THE ROLE:

‍

‍

A senior power lead  for power architecture solutions, specializing in areas like microprocessors, GPUs, and machine learning accelerators to optimize power efficiency and performance. This involves creating power management algorithms, developing power models, and collaborating with cross-functional teams to implement and validate power-saving features throughout the design cycle

‍

‍

THE PERSON:

You have a passion for modern, complex processor architecture, digital design, and verification in general. You are a team player who has excellent communication skills and experience collaborating with other engineers located in different sites/time zones. You have strong analytical and problem-solving skills and are willing to learn and ready to take on problems.

‍

‍

KEY RESPONSIBLITIES:

• Focuses on optimizing the energy efficiency and power delivery of high-performance computing hardware used in large-scale AI and machine learning applications
• Driving power methodology for AI-specific hardware components (like tensor cores and matrix multiplication engines) and using simulation tools (e.g., PowerArtist, PTPX) to estimate and optimize power consumption.
• Workload Optimization: Analyze the power and performance characteristics of AI, Graphics, Battery life WLs, especially specific WLs for NPUs, GPUs, and CPUs.
• Performance/Watt Optimization: Focus on maximizing performance while staying within strict power and thermal limits, which is critical for both data center and gaming applications.
• Power Optimization: Estimate and analyze power consumption at various stages of chip design (architecture, RTL, physical design).
• Analysis and modeling: Creating power models and scripts for performance/power trade-offs.
• Methodology Development: Researching, developing, and deploying methodologies and automated flows (using scripting languages like Python or Perl) to enhance power analysis efficiency.
• Collaboration: Working with other teams, including RTL, Architecture, Physical Design, Emulation, software, Firmware to ensure power requirements are met across the hardware-software stack.
• Leadership: Mentoring junior team members and providing technical leadership on complex projects.

‍

PREFERRED EXPERIENCE:

• Extensive industry experience, with a specialization in low-power-processor architectures or power management.
• Expertise in ASIC/SoC power analysis and optimization techniques
• Working experience in dynamic and leakage power estimation, analysis, and reduction at various levels (architecture, RTL, circuit design)
• AI/ML Concepts: Familiarity with machine learning algorithms and their application to power simulation/optimization, as well as an understanding of NPU function and AI workload characteristics.
• Proficiency in hardware description languages like Verilog or VHDL, and scripting
• Strong analytical skills and experience with power analysis tools (e.g., PowerArtist, PTPX)
• Expertise in  hardware description languages (Verilog, VHDL), scripting (Python), and simulation/analysis tools
• Strong analytical and problem-solving skills to tackle complex, multidisciplinary power and performance challenges. Several years of experience in dynamic and leakage power estimation, analysis, and reduction at various levels (architecture, RTL, circuit design)
• Strong scripting and automation skills, preferably in Python
• Excellent communication, presentation, and leadership skills to drive projects and collaborate effectively with cross-functional teams.

‍

ACADEMIC CREDENTIALS:

• Master's degree or PhD in a relevant field, such as Electrical or Computer Engineering, is often preferred.

‍