Cellular ASIC Methodology Engineer

About The Position

Requirements

• Solid understanding of Physical Design challenges, proficiency with synthesis, place and route tools, and implementation exploration
• Experience with Metal stack optimizations
• Experience performing Early Tech node analysis to identify implementation bottlenecks
• Design Technology Co-optimization expertise
• Strong analytical skills and ability to identify and communicate high return on investment opportunities
• Ability to apply data science and ML analytics for Frontend and Backend databases, as well as post-silicon data, to identify trends & patterns and fine-tune implementation methodologies

Responsibilities

• Establish design guidelines, methodologies, and standards for synthesis, place-and-route, timing closure, and signoff processes
• Develop and optimize EDA tool flows including synthesis tools (DC/DCT/DCG/Genus/Oasis), Pu0026R tools (ICC2/Fusion/Innovus/Aprisa), and signoff tools (PT/PT-SI/Tempus)
• Drive timing convergence process improvements across design teams to enhance design PPA and yield
• Create and maintain comprehensive design flows, scripts, and automation tools to improve design productivity and reduce turnaround time
• Identify utilization bottlenecks in physical design and develop architectural, design, and implementation-level solutions to improve utilizations
• Work with physical design teams on timing closure, collaborating with CAD teams, IP teams and Design Technology teams for flow scripts/tools development and validation
• Understand RTL to GDS digital flow and provide hands-on contribution for timing signoff of complex SOCs
• Perform design technology co-optimization analysis, including optimal operating point analysis for performance/power curves and identification of scaling trends and bottlenecks in advanced technology nodes
• Conduct Spice simulations (Hspice/Finesim/AFS/Spectre/Infinisim) for PVT corners validation and STA vs spice correlation
• Perform timing package validation across advanced process technologies and timing signoff specification development
• Conduct in-depth analysis of design databases and silicon validation data to identify critical issues and improve overall design metrics
• Understand intricate timing paths (digital, analog, mixed signal) and timing constraints, providing solutions as required
• Develop and implement voltage scaling and power optimization methodologies including clock gating, power gating, and dynamic voltage/frequency scaling techniques
• Use power analysis tools (RedHawk/SeaHawk/Voltus) for comprehensive power signoff and optimization
• Facilitate and drive STA methodology improvements using industry-leading timing tools and ECO methodologies
• Collaborate closely with technology and IP teams to enhance efficiency through custom and semi-custom IP development
• Work closely with process technology, front-end design, physical implementation, CAD, and multi-functional teams to develop innovative solutions
• Support advanced process technology bring-up from PDK to VLSI design production
• Drive DFT (Design for Test) methodology improvements including scan insertion, ATPG, and built-in self-test strategies
• Stay ahead of industry trends and emerging technologies to continuously improve design methodologies
• Apply strong programming skills (Python, Perl, TCL, Unix shell, C/C++) for methodology automation and enhancement
• Apply ML modeling experience for advanced design optimization and predictive analysis