Senior Director of Matter Compiler Engineering

Senior Director of Matter Compiler Engineering – Atomic Machines

Atomic Machines is ushering in a new era of micromanufacturing with its Matter Compiler™ technology platform. This platform enables new classes of micromachines to be designed and built by providing manufacturing processes and a materials library that are inaccessible to semiconductor manufacturing methods. It unlocks MEMS manufacturing not only for device classes that could never be produced by semiconductor methods, but also for entirely new categories.

Furthermore, this digital platform is fully programmable in the way 3D printing is digital—but whereas 3D printing produces parts of a single material using a single process, the Matter Compiler™ technology platform is a multi‑process, multi‑material system: bits and raw materials go in, and complete, functional micromachines come out. The Atomic Machines team has also created an exciting first device—made possible only through the Matter Compiler™ technology platform—that we will be unveiling to the world soon.

Our offices are in Emeryville and Santa Clara, California.

This senior leadership role is one of the most pivotal and technically broad at Atomic Machines. Reporting directly to the VP, Device & Process Engineering, you will be the executive responsible for the development of Atomic Machines’ digital manufacturing “Nodes,” each of which implements a class of physical manufacturing process, as a fully automated digital machine built upon our robust hardware and software platform that enables sophisticated interaction with all other Nodes, ultimately manifesting in the Matter Compiler (MC).

You will lead a team of exceptional principal‑level mechanical engineers (both ICs and ICMs) to design and build the Nodes—from initial prototypes and DoEs through to commercial readiness—required for the launch of our first product and beyond, and your team will work in the context of our fully operational Hybrid Fab, which provides a unique agile development/deployment environment for all aspects of the MC.

Importantly, we are growing rapidly, and you will play a key role in further building out the team with additional bar‑raising talent.

• Cultivate a high‑performing leadership team by managing managers and directors while ensuring their teams consistently deliver against strategic objectives and engineering excellence standards.
• Own the node hardware architecture: mechanism selection, kinematics, structural design, thermal control, sensing, actuation, and serviceability—with clear interfaces to software, controls, and manufacturing.
• Drive hardware requirements and error budgets for precision, throughput, and reliability (accuracy, repeatability, stiffness, settle time, drift, MTBF/MTTR, uptime) and translate them into subsystem specifications and verification plans.
• Lead design and industrialization of motion subsystems (stages/gantries, rotary axes, Z/force axes), end‑effectors, fixturing, and in‑situ metrology aligned with sub‑micron performance needs.
• Establish rigorous design processes: design reviews, interface control documents (ICDs), GD&T and tolerance analysis standards, DFMEA/PFMEA, verification & validation (V&V) plans, and disciplined engineering change control (ECO/ECN).
• Build scalable calibration and alignment strategies into the hardware (datums, fiducials, kinematic mounts, reference artifacts) and partner with software to automate calibration, compensation, and drift detection.
• Partner with Manufacturing Engineering to develop the prototype‑to‑production pipeline for node hardware: supplier strategy, DFM/DFA/DFS, first‑article inspection, incoming quality, build documentation, assembly/test fixtures, and ramp to stable yields.
• Drive reliability engineering for nodes: test strategy (lifetime, wear, thermal cycling, vibration, contamination), FRACAS, root cause analysis, preventive maintenance design, and reliability growth metrics.
• Hire, develop, and lead a high‑performing multi‑disciplinary hardware organization (ME, opto‑mechanics, test/validation) with a strong bar for technical excellence and execution.
• Partner cross‑functionally to integrate…