In-circuit emulator
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An in-circuit emulator (ICE) also called on-circuit debugger (OCD) or background debug module (BDM) is a hardware device used to debug the software of an embedded system. Embedded systems present special problems for a programmer, because they usually lack keyboards, screens, disk-drives and other helpful user interfaces and storage devices that are present on business computers.
In-circuit emulation can also refer to the use of hardware emulation, when the emulator is plugged into a system (not always embedded) in place of a yet-to-be-built chip (not always a processor). These in-circuit emulators provide a way to run the system with "live" data while still allowing relatively good debugging capabilities.
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[edit] Function
The basic idea of an "in-circuit emulator" is that it provides a window into the embedded system. The programmer uses the emulator to load programs into the embedded system, run them, step through them slowly, and see and change the data used by the system's software.
An "emulator" gets its name because it often "emulates" the central processing unit of the embedded system's computer. Often, it literally has a plug that plugs into the same socket as the CPU chip. Emulating the main computer lets it do anything that the main computer can do, but under the control of a programmer.
ICEs are always tools that attach a terminal or PC to the embedded system. The terminal or PC provides an interactive user interface for the programmer to investigate and control the embedded system.
Notably, when their program fails, most embedded systems simply become inert lumps of nonfunctioning electronics. Embedded systems often lack basic functions to detect signs of software failure, such as an MMU to catch memory access errors. Without an ICE, the development of embedded systems can be extremely difficult, because there is usually no way to tell what went wrong. With an ICE, the programmer can usually test pieces of code, then isolate the fault to a particular failing piece of code, and then inspect the failing code and rewrite it to solve the problem.
In usage, an ICE provides the programmer with execution breakpoints, memory display & monitoring, and input/output control. Beyond this, the ICE can be programmed to look for any range of matching criteria to pause at, hopefully catching the failure's origin.
[edit] Advantages
Virtually all embedded systems have a hardware element and a software element, which are separate but tightly interdependent. The ICE allows the software element to be run and tested on the actual hardware on which it is to run, but still allows programmer conveniences to help isolate faulty code, such as "source-level debugging" (which shows the program the way the programmer wrote it) and single-stepping (which lets the programmer run the program step-by-step to find errors).
Most ICEs consist of an adaptor unit that sits between the ICE host computer and the system to be tested. A header and cable assembly connects the adaptor to a socket where the actual CPU or microcontroller mounts within the embedded system. Recent ICEs enable a programmer to access the on-chip debug circuit that is integrated into the CPU via JTAG in order to debug the software of an embedded system.
The ICE emulates the CPU. From the system's point of view, it has a real processor fitted, but from the programmer's point of view the system under test is under full control, allowing the developer to load, debug and test code directly.
Most host systems are ordinary commercial computers unrelated to the CPU used for development - for example, a Windows PC might be used to develop software for a system using a Freescale 68HC11 chip, which itself could not run Windows.
The programmer usually edits and compiles the embedded system's code on the host system, as well. The host system will have special compilers that produce executable code for the embedded system. These are called cross compilers or cross assemblers.
[edit] Manufacturers
- Wind River Systems offers a development suite for JTAG-based debugging using Wind River ICE and Wind River Probe.
- Mentor Graphics
- iSYSTEM AG
- Lauterbach Datentechnik GmbH
- Cadence Design Systems makes hardware emulators with in-circuit capability.
- Embedded Toolsmiths' Guardian-SE JTAG EMULATOR Uses On-CHIP Emulation.
- American Arium provides ARM, Intel, and AMD JTAG In-Circuit Emulators and debuggers.
- Ronetix, JTAG Emulator and Flash Programmer for ARM7/9, XScale, PowerPC
[edit] External links
- Jack Ganssle's Beginner's Corner article
- How to choose an in-circuit emulator By Jonathan Hector
- www.DeviceTools.com Free portal for engineers of embedded devices.