openashbyhqsomacap
Power Validation Engineer
Etched
LocationSan Jose
WorkplaceOnSite
EmploymentFullTime
Posted2026-04-30T19:57:50.410+00:00
Last observed2026-06-13 05:24:48.222159
Job idsomacap-etched:ashbyhq:40365c15-37d2-4266-a042-5a21bfb9212b
About Etched Etched is building the world’s first AI inference system purpose-built for transformers - delivering over 10x higher performance and dramatically lower cost and latency than a B200. With Etched ASICs, you can build products that would be impossible with GPUs, like real-time video generation models and extremely deep & parallel chain-of-thought reasoning agents. Backed by hundreds of millions from top-tier investors and staffed by leading engineers, Etched is redefining the infrastructure layer for the fastest growing industry in history. Job Summary We are looking for a Power Validation Engineer to own the end-to-end power characterization of our ASIC and the mezzanine card platform — from early silicon bring-up through production qualification. You will design measurement methodology, build test benches, and drive findings directly into silicon, package, and system design decisions. Key Responsibilities - Design and execute power measurement campaigns across all voltage rails (VDD_CORE, HBM, PCIe, AUX, etc) under realistic LLM inference and power virus workloads; characterize peak, sustained, and idle power envelopes across PVT corners and define derating curves used in system thermal and PDN specs - Validate power delivery network (PDN) performance — VRM load step response, PCIe power compliance, PDN impedance — and translate measurements into actionable feedback on capacitor placement, plane geometry, and de-cap strategy for PCB and package design teams - Profile power transient events (ramp rates, droop amplitudes, recovery profiles) and correlate them with on-die performance monitor data; build automated power sweep frameworks exercising the full inference workload space across model sizes, batch sizes, sequence lengths, and precision modes - Run extended stress workloads (72 h+ continuous) to surface reliability risks and throttling behavior; instrument multi-zone thermal profiles and support our overseas partners with SLT, production and debugging. - Validate power sequencing, PMBus telemetry accuracy, and BMC alert thresholds across cold-start, hot-restart, and fault-injection scenarios; own power-related pass/fail criteria across FAT, SFT, and RIN qualification stages - Feed characterization data back to RTL and physical design teams as input for DVFS policy, clock gating coverage, and leakage optimization; write precise validation reports that enable silicon and firmware teams to act without re-running experiments - Lead the electrical characterization, validation, and qualification process for the on-board system-level power distribution network, spanning from power converter design to ASIC power integrity validation. - Provide critical support to design engineers through debug, component validation, and failure analysis for released products, independently troubleshooting and determining the root cause of electrical component defects and design flaws. - Develop and implement automated/scripted test procedures for the general qualification and testing of Devices Under Test (DUTs) as part of a comprehensive automation suite. - Collect, analyze, and aggregate test data to support data-driven engineering decisions, generate reports on findings, reduce data sets, and thoroughly investigate test outcomes down to the hardware interface or component level. - Collaborate with hardware designers and diagnostics development teams to understand new project architectures and system components, ensuring the necessary support for testing and debug efforts is implemented. You may be a good fit if you have (Must-have qualifications) - A Bachelor’s degree in Electrical Engineering or a related field. Advanced degrees or certifications in power electronics or related areas are a plus - Deep understanding of ASIC and system-level power delivery — VRM topology, PDN impedance, decoupling strategy, and transient response — with hands-on bench experience using precision shunts, isolated differential probes, and VNA-based PDN
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