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Carmakers are striving to accelerate innovation by introducing more features at a faster pace while maintaining high quality standards. However, these efforts are often hindered by the shortage of prototype hardware, especially during the early stages of software development. Cloud Native Embedded Software Development solutions on AWS offer a comprehensive suite of industry-leading tools, virtual targets with parity to real hardware, and virtual development environments hosted in the cloud. This approach enables software development teams to commence the development process early, utilizing cloud-based Virtual Engineering Workbenches, thereby reducing overall program cycle time. Additionally, it provides scalability and consistency of environment across globally distributed teams, facilitating better collaboration and enabling the creation of higher-quality software for final testing once real hardware becomes available.
KPIT implements a Virtual Test Environment (VTE) to complement automotive OEMs and Tier1s testing strategy. The Environment enables test execution at component, target independent, and build levels using level 1 to level 4 virtual ECUs on a scalable ecosystem on the cloud.
KPIT Adaptive AUTOSAR Virtual Engineering Workbench provides an out-of-the-box Adaptive AUTOSAR cloud instance that allows jumpstarting HPC platform and feature development. Along with AUTOSAR configuration editor and reference applications, it allows customers to rapidly develop Adaptive services. Integration with ARM-based Graviton brings bit-parity between the virtual development environment and target deployment hardware.
GitLab, the complete DevOps platform, is certified to run natively on AWS Graviton2 allowing customers to take full advantage of the price performance offered by this architecture.
Boot to Qt is a lightweight, Qt-optimized, full software stack for embedded Linux systems that is installed into the actual target device. The Boot to Qt Software Stack uses the traditional embedded Linux kernel built with Poky, the reference distribution of Yocto Project. The software stack is designed for great customization possibilities. It contains only components required in the embedded device, resulting in smaller image sizes while keeping valuable development tools available.
This solution integrates ALM software with CI/CD tooling, enabling teams to focus on software development while meeting customer requirements. This solution provisions the virtualized hardware environment to simulate the vehicles and the connectors between ALM software (e.g., PTC Codebeamer) and CI/CD tooling (e.g., AWS CodePipeline).
The virtual ECU Creator (Continental's virtualization solution for ECUs) is part of the Continental Automotive Edge (CAEdge) framework, which runs on Amazon Web Services (AWS). By using cloud-based vECUs, new applications or software features for software-defined vehicles (SDV) can be built by OEMs faster, more efficiently and in a more agile way. That allows future developments to be tested and debugged continuously by engineers within the cloud, at the same time as hardware development and production cycles. The virtual ECU Creator brings together Continental’s high-performance computers, and Electronic Control Units, with Elektrobit’s production-proven software for Classic and Adaptive AUTOSAR.
This Guidance demonstrates how the Virtual Engineering Workbench (VEW) framework accelerates software development lifecycles and supports software-defined vehicles.