Hardware Design Engineer, High Speed Networking

Working closely with cross-functional teams including software, product management, marketing, and manufacturing, our engineers innovate new system architectures and develop high-speed PCBs requiring state-of the-art signal integrity and power integrity design practices. What You'll Do Our Hardware Design Engineering team is at the forefront of developing high-speed networking and Ethernet products used in Enterprise campuses, hyperscale datacenters and bleeding edge AI clusters. The team is responsible for the end-to-end design and development of advanced hardware solutions that meet the demands of modern networking environments. Candidates for this position would be responsible for the entire hardware design process:

• Authoring functional specifications of high power and high density Ethernet switches used in AI networks
• Selecting and qualifying components
• Schematic capture and tool-based design verification
• Working closely with eCAD teams on PCB layout and component footprints
• Working with internal teams to run (or run your own) signal integrity simulations on both power and datapath signals
• Working closely with mechanical and thermal engineers on the system general arrangement and physical realization
• Specifying PCB stackup and fabrication details with various PCB vendors
• Working with internal teams to develop (or develop your own) programmable logic devices for control and timing planes
• Working closely with local and overseas Contract Manufacturers (CM), from proto through production
• Lab bring up and debug of prototypes
• Working closely with diagnostics software engineers on both design validation and manufacturing test development
• Driving complex system debug between software, hardware, and test teams
• Training CM for high yield test and manufacturing

• BSEE or MSEE
• 2+ years of relevant experience in hardware engineering (extremely promising new graduates will also be considered).
• Solid understanding of basic electronics theory and design
• Experience with circuit design and debug, especially involving high speed signals
• Experience with lab debug and test equipment
• Experience learning complex design tools
• Familiarity with signal integrity and power integrity concepts
• FPGA design and system simulation experience is a plus
• Some Python or other coding experience is a plus