Renesas is seeking a talented individual for their memory interface products team. These products primarily serve data centers for AI and cloud computing, delivering the highest bandwidth for intensive computing while consuming low power. This exciting role is responsible for the development of the digital sections of leading-edge memory data buffer chips for DDR5, DDR6, and beyond. Propose, architect, and design RTL in Verilog for use in a mixed-signal integrated circuit Contribute as part of a highly experienced team of engineers with extensive cross-functional skill set Apply clocking controls, FSM design, low power techniques, and high-speed design concepts Participate in design, architecture, and verification reviews Oversee digital backend design, including synthesis, static timing analysis, and logic equivalence checking Create documentation targeting design, verification, and test teams Assist with the proposal, definition, documentation, and implementation of new features Mentor and train junior engineers and New College Grad engineers Qualifications Education: Bachelor or Master's degree in Electrical Engineering, Computer Engineering, Computer Science, or a related field, with minimum 12+ years of experience 12+ years of direct experience in ASIC/IC design with deep knowledge of the entire IC design flow Experience in architecting digital designs and writing device-level or sub-system specifications. Fluent in Verilog RTL coding and ASIC design methodology Expertise in digital design implementation, including logical synthesis and DFT insertion with high coverage Experience with static timing analysis and creation of place and route constraints Proficiency in formal verification, linting, and CDC/RDC checking Knowledge of asynchronous clock crossings and synthesis implications of RTL Experience implementing and verifying ECOs on RTL, synthesized, and post-route netlists Competence in developing design constraints for synthesis, STA, and P&R hand-off Experience with gate-level simulations and understanding the causes and implications of timing violations Familiarity with ATPG generation and ATE support (a plus) Experience in DFT or physical design (a plus) Videos To Watch https://www.youtube.com/embed/k-zs4tB6nNc