About the job Lead ASIC Physical Design Engineer – Advanced Nodes
Lead ASIC Physical Design Engineer – Advanced Nodes
Zurich (Hybrid) | Deep Tech | Backend Ownership | Advanced Nodes | Team Build
We are partnering with a cutting-edge semiconductor company in Zürich who are building next-generation compute technology and are now looking for a Lead ASIC Physical Design Engineer to own and scale their backend implementation capability.
This is a senior, hands-on leadership role where you will define the RTL-to-GDSII strategy and build the team that executes it.
If you enjoy taking complex digital designs from synthesis all the way to clean sign-off — and youre confident leading the toughest implementation challenges yourself — this could be for you.
Your Role
You will combine deep technical execution with methodology ownership and team leadership.
Expect to:
Define and maintain a robust RTL-to-GDSII implementation flow
Own synthesis, floorplanning, partitioning, P&R, CTS, routing & closure
Drive MCMM timing closure, power optimization & ECO strategy
Establish constraint methodology, library strategy & sign-off standards
Lead low-power implementation (UPF/CPF, isolation, retention, level shifting)
Integrate SRAMs, custom macros & hard IP into a mixed digital/custom environment
Collaborate closely with RTL, custom circuit & layout teams
Ensure clean DRC/LVS, IR/EM and reliability closure
Industrialize the backend flow with automation (Tcl/Python), CI & reproducible builds
Build and mentor a growing physical design team
What Youll Bring
10+ years in ASIC physical design
2+ successful tapeouts as implementation owner (block or subsystem level)
Deep expertise in either a Synopsys or Cadence toolchain
Strong MCMM STA & timing-closure experience
Proven floorplanning & hierarchical integration capability
Hands-on experience with IR/EM analysis & power grid planning
Solid understanding of multi-voltage / power-gated designs
Experience scripting for automation (Tcl, Python)
Confidence making major implementation decisions independently
Nice to Have
DFT exposure (scan, MBIST, test timing awareness)
Experience at advanced FinFET nodes (7nm)
Knowledge of EUV / multi-patterning considerations
Familiarity with reliability-driven or safety-critical design standards
Package / board-level awareness (power integrity, bump planning, thermal)
Ideal Profile
This role suits someone who:
Enjoys owning implementation end-to-end
Can architect a backend flow — not just execute one
Likes solving timing & power challenges at scale
Wants to build and shape a backend team
Thrives in technically demanding environments