포지션 상세
Tesla's AI Compute electrical design team builds the hardware that powers autonomous driving, humanoid robotics, and the data centers that train and serve our models. You will own complex high-speed boards built around Tesla's custom neural-engine silicon and leading x86/Arm processors, balancing inferencing performance, efficiency, cost, and reliability — from a single vehicle ECU up to scale-up and scale-out clusters in the AI inference data center.
• Define electrical architecture — circuit and glue-logic design, processor and memory selection, system timing, and bus loading
• Collaborate cross-functionally with silicon design, post-silicon, PCB layout, firmware, mechanical, signal and power integrity, thermal, reliability, EMC, and program management
• Document design requirements, calculations, and power budgets to a level that supports audit and reuse
• Author bring-up and electrical validation plans, then verify every feature and interface across PVT corners
• Design for manufacturability, testability, and EMC compliance
• Demonstrated end-to-end PCB assembly design ownership, including hands-on bring-up, electrical validation, failure analysis, and system test
• Strong high-speed board design (>10 Gbps) with PCIe, MIPI, Ethernet, DisplayPort, USB, or HDMI
• Complex motherboard experience with high-performance x86/Arm processors and/or custom silicon
• Working knowledge of AI SoC specifications — compute, memory bandwidth, network ingress/egress, peak power, storage — and benchtop bring-up
• Hardware and software co-design experience optimizing inference for large language models
• High-power, high-efficiency voltage regulator design
• Solid analog and power fundamentals (MOSFETs, op-amps, switching regulators, gate drivers)
• Experience shipping high-volume products from concept to mass production
• Comfortable iterating with mechanical, thermal, and EMC partners under tight, evolving constraints
• Track record of driving suppliers to meet reliability, performance, and scalability targets across the design-to-production lifecycle
• Proficient with bench tools — oscilloscopes, BERT, network analyzers, signal generators
주요업무
• Own hardware end-to-end: electrical specification, system architecture, SPICE simulation, schematics, layout supervision, prototype build, board bring-up, and validation• Define electrical architecture — circuit and glue-logic design, processor and memory selection, system timing, and bus loading
• Collaborate cross-functionally with silicon design, post-silicon, PCB layout, firmware, mechanical, signal and power integrity, thermal, reliability, EMC, and program management
• Document design requirements, calculations, and power budgets to a level that supports audit and reuse
• Author bring-up and electrical validation plans, then verify every feature and interface across PVT corners
• Design for manufacturability, testability, and EMC compliance
자격요건
• Degree in Electrical / Computer Engineering, or equivalent industry experience• Demonstrated end-to-end PCB assembly design ownership, including hands-on bring-up, electrical validation, failure analysis, and system test
• Strong high-speed board design (>10 Gbps) with PCIe, MIPI, Ethernet, DisplayPort, USB, or HDMI
• Complex motherboard experience with high-performance x86/Arm processors and/or custom silicon
• Working knowledge of AI SoC specifications — compute, memory bandwidth, network ingress/egress, peak power, storage — and benchtop bring-up
• Hardware and software co-design experience optimizing inference for large language models
• High-power, high-efficiency voltage regulator design
• Solid analog and power fundamentals (MOSFETs, op-amps, switching regulators, gate drivers)
• Experience shipping high-volume products from concept to mass production
• Comfortable iterating with mechanical, thermal, and EMC partners under tight, evolving constraints
• Track record of driving suppliers to meet reliability, performance, and scalability targets across the design-to-production lifecycle
• Proficient with bench tools — oscilloscopes, BERT, network analyzers, signal generators
