We’re hiring on behalf of a leading global research center pioneering the future of chip integration. Join an international R&D team working at the edge of semiconductor innovation: 2.5D/3DIC design, Chiplet integration, and advanced physical implementation flows. Your Role Design high-speed clock buses across dies to meet strict PPA (Power, Performance, Area) targets Contribute to floorplanning, interconnect, power delivery, and thermal design in 2.5D/3DIC systems Define and apply signoff methodologies for multi-die integration Support STCO/DTCO initiatives to co-optimize architecture and technology Collaborate with experts across architecture, design, packaging, and fabrication What We’re Looking For Technical Expertise:_Proven experience in back-end physical implementation, with large-scale chip design and verification (RTL2GDS) Solid understanding of physical design flows, EDA tools (e.g. Cadence, Synopsys), and timing closure techniques Hands-on experience with high-speed bus planning, 3DIC or Chiplet designs Familiarity with advanced semiconductor processes (e.g. FinFET, 7nm/5nm), including design rules and process constraints Knowledge of reliability, power integrity, and thermal management in multi-die systems Experience translating system/product requirements into chip architecture and floorplan strategies Qualifications:_Master’s degree or PhD in Electronics, Computer Engineering, Physics, Materials Science, or related field 5–10 years of relevant industry experience Be part of a team redefining how the most advanced chips are physically built. Contact Antal International Paris London Job Details Seniority level: Mid-Senior level Employment type: Full-time Job function: Engineering, Research, and Information Technology Industries: Semiconductor Manufacturing, Technology, Information and Media, and Research Services #J-18808-Ljbffr