Misplaced Pages

ecu.test

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
Software testing tool
This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
This article is an orphan, as no other articles link to it. Please introduce links to this page from related articles; try the Find link tool for suggestions. (October 2024)
This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.
Find sources: "Ecu.test" – news · newspapers · books · scholar · JSTOR (January 2024) (Learn how and when to remove this message)
(Learn how and when to remove this message)
ecu.test
Developer(s)tracetronic GmbH
Stable release2024.4 / December 2024; 0 months ago (2024-12)
Operating systemWindows, Linux
Available inEnglish, German and Chinese
TypeTest automation, Test software, Data acquisition
LicenseProprietary software
Websiteecu-test.com

ecu.test (known as ECU-TEST until December 2023) is a software tool developed by tracetronic GmbH, based in Dresden, Germany, for test and validation of embedded systems. Since the first release of ecu.test in 2003, the software is used as standard tool in the development of automotive ECUs and increasingly in the development of heavy machinery as well as in factory automation. The development of the software started within a research project on systematic testing of control units and laid the foundation for the spin-off of tracetronic GmbH from TU Dresden. ecu.test aims at the specification, implementation, documentation, execution and assessment of test cases. Owing to various test automation methods, the tool ensures an efficient implementation of all necessary activities for the creation, execution and assessment of test cases.

Functionality

Methodology

ecu.test automates the control of the whole test environment and supports a broad range of test tools. Various abstraction layers for measured quantities allow its application on different testing levels, e.g. within the context of model in the loop, software in the loop and hardware in the loop as well as in real systems (vehicle and driver in the loop). Creating test cases using ecu.test is conducted graphically and does not require programming skills. Test-case descriptions have a generic form, which together with extensive parameterization and configuration options, allows uniform access to all test tools and thereby simplifies re-use of existing tests over multiple development phases.

Structure

ecu.test is organized in four parts:

  • Editor and Project manager
  • Configurator
  • Test engine
  • Analyzer and Protocol generator

In order to create a test case, one or more sequences of test steps and their parameterizations are specified using the editor. Test steps comprise reading and evaluating measured quantities of the test object, manipulating the test environment as well as the execution of diagnostic functions and control structures. Multiple test cases can be organized using the project manager. Additional settings for test object and test environment can be made using the configurator. The execution of test cases is performed using a multi-stage test engine. The generated log data serve as the basis for the creation of test reports. Subsequent to the test execution, optional checks of recorded measured quantities are performed in the analyzer. From the results of test-execution and subsequent checks, the protocol generator produces a detailed test report, which is displayed interactively and can be archived in files and data bases.

Interfaces

ecu.test provided clear interfaces for extensions and for the integration in existing test and validation processes. A large amount of test hardware and software is supported by default. Using user-defined test steps, plug-ins and Python scripts, additional tools can be integrated with little effort. Via a specific client-server-architecture, software tools of multiple test-bench computers in distributed test environments can be addressed. Using a COM interface, further tools, e.g. for requirements management, revision control and model-based testing can be integrated. ecu.test supports the following hardware and software tools and is based on the following standards:

