Job Details:
Job Description:
About Altera
Altera is a leading supplier of programmable hardware, software, and development tools that empower designers of electronic systems to innovate, differentiate, and succeed in their markets. With a broad portfolio of industry-leading FPGAs, SoCs, and design solutions, Altera enables customers to achieve faster time-to-market and exceptional performance in applications spanning aerospace and defense, industrial automation, cloud and data centers, communications, automotive, and edge AI.
Formerly part of Intel Corporation, Altera has regained operational independence and is now majority-owned by Silver Lake, with Intel retaining a minority stake. Today, Altera’s mission is to deliver the world’s most advanced and efficient programmable technology and to become the #1 FPGA company in the world.
Position Overview
Altera is seeking a motivated Place & Route (P&R) Design Automation Engineer to join our Design Methodology and Automation organization. In this role, you will contribute to the development and support of automated P&R tools, flows, and methodologies used in next-generation FPGA silicon development.
You will collaborate closely with physical design, CAD, and cross-functional engineering teams to improve quality of results (QoR), runtime efficiency, and overall flow robustness. This role is well-suited for an engineer with hands-on P&R or physical design experience who is looking to deepen technical expertise in semiconductor design automation.
Key Responsibilities
Work on Place & Route tools, flows, and methodologies for FPGA silicon design development.
Contribute to the development of new methodologies for next-generation Place & Route flows and tool enhancements.
Help maintain and improve existing P&R automation flows and infrastructure.
Provide end-user support for flow tools, including debugging issues and promoting best practices.
Develop and enhance scripts and automation utilities to improve usability, efficiency, and scalability.
Support improvements in P&R quality of results (timing, power, congestion, density, and overall design closure).
Assist in evaluating and testing new P&R tool capabilities and methodologies.
Identify design or flow bottlenecks and implement practical optimizations.
Collaborate closely with multi-geo teams across physical design, RTL, synthesis, and CAD to ensure robust end-to-end flow support.
Document methodologies, flow updates, and usage guidelines.
Salary Range
The 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.
$113,700 - $162,000 USD
We 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 Qualifications
Bachelor’s degree in Electrical Engineering, Computer Engineering, Computer Science, or a related technical field, with 3+ years of industry experience in semiconductor design or design automation.
3+ years of hands-on experience in Place & Route (P&R), physical design, or design automation within FPGA or ASIC development environments.
3+ years of experience working with Place & Route tools and strong applied knowledge of P&R algorithms, methodologies, and design flows.
3+ years of experience using industry-standard EDA vendor tools (e.g., Synopsys and Cadence P&R tool suites) in production design environments.
3+ years of strong coding experience in Tcl, Perl, and Python for automation, scripting, and tool integration.
3+ years of experience working in Unix/Linux development environments.
3+ years of experience applying physical design fundamentals, including floorplanning, placement, clocking, routing, and static timing analysis (STA).
3+ years of experience debugging and resolving tool, flow, or design issues in a collaborative engineering environment.
3+ years of experience collaborating with cross-functional and/or multi-geo engineering teams to support design execution.