Principal Engineer, Design Verification - DDR Memory Subsystems

About The Position

Requirements

• Bachelor's degree in Electrical Engineering, Computer Engineering, Computer Science, or related technical discipline.
• 15+ years of Design Verification experience developing complex ASIC, SoC, or FPGA products.
• 10+ years of experience verifying DDR memory subsystems, including memory controllers and PHY architectures.
• Extensive expertise with SystemVerilog, UVM, SystemVerilog Assertions (SVA), constrained-random verification, functional coverage, and verification planning.
• Deep understanding of modern memory technologies including: DDR4 DDR5 LPDDR4 LPDDR5 HBM/HBM2/HBM3
• Strong knowledge of: DDR PHY architectures Memory Controller design Memory initialization and training sequences Calibration algorithms AXI and AMBA interconnect protocols Cache coherency and memory subsystem integration
• Proven experience verifying high-performance memory interfaces within large SoC or FPGA environments.
• Demonstrated success leading verification efforts for highly complex subsystem or chip-level designs from specification through silicon validation.
• Strong debugging experience using industry-standard simulators, waveform analysis tools, protocol analyzers, and regression infrastructure.
• Excellent communication skills with the ability to influence technical direction across cross-functional engineering organizations.

Nice To Haves

• Master's or Ph.D. in Electrical Engineering, Computer Engineering, or Computer Science.
• Experience verifying additional high-speed interfaces such as PCIe, Ethernet, CXL, UCIe, HBM, or SerDes.
• Experience with formal verification methodologies and formal property checking.
• Experience with emulation platforms, FPGA prototyping, and post-silicon validation.
• Proficiency with scripting languages such as Python, Perl, Tcl, or Shell for automation and infrastructure development.
• Experience implementing CI/CD pipelines and scalable regression frameworks.
• Demonstrated leadership defining Design Verification methodologies across large engineering organizations.
• Experience mentoring senior engineers and serving as the technical authority for complex verification programs.

Responsibilities

• Serve as the technical lead for Design Verification of complex DDR memory subsystems across multiple FPGA product families.
• Define and drive verification architecture, methodology, and strategy for DDR controllers, PHYs, training logic, calibration flows, and memory subsystem integration.
• Architect scalable, reusable UVM/SystemVerilog verification environments capable of supporting multiple product generations.
• Develop comprehensive verification plans utilizing constrained-random verification, assertions (SVA), functional coverage, scoreboarding, protocol checking, and regression automation.
• Drive verification closure through rigorous coverage analysis, debug methodologies, and metric-based execution.
• Partner closely with Architecture, RTL Design, Physical Design, Firmware, System Validation, and Silicon Engineering teams throughout the product lifecycle.
• Lead root-cause analysis of complex subsystem integration, timing, protocol, and performance issues.
• Influence memory subsystem architecture by providing verification-driven feedback during early design phases.
• Mentor senior verification engineers while establishing organization-wide Design Verification best practices.
• Drive continuous improvements in verification infrastructure, automation, CI/CD workflows, regression efficiency, and reusable IP verification methodologies.
• Support post-silicon bring-up, characterization, and system validation activities to ensure successful product deployment.

Benefits

• We also offer incentive opportunities that reward employees based on individual and company performance.