Supported hardware and software

  • A&D: iTest
  • ASAM: ACI
  • ASAM: iLinkRT
  • ASAM: XiL
  • ASAP: STEP
  • ATI: VISION
  • AVL: LYNX
  • AVL: PUMA
  • Basler: pylon
  • Beckhoff: TwinCAT
  • CARLA Team: CARLA
  • Digitalwerk: ADTF
  • Digiteq: FrameGrabber 4 MultiBox
  • Digiteq: MGB
  • dSPACE: AURELION
  • dSPACE: ControlDesk
  • dSPACE: ModelDesk
  • dSPACE: MotionDesk
  • dSPACE: RTMaps
  • dSPACE: XIL API
  • EA: UTA12
  • EMVA: GenICam
  • ESI: SimulationX
  • ETAS: BOA
  • ETAS: COSYM SIL
  • ETAS: INCA
  • ETAS: LABCAR-PINCONTROL
  • FEP
  • FEP3
  • FEV: Morphée
  • froglogic: Squish
  • Google: ADB
  • Göpel: Video Dragon
  • HORIBA FuelCon: TestWork
  • HMS: ACT - Residual bus simulation
  • HMS: Legacy Bus Interfaces (VCI V2)
  • HMS: VCI V4
  • IDS: uEye
  • IPG: CarMaker
  • JS Foundation: Appium
  • KS Engineers: Tornado
  • Lauterbach: TRACE32
  • MAGNA: BluePiraT
  • Mathworks: MATLAB® & Simulink
  • Mechanical Simulation Corporation (acquired by Applied Intuition): CarSim
  • MicroNova: NovaCarts
  • Modelica Association: FMI
  • National Instruments: LabVIEW
  • National Instruments: VeriStand
  • National Instruments: VISA
  • OPAL-RT: RT-LAB
  • PEAK: PCAN
  • PLS: UDE
  • QUANCOM: QLIB
  • RA Consulting: DiagRA D
  • ROS: ROS2
  • SAE: PassThru
  • Scienlab: Charging Discovery System
  • Scienlab: Energy Storage Discover
  • SFC: Selenium
  • Softing: Diagnostic Tool Set
  • Softing: EDIABAS
  • Speedgoat: Simulink Real-Time XIL
  • Synopsys: Silver
  • Synopsys: SilverXIL
  • Synopsys: Virtualizer
  • Technica: BTS
  • Technica: Capture Module
  • The GNU Project: GDB
  • tracetronic: Ethernet
  • tracetronic: Multimedia
  • tracetronic: RemoteCommand
  • tracetronic: Serial interface
  • tracetronic: SocketCAN
  • tracetronic: SSH MultiConnect
  • TOSUN: libTSCAN API
  • TTTech: TTXConnexion
  • Typhoon HIL: Typhoon HIL Control Center
  • Vector: CANalyzer
  • Vector: CANape
  • Vector: CANoe
  • Vector: DYNA4
  • Vector: SIL Kit
  • Vector: XL API
  • ViGEM: Car Communication Analyzer
  • Vires: Virtual Test Drive
  • VW: ODIS
  • X2E: Xoraya

Test management tools

  • Broadcom Rally Software
  • IBM Engineering Test Management - ETM (former RQM)
  • Jama connect
  • OpenText ALM/Quality Center (former HP Quality Center)
  • OpenText ALM Octane
  • PTC Codebeamer
  • PTC Windchill (former Integrity)
  • SIEMENS Polarion ALM

Source code management tools

System requirements

  • OS: Windows 10 or 11, 64 bit
  • OS for test execution under Linux: Ubuntu Linux 20.04 or 22.04 LTS AMD64
  • Free hard disk capacity: at least 3 GB
  • RAM: at least 16 GB, recommended 32 GB
  • Screen resolution: at least Full HD (1920 x 1080)

References

  1. H.-C. Reuss, R. Deutschmann, J. Liebl, F. Munk, C. Schmidt: Automatic ECU Test with HiL-Simulation. 5th Stuttgart International Symposium on Automotive and Engine Technology“. Expert, 2003.
  2. Rocco Deutschmann, Frank Günther, Matthias Roch, Hans-Christian Reuss, Frank Kessler, Wolfram Bohne, Carsten Krug: New strategies and solutions for automated test of embedded software. 6th Stuttgart International Symposium on Automotive and Engine Technology. Expert, 2005.
  3. Wolfgang Schlüter, Franz Dengler: HiL-Testsysteme für den BMW Hydrogen 7. 7th Conference on „Hardware-in-the-Loop-Simulation“. Haus der Technik, 2007.
  4. Daniel Brückner, Michael Kahle: OTX als Test- und Applikationssprache in der On-Board-Diagnose. 6th Conference on „Diagnose in mechatronischen Fahrzeugsystemen“. Expert, 2012.
  5. Thomas Neubert, Rocco Deutschmann: Automated software test using HiL technology. 13th ITI Symposium, 2010.
  6. Thomas Borchert, Rocco Deutschmann, René Müller, Andreas Abel, Torsten Blochwitz: Simulation and Testing of Off-Road Vehicles in Virtual Reality - Development of a Validation Framework for Multi-Purpose Vehicles. 13th ITI Symposium, 2010.
  7. Rocco Deutschmann, René Müller, Andreas Abel, Torsten Blochwitz: Simulation and Test of Multi-purpose Vehicles. ATZoffhighway, 2011.
  8. Klaus Kabitzsch, André Gellrich, Jens Naake: Automatisierte Steuerungstests vereinfachen die virtuelle Inbetriebnahme in der Fabrikautomation. atp edition, 2012.
  9. Rocco Deutschmann: Semi-formal methods for the automated test of embedded systems. Doctoral thesis, TU Dresden, 2007.
  10. ECU-TEST data sheet Archived 2013-12-03 at the Wayback Machine (PDF; 372 kB). Retrieved 12 January 2015.
  11. "Software tools provider Applied Intuition buys company behind CarSim". Automotive News. 2022-03-14. Retrieved 2024-09-16.

External links

Categories: