Eda Design Flow Development Engineer

Intel Intel · Semiconductors · California, Santa Clara, United States +3

Develop and maintain transistor-level electromigration (EM) and IR drop analysis flows for custom IPs, embedded memories, SRAMs, analog/mixed-signal interfaces, and high-performance custom macros across advanced semiconductor technologies. Focuses on CAD methodology, automation infrastructure, power integrity analysis flows, and silicon correlation for transistor-level reliability verification.

What you'd actually do

  1. Develop and maintain transistor-level electromigration (EM) and IR drop analysis flows for custom IPs, embedded memories, SRAMs, analog/mixed-signal interfaces, and high-performance custom macros across advanced semiconductor technologies.
  2. This role focuses on CAD methodology, automation infrastructure, power integrity analysis flows, and silicon correlation for transistor-level reliability verification.
  3. The engineer will work closely with circuit design, physical design, package, reliability, and signoff teams to enable scalable and accurate EM/IR analysis methodologies for advanced-node designs.
  4. The ideal candidate has strong expertise in transistor-level power integrity analysis, SPICE-based verification, parasitic-aware reliability modeling, and automation development using industry-standard EM/IR signoff tools.

Skills

Required

  • Bachelor's degree in Computer Engineering, Electrical Engineering, Computer Science, or a related field, and 6+ years of experience; 4+ years of experience with a Master's degree; or 2+ years of experience with a PhD.
  • EM/IR reliability concepts (Electromigration, and Power Drop)
  • Experience with Redhawk/Totem tools

Nice to have

  • CMOS circuit operation
  • Power delivery networks
  • SPICE simulation
  • Parasitic extraction fundamentals
  • Advanced-node design challenges
  • Transistor-level power integrity analysis flows
  • Scripting and automation skills in Linux environments

What the JD emphasized

  • EM/IR reliability concepts (Electromigration, and Power Drop)
  • Experience with Redhawk/Totem tools