Manufacturing a new processor is highly complex and time-consuming. VSORA has successfully validated its novel architecture using simulation models—SystemC-TLM and RTL—ensuring it mirrors the final chip’s behavior at the register level.
The final chip configuration has been defined, including the number of compute units and internal memory. Key IP blocks from suppliers were selected after thorough technical and commercial evaluations, integrated into the design, and behavioral models were created to support software development, such as drivers for chip booting.
We have now completed the place & route stage, involving dozens of engineers, and integrated essential test components (BIST, ATPG). RTL code is frozen, and final validations are underway before tape-out. In parallel, we designed the chip package, which integrates multiple dies and HBM memory using CoWoS technology—requiring joint simulation with the chip to model power delivery and voltage drops accurately.
On the software side, we advanced the compiler stack, including binary generation and neural network graph compilation, and expanded our test base, executed on an emulation platform.
VSORA has also played an active role in industry dissemination—engaging with the Automotive Chiplet Association (IMEC), hosting forums in Cambridge and Munich, and participating in major European events such as CARNET Ecosystem Day, Hello Tomorrow, and the AI Continent Action Plan Roundtable. These efforts helped validate use cases, collect feedback, and align the project with European priorities in AI, semiconductors, and digital sovereignty.