Embedded products are now software-defined and connected, yet many organizations still depend on manual build–test chains that struggle to meet safety, speed, and repeatability goals.
This paper or lecture presents a practical Embedded DevOps method designed for constrained, compliance-bound environments. The method aligns teams around clear versioning and review practices, centralizes continuous integration, and makes quality checks and tests run continuously in the background—while keeping a deliberate release gate for regulatory assurance.
A key novelty is a compliance-aware automation pattern that pairs end-to-end traceability with lightweight integration across heterogeneous, legacy toolchains, enabling meaningful automation without disrupting certification workflows.
We then demonstrate the approach in a tier-1 automotive case study: starting from a fragmented baseline, the organization cut manual effort by ~80% and shortened time-to-market by ~40%, with more predictable cycles and higher build quality. The contribution is both a transferable method and empirical evidence that Embedded DevOps can deliver measurable gains under real-world constraints, offering a clear path for engineers and managers to move from ad-hoc workflows to continuous integration and testing.
See more on www.AI4SMB.de.
See also on https://forum.allaboutcircuits.com/threads/driving-efficiency-and-automation-with-devops-for-embedded-systems.208283/
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