Digital Designer — CPU Subsystem; RTL & Verification; Temporary

Digital Designer — CPU Subsystem (RTL & Verification) (Temporary Assignment)

Compute System Architecture (CSA) is imec's center of excellence for hardware-software-technology co-design of future compute systems. We work in close collaboration with imec's expertise centers in applications, technology, circuits, and design to innovate and pathfind next-generation compute architectures across AI, HPC, automotive, space, and other domains. CSA operates across six imec centers — Belgium, the Netherlands, Germany, the UK, the USA, and Qatar.

This position is based primarily in Leuven, Belgium.

We are looking for a Digital Designer to join the Platform, Prototypes and Physical-Aware Design (P3D) group, with a focus on the CPU subsystem of imec's RISC-V-based compute platforms. You will own RTL design of CPU-side blocks — pipelines, caches, memory hierarchy, and the surrounding interconnect logic — and drive their verification from unit-level testing through subsystem-level integration.

Your work directly feeds imec's prototype demonstrators, the silicon vehicles for imec's CMOS 2.0 vision: functionally partitioned, 3D-integrated compute systems that push well beyond what monolithic SoCs can deliver. You will work on technology beyond 2nm, alongside principal SoC and chiplet architects, in a fast-moving research environment with high industrial visibility.

• Translate microarchitectural specifications into clean, synthesizable RTL (System Verilog) for CPU subsystem blocks — front-end, execution pipeline, load/store unit, caches, and on-chip memory interfaces.
• Integrate RISC-V cores with surrounding subsystem components: cache hierarchies, coherency logic, AXI/CHI interconnects, and debug/trace infrastructure.
• Develop and execute functional verification environments for the modules you design — test benches, UVM agents, System Verilog assertions, coverage models — and drive coverage closure to tape-out quality.
• Collaborate closely with SoC and chiplet architects to refine specifications, resolve ambiguities, and feed implementation insights back into the architecture loop.
• Anticipate PPA, timing, and floorplan implications in your RTL, supporting physical-aware design iterations through to prototype tape-out.
• Contribute to verification IP, regression infrastructure, and design/verification flow improvements used across the group.
• Document design and verification intent clearly enough that the next engineer — or the next prototype — can build on it.
• This is a temporary contract of two years, with the possibility to extend the contract.

We offer you the opportunity to join one of the world’s premier research centers in nanotechnology at its headquarters in Leuven, Belgium. With your talent, passion and expertise, you’ll become part of a team that makes the impossible possible. Together, we shape the technology that will determine the society of tomorrow.

We are committed to being an inclusive employer and proud of our open, multicultural, and informal working environment with ample possibilities to take initiative and show responsibility. We commit to supporting and guiding you in this process; not only with words but also with tangible actions. Through imec.academy, our corporate university, we actively invest in your development to further your technical and personal growth.

We are aware that your valuable contribution makes imec a top player in its field. Your energy and commitment are therefore appreciated by means of a market appropriate salary with many fringe benefits.

• At least 5 years of hands‑on RTL design experience in System Verilog/Verilog for CPU, GPU, or similarly complex digital subsystems.
• Solid grasp of CPU microarchitecture — pipelines, hazards, branch prediction, caches, memory ordering — at a level that lets you read an architectural spec and turn it into RTL with sound design choices.
• Strong functional verification capability: UVM, System Verilog assertions (SVA), coverage-driven verification, constrained-random stimulus, and debug discipline.
• Familiarity with one or more standard interconnect protocols (AXI, ACE, CHI, Tile Link) at both RTL and…