Roles & Responsibilities
• Ownership of end-to-end Physical Design flow from RTL to GDSII for complex SoC/ASIC designs.
• Responsible for floorplanning, partitioning, placement, CTS, routing, and physical verification (DRC/LVS/Antennas etc.).
• Timing closure activities across PVT corners, multi-mode multi-corner (MMMC) analysis.
• Work on power planning and optimization (IR drop, EM analysis, low-power design methodologies).
• Handle STA (Static Timing Analysis) using tools like PrimeTime/Tempus and drive closure.
• Collaborate closely with RTL designers, DFT, STA, and verification teams to resolve issues proactively.
• Experience in synthesis and formal equivalence checking (LEC) to ensure design quality.
• Familiarity with signoff methodologies and tapeout process.
• Mentor and guide junior engineers within the team, review their work, and drive best practices.
• Contribute to methodology improvements, flow automation, and scripting.
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Key Skills
• Strong expertise in Physical Design EDA tools:
Cadence (Innovus, Voltus, Tempus, LEC ) or Synopsys (PrimeTime, StarRC)
• Hands-on with STA, Power, and Area optimization techniques.
• Proficiency in scripting (Perl/Tcl/Shell) for automation and flow enhancements.
• Experience with low power design techniques (UPF/CPF), multi-voltage domains, and advanced nodes (3nm/5nm/22nm/28nm as applicable).
• Solid understanding of physical verification and signoff (Calibre or equivalent).
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Desired Profile
• B.E./B.Tech/M.E./M.Tech in Electronics, Electrical, or related field.
• 7–11 years of relevant experience in Physical Design on large SoC/ASIC projects.
• Proven track record of successful tapeouts in advanced technology nodes.
• Good problem-solving skills and ability to work independently and as part of a team.
Excellent communication and documentation skills
Work Experience
• Strong expertise in Physical Design EDA tools:
Cadence (Innovus, Voltus, Tempus, LEC ) or Synopsys (PrimeTime, StarRC)
• Hands-on with STA, Power, and Area optimization techniques.
• Proficiency in scripting (Perl/Tcl/Shell) for automation and flow enhancements.
• Experience with low power design techniques (UPF/CPF), multi-voltage domains, and advanced nodes (3nm/5nm/22nm/28nm as applicable).
• Solid understanding of physical verification and signoff (Calibre or equivalent).