Job Details:Job Description:About the RoleAltera is looking for a
Physical Design Engineer to join our Silicon Engineering organization.
In this role, you will contribute to the physical implementation of next-generation FPGA products, partnering closely with architecture, RTL design, DFT, timing, power, and verification teams to help deliver high-quality silicon. This is an excellent opportunity for an early-career engineer or recent graduate with a Master's degree who is looking to grow technical depth in physical design and backend implementation in a fast-paced semiconductor environment.
As a Physical Design Engineer, you will support block-level and/or top-level physical design implementation activities across FPGA product development. You will work closely with cross-functional teams to help optimize designs for timing, power, area, and manufacturability while contributing to the successful delivery of high-quality silicon.
ResponsibilitiesOther responsibilities of the Physical Design Engineer include but are not limited to:
- Support block-level and/or top-level physical design implementation for FPGA and ASIC-style designs, including floorplanning, placement, clock tree synthesis, routing, and physical verification.
- Work with senior physical design engineers to optimize designs for timing, power, area, congestion, and routability.
- Participate in implementation tasks across the physical design flow, including netlist handoff, constraints setup, synthesis/physical design handoff, and signoff readiness.
- Run and analyze timing, power, congestion, and design rule reports to identify issues and support closure activities.
- Collaborate with RTL, design, DFT, CAD, and verification teams to resolve design and flow issues impacting physical implementation.
- Support static timing analysis (STA), timing closure, and engineering change order (ECO) implementation activities.
- Help debug physical design issues related to setup/hold violations, clocking, congestion, IR drop, or design rule violations.
- Assist with physical verification tasks including DRC/LVS checks and design signoff preparation.
- Develop and maintain scripts and automation to improve physical design productivity and flow efficiency.
- Participate in silicon bring-up support and post-silicon debug activities as needed in partnership with cross-functional teams.
Salary RangeThe pay range below is for Bay Area California only. Actual salary may vary based on a number of factors including job location, job-related knowledge, skills, experiences, trainings, etc. We also offer incentive opportunities that reward employees based on individual and company performance.
$105,000 - $120,000USDWe use artificial intelligence to screen, assess, or select applicants for the position. Applicants must be eligible for any required U.S. export authorizations.
Qualifications:Minimum QualificationsBachelor's or Master's degree in Electrical Engineering, Computer Engineering, or a related engineering field with
2+ years of industry experience in physical design, ASIC/SoC backend implementation, or a related semiconductor engineering role, including experience in the following:
- Physical design fundamentals including floorplanning, placement, clock tree synthesis (CTS), routing, timing closure, and physical verification.
- Experience with industry-standard physical design and signoff tools such as Cadence Innovus, Synopsys ICC2, PrimeTime, Fusion Compiler, or similar tools.
- Understanding of static timing analysis (STA), timing constraints, setup/hold concepts, and timing closure methodologies.
- Experience reviewing and debugging timing, congestion, area, and power reports.
- Familiarity with physical verification concepts including DRC/LVS and signoff quality checks.
- Exposure to scripting or automation using Tcl, Python, Perl, or similar languages.
- Knowledge of semiconductor design flows, from RTL handoff through physical implementation and signoff.
- Strong understanding of digital design fundamentals and CMOS/VLSI concepts.
Preferred Qualifications- Master's degree in Electrical Engineering, Computer Engineering, or related field.
- Experience with advanced-node physical design methodologies and low-power implementation concepts.
- Exposure to FPGA, SoC, or high-performance semiconductor product development.
- Familiarity with power planning, IR drop analysis, signal integrity, electromigration (EM) analysis, or physical signoff flows.
- Experience working in Linux/Unix-based development environments.
- Strong problem-solving skills and the ability to work effectively in a collaborative team environment.
Job Type: Regular
Shift:Shift 1 (United States of America)
Primary Location:San Jose, California, United States
Additional Locations: