impedance ...
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AN0 to AN15, DA0 to DA1, AVcc, AVss, and Vref: MCU MCU 0.022 F Figure 7.4 User System Interface Circuit for AN0 to AN15, DA0 to DA1, AVcc, AVss, and Vref Signals IRQ0–IRQ7 and WAIT: The IRQ0 to IRQ7 and ...
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Differences between MCU and Emulator When the emulator is turned on or initialized, or the system is reset, there are some differences in the initial values in some of the general registers between the MCU and the emulator as ...
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178 ...
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... Software Specifications of the H8S/2633 E6000 Emulator Information specific to this emulator is given below. 8.1.1 Target Hardware This emulator software conforms to the H8S/2633R E6000 (HS2633REPI61H) and H8S/2633 E6000 (HS2633EPI61H) emulators. 8.1.2 Selectable Platform The debugging platforms selectable in this emulator are listed below. The MCUs that can be emulated vary according to the debugging platform selected ...
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Properties] Dialog Box ([General] Page) Items that can be set in this dialog box are listed below. Figure 8.1 [Configuration Properties] Dialog Box ([General] Page) 180 ...