Overview

Description

This product is a simulator debugger which allows you to run and evaluate your application program without any target hardware on Renesas integrated development environment "High-performance Embedded Workshop". It provides a source-level-debugging environment with abundant break features and advanced functions such as coverage measurement and virtual interrupts. In addition, its user friendly interface and multi-window (overlappable) will offer stress-free debugging environment.

This product is a component of the C Compiler Package for R32C Series. Installing the compiler package allows to debug using this simulator debugger under a High-performance Embedded Workshop environment (Renesas IDE).

Features

  • I/O script function (peripheral I/O simulation such as a timer)
  • Interrupt simulation function
  • Programming a target system using the GUI Input Window and GUI Output Window for simple targetless debugging
  • Debugging through the use of the printf() function
  • Comfortable debugging environment provided by drag & drop operation
  • C language and assembly language source level debugging and many other basic debug features
  • RAM monitoring
  • On-line help in HTML
  • Learn More

Release Information

Latest Ver.: V.1.01 Release 00

Released: Jul 16, 2009

Details of upgrade (See Tool News)

Operating Environment

Buy the product
This product is NOT available separately, but only included in the "C/C++ Compiler Package for R8C and M16C Families".
Get a free upgrade version
You can download free updates from the Auto Update Utility.

Target Devices

Downloads

Type Title Date
Software & Tools - Evaluation Software Log in to Download ZIP 96.40 MB 日本語
Software & Tools - Other Log in to Download EXE 2.32 MB 日本語
2 items

Documentation

Additional Details

Functions

Basic Functions

Functions Description
Register Window Displays/changes content of flags and registers particular to the MCU.
Memory Window Displays memory content together with the address and label. Display format can be selected from among binary, decimal, hexadecimal, ASCII, SJIS (for Japanese) or JIS (for Japanese) .
RAM Monitor Window Displays memory content changed during target program execution. The area read during program execution is displayed in green, and the area written is displayed in red. (You can set colors of your choice.)
ASM Watch Window Monitors changes in memory content and variable content declared on the assembly language level. Display format can be selected from among binary, decimal, and hexadecimal. If the specified address is within the real-time RAM area, the area read is displayed in green, and the area written is displayed in red. (You can set colors of your choice.)
C Watch Window Displays C variable contents. In addition to a window that displays variable formula of your choice, there are windows that display external variables, local variables within a file, and local variables within a function.
Stack Trace Window Displays function call information of C language.
Script Window Window for executing commands from the keyboard or script files. An area is provided for displaying command execution results and command history. Execution results can be output to a file.
S/W Break Point Setting Window Enables set / cancel the software break points. You can set up to 64 break points (OR condition).
H/W Break Point Setting Dialog Enables set / cancel the hardware break points. You can set up to 64 break points (OR condition).
Image
Basic Functions

Advanced Functions

Functions Description
I/O Timing Setting Window Inputs/outputs to a port, and sets/displays interrupts. It is also possible to check cycle-by-cycle data input, definition of interrupt, and change of output data. And, a timer interrupt occurrence at time intervals in units of msec/μsec is enabled. (Note that the CPU operating frequency need to be specified.) Besides, there is the I/O script function that can simulate peripheral I/O (timer, analog to digital converter, etc.) operation. By registering I/O script of peripheral I/O (written in script format in a file) in the I/O window, you can simulate operation of that device.
For example, to simulate timer operation, register the following script with "while" and "if":

[I/O script defining example of timer operation]
 {
  while(1){
      if( ([0x380].b & 0x01) == 0x01){
        ; Down count of Counter
          waitc [0x386].W + 1

        ; Timer interrupt occurs
          int 21,[0x55].b & 0x7
       }else{
           waiti 100
       }
  }
 }
GUI I/O Window Window for creating key input panels or output panels for the user target system by simple mouse operation.
[Input panel]: You can define operation of data input or interrupt for the created keys. Pressing the key while the program is running generates data input or interrupt.
[Output panel]: You can display by LED or label according to the value of the output data.
Output Port Window Prints a result of output using the printf() function to the window or a file.
Trace Point Setting Window Sets/cancels trace points. Can set 6 trace points maximum and specifies the combination condition of trace events. For starting and stopping events for tracing, either memory access (read/write) or instruction execution is specifiable. As a combination condition, there are AND and OR.
Trace Window Displays the results of tracing. The following three display modes are supported: Bus mode, Disassemble mode and Source mode.
Data Trace Window Graphically shows the data access information on the results of tracing.
Coverage Window Shows coverage measurement results of C language functions. Start/end addresses and coverage can be checked. Double-clicking the line to be checked opens a coverage source window to show executed/unexecuted in a line of source.
MR Window Displays the status of real-time OS M3T-MR100/4.
Image
Advanced Functions

Specifications

Functions Description
I/O simulation Data can be input/output cycle-by-cycle.
Interrupt simulation Interrupt occurrence in units of cycles or time (msec/µsec) is enabled.
Execution time measurement Execution time is worked out by the CPU operating frequency and the number of CPU execution cycles. (Note1)
Tracing feature Trace logging up to 256K cycles is possible.
RAM monitor display Any 1K byte of memory is displayable.
Coverage measurement Coverage of all memory area can be measured.

Note

  1. This simulator debugger is an instruction set simulator and does not include bus width, queue, or wait events when counting the number of cycles. Rather, it uses the values indicated in the microcomputer software manual for the number of cycles.