Director of Mechanical Engineering, Hardware Platform
Lead and scale a mechanical engineering team developing precision hardware platforms and automation nodes for a micromanufacturing system. Own architecture, design, prototyping through production, and cross-functional coordination.
275k – 320k
On-site15+ YOEHardware Engineering
About the role
Hardware Platform and Node Architecture
Own the hardware architecture for Atomic Machines’ platform and Node systems, including mechanisms, kinematics, structures, thermal control, sensing, actuation, fixturing, serviceability, and interfaces to software, controls, and manufacturing.
Lead the design and development of precision motion subsystems, including stages, gantries, rotary axes, Z / force axes, end-effectors, fixturing, and in-situ metrology.
Drive hardware requirements, error budgets, and subsystem specifications for precision, throughput, reliability, accuracy, repeatability, stiffness, settle time, drift, uptime, MTBF, and MTTR.
Guide architectural decisions and technical tradeoffs across mechanical, electrical, controls, software, vision, manufacturing, and supply chain domains.
Ensure platform and Node hardware is designed for scalability, calibration, alignment, serviceability, and manufacturing readiness.
Mechanical Engineering Technical Leadership
Provide deep technical leadership in mechanical design for robotics, precision automation, and advanced manufacturing systems.
Establish and maintain high standards for design reviews, design documentation, interface control documents, GD&T, tolerance analysis, DFMEA / PFMEA, verification and validation plans, and engineering change control.
Drive disciplined engineering practices while maintaining speed, creativity, and first-principles problem solving.
Engage directly in technical problem solving as needed with a “do whatever it takes” mindset.
Partner with teams to debug complex hardware, factory, and system-level issues with urgency and rigor.
Build scalable calibration and compensation strategies into the hardware, including datums, fiducials, kinematic mounts, reference artifacts, automated calibration, and drift detection.
Prototype-to-Production Execution
Lead hardware development from concept and early prototypes through design implementation, debug, verification, validation, qualification, manufacturing transfer, and production ramp.
Partner with Manufacturing Engineering to build the prototype-to-production pipeline for Node and platform hardware.
Drive DFM, DFA, DFS, supplier strategy, first-article inspection, incoming quality, build documentation, assembly fixtures, test fixtures, and stable production yields.
Establish reliability engineering practices, including lifetime testing, wear testing, thermal cycling, vibration testing, contamination control, FRACAS, root cause analysis, preventive maintenance design, and reliability growth metrics.
Ensure hardware systems are robust, manufacturable, serviceable, and ready for sustained operation in Atomic Machines’ Hybrid Fab and future production environments.
Cross-Functional Coordination and Planning
Partner with leaders across software, controls, electrical engineering, vision, manufacturing, quality, supply chain, program management, and company leadership to define requirements, align priorities, and anticipate technical and resource risks.
Collaborate with leadership and program management to define clear objectives, milestones, timelines, dependencies, and success criteria.
Represent the Hardware Platform team in broader program and company-level planning discussions.
Ensure the team’s work is accurately planned, resourced, communicated, and tracked.
Drive clarity and alignment in ambiguous technical and organizational situations.
Team Leadership and Management
Lead, develop, and scale a high-performing hardware engineering organization, including senior individual contributors, managers, and potentially directors.
Hire exceptional mechanical, hardware, opto-mechanical, test, and validation engineers to support Atomic Machines’ long-term strategy.
Cultivate a culture of high standards, technical rigor, accountability, collaboration, and truth-seeking.
Assign team members effectively across platform and cross-functional engineering efforts.
Provide technical guidance, coaching, mentorship, and career development for team members.
Manage performance clearly and directly while creating an environment where exceptional engineers can do their best work.
Align team priorities with company objectives and ensure the team works effectively within company processes.
What You’ll Need
15+ years of experience developing complex robotics, precision automation, advanced manufacturing systems, or dynamic mechanical precision systems.
7+ years of experience managing engineering teams, including senior engineers; experience managing managers and / or directors is strongly preferred.
Deep technical expertise in precision mechanism design, robotics, motion systems, stiffness / compliance, vibration and dynamics, thermal drift, error budgeting, practical metrology, actuators, motors, and electromechanical systems.
Demonstrated ownership of hardware systems from early prototype through manufacturing ramp and sustained production or field operation.
Strong command of mechanical engineering fundamentals, detailed design, drawings, GD&T, tolerance stack-ups, DFM, DFA, DFS, and supplier collaboration.
Experience selecting and integrating sensors and actuators, including encoders, force / torque sensors, vision systems, capacitive or inductive sensors, pneumatics, motors, bearings, and related components.
Experience leading teams through the full product development lifecycle: requirements, architecture, design, implementation, debug, verification, validation, qualification, and transfer to manufacturing.
Demonstrated knowledge of rapid prototyping and scalable production manufacturing processes.
Skills
Precision Mechanism DesignRoboticsMotion SystemsGD&TTolerance AnalysisDFMDfaDfmeaPfmeaActuatorsMotorsSensorsVision SystemsKinematicsThermal Control
Lead global Field Engineering organization for end-to-end deployment, integration, commissioning, and lifecycle support of on-premise quantum computing systems. Requires 10+ years deploying complex hardware, 3+ years managing people, and strong systems engineering background.
240k – 275k
Hybrid10+ YOEHardware Engineering
Director of Mechanical Engineering
EightsleepSan Francisco, CA
Lead the mechanical engineering team at Eight Sleep to develop complex electromechanical sleep fitness hardware products from concept through high-volume production. Requires 10+ years experience launching consumer/medical devices, 2+ years managing engineers, deep expertise in mechanisms, molding, DFM, and Asia manufacturing.
225k – 300k
On-site10+ YOEHardware Engineering
Director, Structures - Design
Shield AIDallas, TX +1
Lead the aerostructures organization for the X-BAT autonomous aircraft program, overseeing design, analysis, integration, testing, and certification of composite and metallic primary structures from prototype through production. Requires 12+ years aerospace structural engineering experience with proven team leadership and the ability to obtain a U.S. security clearance.
210k – 320k
Remote12+ YOEHardware Engineering
Director/Senior Manager, Electronics Engineering
FourierMountain View, CA
Leads development of power electronics systems for hydrogen electrolyzers, owning electrical architecture from grid tie-in to sensors, ensuring safety/compliance in hazardous environments, and managing engineering teams.
185k – 250k
On-site12+ YOEHardware Engineering
Head of Quality & Reliability
Northwood SpaceLos Angeles, CA
Northwood is seeking a Head of Quality & Reliability to build and lead a world-class quality organization. This role is responsible for embedding quality and reliability into every stage of the product lifecycle, ensuring systems meet the highest standards of performance, safety, and mission success.