# Senior LPU ASIC Engineer **Company**: NVIDIA **Location**: Santa Clara **Work arrangement**: hybrid **Experience**: senior **Job type**: full-time **Category**: Engineering **Industry**: Technology **Apply**: https://nvidia.wd5.myworkdayjobs.com/en-US/NVIDIAExternalCareerSite/job/US-CA-Remote/Senior-LPU-ASIC-Engineer_JR2019382?utm_source=yubhub.co&utm_medium=jobs_feed&utm_campaign=apply **Canonical**: https://yubhub.co/jobs/job_0086eda5-566 ## Description Join NVIDIA and become part of a team advancing the frontiers of AI technology! As we lead innovation in AI and accelerated computing, we seek a Senior LPU ASIC Engineer to contribute to our outstanding progress in chip design. In the role of a Senior LPU ASIC Engineer, you will play a crucial role in our innovative LPU chip design. **Responsibilities:** - Full-Flow Ownership: Responsible for Synthesis, floorplanning, place & route, timing constraints, UPF and LEC at the block/partition level and top level. - Cross-Functional Optimization: Partner with IP, Front-End logic design and Architecture teams to streamline IP integration, drive PPA (Power, Performance, Area) optimizations, resolving architectural bottlenecks to enable efficient physical implementation. - Tapeout Execution: Lead design closure in collaboration with IP, PnR, Sign-off teams, ensuring 100% verification compliance for successful GDSII handoff and tapeout. - Methodology Innovation: Architect data-driven EDA flows and methodologies in collaboration with CAD teams, implementing automated enhancements that measurably improve PPA and design cycle efficiency. **Requirements:** - B.S. in Electrical/Computer Engineering or equivalent experience (M.S./Ph.D. preferred) with 5+ years of industry experience delivering full-flow physical design for large-scale, high-performance SoCs at advanced process nodes. - Full-Flow Execution: Proven track record of driving designs through the complete RTL-to-GDSII flow, including synthesis, placement, CTS, routing, extraction, and physical/electrical verification. - Low-Power Expertise: Deep understanding of low-power design intent (UPF/CPF), formal equivalency checks (LEC), and rule verification for complex multi-voltage domain architectures. - Clock & Timing Mastery: Expert-level proficiency in advanced CTS methodologies, clock tree synthesis, and sign-off timing analysis (MCMM STA) using complex constraints. - PPA Optimization: Demonstrated ability to implement aggressive power, performance and area optimization techniques, and identify reduction opportunities across the entire physical design cycle. - Sign-off & Integrity: Strong command of power grid design, EMIR analysis, and ECO generation to ensure robust silicon integrity and timing closure. - DFT & Block-Level Integration: Skilled in employing best-known methods to optimize and handle DFT structures within block-level physical design implementations. - EDA Tool Proficiency: Expert-level command of industry-standard tool suites for end-to-end physical design flows. - Automation & Innovation: Proficient in scripting (TCL, Python, Perl) to automate flows, with a forward-looking ability to integrate AI-driven optimizations for enhanced design efficiency. - High-Speed IP Integration: Specialized experience in the physical design of blocks and partitions containing high-speed SerDes IPs, such as PCIe, CXL, C2C, and Die-to-Die interfaces a plus. ## Skills ### Required - Synthesis - Floorplanning - Place & Route - Timing Constraints - UPF - LEC - IP Integration - PPA Optimization - Sign-off Timing Analysis - Power Grid Design - EMIR Analysis - ECO Generation - DFT Structures - EDA Tool Suites - Scripting (TCL, Python, Perl) - AI-Driven Optimizations --- Source: [Apply at nvidia.wd5.myworkdayjobs.com](https://nvidia.wd5.myworkdayjobs.com/en-US/NVIDIAExternalCareerSite/job/US-CA-Remote/Senior-LPU-ASIC-Engineer_JR2019382?utm_source=yubhub.co&utm_medium=jobs_feed&utm_campaign=apply)