15 Jun 2018

Renesas updates model-based development environment

Renesas Electronics has announced an update to its “Embedded Target for RH850Multicore” model-based development environment for multicore microcontrollers (MCUs) for automotive control applications.

The update supports development of systems with multirate control (multiple control periods), which is now common in systems such as engine and body control systems. This model-based development environment has become practical even in software development scenarios for multicore MCUs, and can reduce the increasingly complex software development burdens especially in control system development of self-driving cars.

Renesas’ earlier RH850multicore model-based development environment automatically allocated software to the multiple cores and although verifying performance was possible, in complex systems that included multirate control, it was necessary to implement everything manually, including the RTOS and device drivers. Now, to meet the ever-increasing requirements for engine and vehicle performance, and at the same time shorten product development time, by making this development environment support multirate control, it is possible to directly generate the multicore software code from the multirate control model. This has made it possible to evaluate the execution performance in simulation. Not only does this allow execution performance to be estimated from the earliest stages of software development, this also makes it easy to feed back the verification results into the model itself. This enables the completeness of the system development to be improved early on in the process, and the burden of developing the ever-larger scale, and increasingly complex, software systems can be significantly reduced.

Renesas will provide the "Embedded Target for RH850Multicore" updated model-based development environment starting in autumn 2018.

"Model-based development is becoming increasingly common, and Renesas has now completed an environment that covers from control design through automatic code generation. At the same time, since multicore software is complex, it was difficult to handle such software in earlier model-based development environments,” said Hiroyuki Kondo, Vice President of Shared R&D Division 1, Automotive Solution Business Unit, Renesas Electronics Corporation. “Leveraging our extensive expertise in automotive control use cases, we were able to start working on practical application of this technology early on, and thus succeeded in creating this update. I am confident that our model-based development environment will bring dramatically improved efficiency in software development for multicore microcontrollers."

**Key features of the updated “Embedded Target for RH850Multicore” model-based development-environment **

  • Support for multirate control significantly reduces the burden of multicore software development.

Control functions development requires multirate control, such as intake/exhaust period in engine control, the period of fuel injection and ignition, and the period with which the car's status is verified. These are all different periods. By applying the technology that generates RH850 multicore code from the Simulink control mode to multirate control, it has become possible to directly generate multicore code, even from models that include multiple periods, such as engine control. Renesas also provides as an option for the Integrated Development Environment CS+ for the RH850, a cycle precision simulator that can measure time with a precision on par with that of actual systems. By using this option, it is possible to estimate the execution performance of a model of the multicore MCU at the early stages of software development. This can significantly reduce the software development period.

  • Conforms to the de-facto standard JMAAB control modeling guidelines for automotive model-based development

The JMAAB (Japan MBD Automotive Advisory Board), an organization that promotes model-based development for automotive control systems, recommends several control models from the JMAAB Control Modeling Guidelines. Of those, Renesas is providing in this update the Simulink Scheduler Block, which conforms to type (alpha) which provides a scheduler layer in the upper layer. This makes it possible to follow the multirate single-task method without an OS, express the core specifications and synchronization in the Simulink model, and automatically generate multicore code for the RH850 to implement deterministic operations.

  • Overall operational verification of an ECU that integrates multiple systems is also possible

Along with advances in the degree of electronic control in today's cars, integration is also progressing in the ECUs (electronic control units), which are comparatively small-scale systems. By supporting multirate control, making it easier to operate small-scale systems with different control periods with a multicore microcontroller, it is now possible to verify the operation of a whole ECU that integrates multiple systems.

The updated model-based development environment is planned to support Renesas’ RH850/P1H-C MCU that includes two cores by this autumn, and also support for the RH850/E2x Series of MCUs that include up to six cores is in the planning. In addition, Renesas plans to deploy this development environment to the entire Renesas autonomy Platform, including the "R-Car" Family of SoCs. Renesas is also continuing to work to further improve the efficiency of model-based software development, including model-based parallelization tools from partner companies and strengthening of related multirate control support execution performance estimation including the operating system. Moving forward, Renesas plans to apply the model-based design expertise fostered in its automotive development efforts in the continually growing RX Family in the industrial area which is seeing continued increases in both complexity and scale.

Most popular news in Processing & embedded

Micron & BMW Group collaborate to advance automotive memory technologies
Adaptable and omnichannel Xperience in a Box
High-Performance FPGAs with GDDR6 support
Digi-Key IoT Studio delivers “radical simplicity”
Largest data storage machine protects more than 2EB of digital assets

All news in this channel | All news


Share this page


Want more like this? Register for our newsletter






Long-range low-power wireless network have the potential to create the Internet of Agricultural Things Mark Patrick | Mouser Electronics
Long-range low-power wireless network have the potential to create the Internet of Agricultural Things
The application of technology has always driven an increase in productivity, the two are inextricably linked because it is often the demand for higher productivity that provides the motivation for achieving technological breakthroughs; necessity is the mother of invention, after all.









Radio-Electronics.com is operated and owned by Adrio Communications Ltd and edited by Ian Poole. All information is © Adrio Communications Ltd and may not be copied except for individual personal use. This includes copying material in whatever form into website pages. While every effort is made to ensure the accuracy of the information on Radio-Electronics.com, no liability is accepted for any consequences of using it. This site uses cookies. By using this site, these terms including the use of cookies are accepted. More explanation can be found in our Privacy Policy