Headquartered in Sunnyvale, California, Multibeam engages in the design, manufacture, and sales of multi-column electron-beam lithography (MEBL) systems that enable maskless production of integrated circuits (ICs) with on-chip security, rapid prototyping, heterogeneous chiplet integration, silicon photonics, and other emerging applications. Multibeam is led by Silicon Valley Engineering Hall of Famer, Dr. David K. Lam.
At the heart of Multibeam technology is an array of miniature e-beam columns that provide a maskless and high-throughput platform for writing nanoscale IC patterns seamlessly across full wafers. This solves key limitations widely recognized with e-beam lithography, transforming it from a mere R&D curiosity to an incredible fab tool for production. With MEBL systems, device makers can save on lithography costs, safeguard the IC supply chain, and revolutionize microelectronics manufacturing.
We believe the key to our success will be our people. Our best employees love what they do and bring unique backgrounds to our fast-paced, highly collaborative environment. We’re looking to expand our small team with like-minded individuals who want to grow with us.
Job Description
As an FPGA engineer you will be play a key role working closely with our analogue and software engineers to simulate, design, prototype and debug hardware/software for high precision, timing critical mixed signal electronics.
Job Type: Full Time, On Site
Compensation: 150-250k, 401k, Health & Dental Benefits
Core FPGA & Digital Design Expertise
- 8+ years of hands-on FPGA design experience in production environments
- Expert command of HDL design (SystemVerilog, Verilog, and/or VHDL)
- Proven experience with Xilinx/AMD FPGA architectures
- Deep understanding of clocking architectures, CDC analysis, and multi-clock systems
- Strong knowledge of timing closure, constraint development (XDC/SDC), and static timing analysis
- Experience designing high-reliability, low-latency, or high-throughput digital systems
Verification, Debug, and Validation
- Advanced experience with simulation-driven verification (SystemVerilog testbenches, assertions, functional coverage)
- Proficiency with hardware debugging tools (ILA/SignalTap, logic analyzers, oscilloscopes)
- Ability to root-cause complex system-level issues spanning FPGA, firmware, SW and hardware
- Experience supporting bring-up, characterization, and debug of custom boards
Interfaces & Protocols
Strong experience implementing and debugging standard high-speed interfaces such as:
- PCIe, Ethernet (1G–100G)
- DDR3/DDR4/DDR5
- LVDS, SerDes, SPI, I²C, UART
Familiarity with protocol stacks, alignment, calibration, and error handling
System Architecture & Integration
- Ability to architect FPGA subsystems within larger mixed-signal or embedded systems
- Experience collaborating with PCB, signal integrity, firmware, and software teams
- Solid understanding of signal integrity, power integrity, and board-level constraints
- Experience with embedded processors (MicroBlaze, Nios, ARM-based SoCs)
Performance, Reliability & Quality
- Experience designing for determinism, low jitter, and real-time performance
- Knowledge of reset strategies, fault detection, watchdogs, and safe-state design
- Familiarity with design practices for regulated, mission-critical, or safety-conscious systems is a plus
Tools & Workflow
- Proficiency with FPGA toolchain Vivado
- Experience using version control (Git) and structured development workflows
- Comfortable working with CI, scripted builds, regression testing, or linting tools
- Strong documentation discipline: readable RTL, timing notes, interface specs
Leadership & Professional Skills
- Ability to lead FPGA architecture decisions and mentor junior engineers
- Comfortable reviewing designs, constraints, and verification strategies
- Strong communication skills across hardware, firmware, and systems teams
- Proven ability to own designs end-to-end from concept through production