Power Architecture Engineer
NVIDIA
NVIDIA is a “learning machine” that constantly evolves by adapting to new opportunities that are hard to solve, that only we can address, and that matter to the world. This is our life’s work , to amplify human creativity and intelligence. As an NVIDIAN, you’ll be immersed in a diverse, supportive environment where everyone is inspired to do their best work. Come join our diverse team and see how you can make a lasting impact on the world!
What You’ll Be Doing
- Be part of NVIDIA Power Architecture Group that owns end-to-end power aspects such as - ASIC power analysis, power architecture, low power design, power-aware verification, advanced power methodologies, UPF methodologies, power feature bring-up on silicon, and post-Si power correlation for NVIDIA's family of products.
- Contributing to power analysis by helping to architect, develop, verify & correlate power estimation models/tools for NVIDIA's products
- Be part of the team that architects & designs system-level power features for optimizing the dynamic and leakage power dissipation for different usecases.
- Work on power verification which includes structural, functional & power aware verification of power features of NVIDIA products by coming up with test plans, write testcases, build test bench components like Monitors, assertions and coverage points & own verification convergence across RTL, Gates and Silicon.
- Validate the effectiveness of the power features on silicon, conduct studies and contribute to the Performance/Watt improvement ideas.
- Help build power management solutions and drive innovation in energy efficiency across NVIDIA’s product portfolio.
- B.Tech./M.Tech with 1+ years of experience related to Power such as Power analysis, Power Design, Power Aware Verification, UPF methodologies and Power Correlation
- Strong fundamentals in power including transistor-level leakage/dynamic characteristics of VLSI circuits
- Strong fundamentals in digital design and verilog
- Familiarity with low power design techniques such as multi-VT, Clock gating, Power gating, Voltage Islands and Dynamic Voltage-Frequency Scaling (DVFS)
- Good background in power estimation techniques, flows and algorithms
- Knowledge of power intent formats - UPF/CPF or similar
- Experience in Static Power check tools like VCLP/CLP or similar & Dynamic Power verification tools like VCS-NLP or equivalent
- Good debugging and problem-solving skills
- Strong communication skills and ability & desire to work as a great teammate
- Good programming skills - Python preferred (Good skills with object-oriented programming & design) preferred.
- Exposure to Power analysis tools (such as PTPX, EPS) or exposure to lab setups for power measurements like scope/DAQ with ability to analyze board level power issues is a plus
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