WHAT YOU DO AT AMD CHANGES EVERYTHING At AMD, our mission is to build great products that accelerate next-generation computing experiences—from AI and data centers, to PCs, gaming and embedded systems. Grounded in a culture of innovation and collaboration, we believe real progress comes from bold ideas, human ingenuity and a shared passion to create something extraordinary. When you join AMD, you’ll discover the real differentiator is our culture. We push the limits of innovation to solve the world’s most important challenges—striving for execution excellence, while being direct, humble, collaborative, and inclusive of diverse perspectives. Join us as we shape the future of AI and beyond. Together, we advance your career. THE ROLE: AMD is seeking an experienced **Static Timing Analysis (STA)** engineer to join our high-performance GPU team. This role will be responsible for ensuring timing closure and optimization of next-generation GPU designs operating at industry-leading frequencies. The ideal candidate will have deep expertise in STA methodologies, timing marginings, and yield analysis for advanced process nodes. THE PERSON:  As an STA engineer in the AMD GPU team, you will play a critical role in delivering high-frequency, power-efficient processor designs that push the boundaries of performance. You will work closely with RTL design, physical design, and verification teams to ensure robust timing closure across multiple process corners and operating conditions. KEY RESPONSIBILITIES:  10+ years of experience in Static Timing Analysis for high-performance digital designs 5+ years** working on CPU, GPU, or high-frequency ASIC designs Proven track record of timing closure for complex SoCs through multiple tapeouts Timing Closure & Analysis Static timing analysis for high-frequency GPU design Perform comprehensive timing signoff across all PVT corners (SS, TT, FF, FS, SF) and voltage/temperature combinations Drive timing closure from RTL freeze through tapeout, ensuring all setup, hold, and transition violations are resolved Develop and maintain timing constraints (SDC) for complex clocking architectures including multi-mode, multi-corner scenarios Analyze and optimize critical paths to achieve frequency targets while minimizing power impact Perform timing ECO (Engineering Change Orders) and coordinate with physical design teams for implementation Timing Marginings & Variability Analysis Define and implement timing margins for process variation, voltage droop, aging, temperature gradients, and OCV (On-Chip Variation) Conduct **statistical timing analysis (STA/SSTA)** to account for process variation and ensure robust yield Perform **AOCV/POCV/SOCV** analysis for advanced nodes (5nm, 3nm and beyond) Develop methodologies for **IR drop analysis** and voltage-aware timing closure Analyze **aging effects** (NBTI, HCI, EM) and define appropriate timing guardbands Work with characterization teams to define **derating factors** and timing models Yield Analysis & Optimization Collaborate with yield engineering teams to analyze timing yield and identify sensitivities Perform path-based analysis (PBA) and graph-based analysis (GBA) to reduce pessimism Conduct Monte Carlo simulations and corner analysis to ensure robust timing across process spread Identify and optimize timing-critical structures to improve manufacturability Drive binning strategies based on frequency and voltage guardband analysis PREFERRED EXPERIENCE:  Physical Design Exposure Physical design experience (synthesis, place & route, or timing closure) Understanding of placement optimization for timing improvement Knowledge of routing impacts on timing (via count, metal layer selection, wire models) Experience with floorplanning and its impact on timing Familiarity with physical design tools: Synopsys Fusion Compiler, Cadence Innovus/Genus Understanding of buffer insertion and gate sizing strategies Knowledge of pin assignment and I/O timing closure Clock Tree Synthesis (CTS) Recipes Experience **defining CTS recipes** and specifications for clock tree builders Deep understanding of **CTS algorithms**: H-tree, X-tree, fishbone, mesh Knowledge of **clock buffer selection** and sizing for skew/latency optimization Experience with **useful skew** implementation and optimization Understanding of **clock concurrent optimization (CCOpt)** Familiarity with **clock tree QoR metrics**: insertion delay, skew, transition, power Additional Preferred Skills Experience with **Synopsys tools**: Design Compiler, IC Compiler II, PrimeTime SI/PX Knowledge of **machine learning** applications in timing prediction and optimization Familiarity with **FinFET** and **Gate-All-Around (GAA)** transistor timing characteristics Understanding of **3D IC** and chiplet-based timing analysis Experience with **timing correlation** studies between STA and SPICE Knowledge of **standard cell characterization** and timing library generation Versatility with scripts to automate design flow - Perl/Tcl/Python Strong communication skills, ability to multi-task across projects, and work with geographically spread out teams Experience in advanced sub 7nm nodes A good understanding of computer architecture is preferred. Strong analytical/problem-solving skills and pronounced attention to detail. Must be using AI technologies in day to day problem solving ACADEMIC CREDENTIALS: Qualification: Bachelors or Masters in Electronics/Electrical Engineering, Computer Engineering LOCATION: Penang, Malaysia #LI-KL1 #LI-Hybrid Benefits offered are described: AMD benefits at a glance. AMD does not accept unsolicited resumes from headhunters, recruitment agencies, or fee-based recruitment services. AMD and its subsidiaries are equal opportunity, inclusive employers and will consider all applicants without regard to age, ancestry, color, marital status, medical condition, mental or physical disability, national origin, race, religion, political and/or third-party affiliation, sex, pregnancy, sexual orientation, gender identity, military or veteran status, or any other characteristic protected by law. We encourage applications from all qualified candidates and will accommodate applicants’ needs under the respective laws throughout all stages of the recruitment and selection process. AMD may use Artificial Intelligence to help screen, assess or select applicants for this position. AMD’s “Responsible AI Policy” is available here. This posting is for an existing vacancy.