Design Engineer/ Front-End Engineer / RTL Datapath Engineer
About the role. You design and implement the digital front-end RTL at the heart of the chip — including the high-speed datapath that moves data between UCIe and the optical front end. Guided by the interface specs and coding standards, you take blocks from micro-architecture through clean, timing-aware RTL and block-level verification. It's a hands-on role with room to grow your scope as the team and the chip mature.
What you'll do
Develop block-level micro-architecture for your assigned blocks, and contribute to interface and register definitions.
Design and implement front-end RTL blocks in SystemVerilog — datapath elements, the UCIe streaming/RDI adapter, elastic FIFOs, and supporting logic.
Integrate IP and support parameterization for configurability.
Write clean, lint-clean, CDC/RDC-clean RTL that follows the coding and quality standards.
Write block-level testbenches, sanity checks, and assertions (SVA) for your own blocks before handoff to DV.
Power- and timing-aware design — managing block activity, clock-gating, pipelining, and retiming; partner with the backend team on physical closure for your blocks.
Bring-up and debug across simulation and emulation / FPGA prototyping; support DV and silicon bring-up, including DFT/debug hooks in your blocks.
Collaborate with the architecture, modelling, DV, DFT, and backend teams as your blocks move through the flow.
Required
BS or MS in Electrical/Computer Engineering (or equivalent experience).
3+ years of digital RTL design in SystemVerilog, with blocks taken from micro-architecture through to verification handoff.
Solid digital design fundamentals: pipelining, FSMs, FIFOs, clock-domain crossing, and streaming/bus interfaces (e.g., AXI).
Lint and CDC/RDC discipline and clean-RTL practices.
Power- and timing-aware design practices; comfort with synthesis and timing closure, working with the backend team.
Strong debug skills in simulation; scripting in Python, Perl, or TCL.
Preferred
High-speed datapath, SerDes-adjacent, or interface design exposure (UCIe, PCIe/CXL, or similar).
FEC/coding datapath familiarity (e.g., Reed-Solomon) and gray-code mapping.
Assertion-based verification (SVA) and familiarity with UVM block-level testbenches; emulation / FPGA prototyping experience.
Exposure to scale-up / scale-out interconnects or network switch / NIC / memory-controller datapaths.
Low-power / UPF and DFT (scan) concepts.
Optical transceiver, CPO, or linear-drive optics background; advanced-node (N5/N3/N2) design experience.
Skills Required
- BS or MS in Electrical/Computer Engineering (or equivalent experience)
- 3+ years of digital RTL design in SystemVerilog, with blocks taken from micro-architecture through verification handoff
- Solid digital design fundamentals: pipelining, FSMs, FIFOs, clock-domain crossing, streaming/bus interfaces (e.g., AXI)
- Lint and CDC/RDC discipline and clean-RTL practices
- Power- and timing-aware design practices; comfortable with synthesis and timing closure and working with backend team
- Strong debug skills in simulation; scripting in Python, Perl, or TCL
- High-speed datapath, SerDes-adjacent, or interface design exposure (UCIe, PCIe/CXL, or similar)
- FEC/coding datapath familiarity (e.g., Reed-Solomon) and gray-code mapping
- Assertion-based verification (SVA) and familiarity with UVM block-level testbenches; emulation / FPGA prototyping experience
- Exposure to scale-up / scale-out interconnects or network switch / NIC / memory-controller datapaths
- Low-power / UPF and DFT (scan) concepts
- Optical transceiver, CPO, or linear-drive optics background; advanced-node (N5/N3/N2) design experience
What We Do
Lumilens addresses the red hot market for AI data center infrastructure by designing, manufacturing and selling photonic interconnect solutions. We design and use custom robotics + AI in our factories to more efficiently build our products. Lumilens is backed by top-tier venture capital investors including Mayfield and Spark Capital.






