Our Hardware Engineers at Synopsys are responsible for designing and developing cutting-edge semiconductor solutions. They work on intricate tasks such as chip architecture, circuit design, and verification to ensure the efficiency and reliability of semiconductor products.
These engineers play a crucial role in advancing technology and enabling innovations in various industries.
As a Principal Analog and Mixed Signal Engineer, you will be part of the Solution IP R&D team, a collaborative group of analog and digital designers developing high-speed PHY IP for DDR/LPDDR, HBM, UCIe, and mobile storage applications.
Key Responsibilities:
- Review JEDEC standards to define analog and mixed-signal sub-block specs for DDR/LPDDR, HBM, UCIe, and mobile storage PHY IP
- Design transistor-level circuits including equalizers, samplers, drivers, serializers, VCOs, PLLs, DLLs, bandgap references, ADCs, and DACs
- Develop verification strategies using SPICE simulators and Verilog-A models to ensure coverage across PVT corners
- Collaborate with layout engineers to minimize parasitics, manage device stress, and implement ESD protection
- Present simulation data and design tradeoffs to internal teams and customers
- Document circuit designs, test plans, and reliability considerations for tape out
- Consult on electrical characterization and silicon bring-up to validate your circuits in the final product
Impact:
- Enable next-generation memory and interconnect solutions that define performance benchmarks for DDR, LPDDR, and HBM standards
- Deliver power-efficient, high-speed analog circuits in advanced FinFET nodes
- Reduce tape out risk through rigorous simulation and early identification of layout issues
- Influence circuit architecture decisions that shape Synopsys Solution IP product roadmaps
- Contribute to IP products that accelerate customer time to market for AI, mobile, automotive, and data center applications
Requirements:
- PhD with 6+ years or Master's with 8+ years of analog and mixed-signal IC design experience
- Deep expertise in transistor-level CMOS design with strong fundamentals in device physics and matching
- Proven experience designing circuits in FinFET process technologies
- Detailed design experience with high-speed sub-circuits: equalizers, samplers, drivers, serializers, VCOs, PLLs, DLLs, bandgaps, ADCs, or DACs
- Working knowledge of ESD protection techniques and layout strategies
- Proficiency with schematic entry, SPICE simulation (Spectre, HSPICE), and design verification tools
- Strong understanding of design-for-reliability including electromigration, IR drop, aging, and layout-dependent effects
Who You Are:
- You can look at a circuit topology and immediately identify the second-order effects that will matter at corner cases
- You communicate tradeoffs clearly, whether explaining a bias decision to a layout engineer or presenting jitter analysis to customers
- You push back when a specification does not make physical sense, and you do it in a way that moves the team forward
- You are comfortable scripting in Python, Perl, TCL, MATLAB, or C to automate simulation flows and build custom analysis tools
- You document your work clearly enough that someone else can pick up your design six months later and understand why you made each decision
Rewards and Benefits:
We offer a comprehensive range of health, wellness, and financial benefits to cater to your needs. Our total rewards include both monetary and non-monetary offerings. Your recruiter will provide more details about the salary range and benefits during the hiring process.
XML job scraping automation by YubHub
