The project successfully advanced Codasip’s processor design capabilities by developing a robust ecosystem for high-performance RISC-V cores and their supporting EDA tools.
The team designed two complex out-of-order architectures—A90 and A110—targeting AI, IoT, and data-intensive applications. These cores include scalable memory systems, advanced vector and floating-point units, and replay-based performance models, enabling precise architectural tuning and formal verification strategies. The team did not complete the verified design of the A90 processor on time, which is reported as a deviation against the original project scope.
To support this innovation, Codasip Studio was significantly enhanced. The desktop version introduced CodAL 3.0 a high-level architecture description language with constructs for auto-pipelining, data hazards, and cache coherency. Software Development (SDK) and Hardware Development Kit (HDK) generators were reengineered to support these features, and a modern IDE based on Visual Studio Code was integrated for improved usability.
Parallel to this, a web-based Codasip Studio was developed using Kubernetes and Eclipse Theia, offering scalable, isolated cloud workspaces. This platform supports multiple toolchains, real-time syntax feedback, and advanced debugging, making processor design accessible and efficient across user profiles.
In functional safety and cybersecurity, Codasip achieved ISO 26262 and ISO/SAE 21434 certifications. A structured safety framework was implemented, validated through pilot projects, and independently assessed by TÜV SÜD. Additionally, a Security Pack was delivered, including Secure Boot and TRNG components, enabling secure and compliant hardware IP for safety-critical applications.