Device Design Engineer at Atomic Machines

Emeryville, California, United States

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Not SpecifiedCompensation

Mid-level (3 to 4 years), Senior (5 to 8 years)Experience Level

Full TimeJob Type

UnknownVisa

Manufacturing, Semiconductors, MEMSIndustries

Requirements

A first-principles mindset — you question assumptions, reframe problems, and approach challenges with creativity and multidisciplinary thinking
Strong multiphysics skills, including experience with analytical modeling and simulations (e.g., electrostatics, fluid dynamics, thermal, structural) using tools such as COMSOL
Experience taking concepts from initial sketch to working prototype, owning all stages of subsystem development — design, prototyping, and testing
Comfort balancing simulation/analysis with hands-on lab work in a fast-paced R&D environment
Ability to plan and execute experimental validation, including developing custom test setups and protocols
Proficiency in characterizing prototypes using advanced metrology tools (e.g., SEM/EDS, CT scanning, optical profilometry)
Collaborative skills to work cross-functionally with design peers, process engineers, technicians, manufacturing, and mechanical engineering teams
Experience in MEMS or similar microscale device design is valuable

Responsibilities

Drive the end-to-end design of microscale device subsystems, from concept through simulation, prototyping, testing, and iteration, leveraging the Matter Compiler™ platform
Develop and refine innovative device architectures and components using advanced materials and processes beyond conventional MEMS
Perform analytical modeling and multiphysics simulations (e.g., electrostatics, fluid dynamics, thermal, structural) with tools such as COMSOL
Design, build, and iterate on experimental prototypes in a fast-paced R&D environment with short design-test-learn cycles
Plan and execute rigorous experimental validation, including development of custom test setups and protocols tailored to new device functions or phenomena
Characterize prototypes using advanced metrology tools (e.g., SEM/EDS, CT scanning, optical profilometry) to inform design decisions and process improvements
Collaborate cross-functionally with process, manufacturing, and mechanical engineering teams to co-develop devices and platform capabilities
Maintain comprehensive documentation of design rationale, simulation data, experimental results, and iteration history per internal standards
Contribute to the evolution of design and development workflows in a multidisciplinary manufacturing paradigm

Skills

Key technologies and capabilities for this role

MultiphysicsMEMSDevice DesignCADPrototypingMaterials ScienceProcess Engineering

Questions & Answers

Common questions about this position

Is this position remote or onsite?

This is a full-time, onsite position located in our Emeryville location.

What are the required skills for the Device Design Engineer role?

The role requires strong multiphysics skills including analytical modeling and simulations in electrostatics, fluid dynamics, thermal, and structural areas using tools like COMSOL, along with experience taking concepts from sketch to prototype across design, prototyping, and testing.

What is the salary or compensation for this role?

This information is not specified in the job description.

What is the work environment like at Atomic Machines?

The environment is highly collaborative and fast-moving, with engineers balancing simulation and analysis with hands-on lab work, collaborating closely with design peers, process engineers, and technicians.

What makes a strong candidate for this Device Design Engineer position?

A strong candidate brings exceptional creativity, first-principles thinking, a multidisciplinary design approach, experience in MEMS (valuable but not limiting), and the ability to drive end-to-end device design from concept to iteration.

Atomic Machines

Develops machines for atomically precise manufacturing

About Atomic Machines

Atomic Machines develops machines for atomically precise manufacturing (APM), which allows for the creation of physical objects directly from digital designs. Their technology focuses on microfabrication, particularly in producing Micro-Electro-Mechanical Systems (MEMS), which are small devices that combine mechanical and electronic components. Unlike traditional methods that rely on silicon, Atomic Machines offers a more efficient approach to MEMS fabrication. They cater to various industries, including semiconductor, automotive, healthcare, and consumer electronics, providing advanced fabrication solutions that enhance precision, efficiency, and scalability. The company differentiates itself by focusing on APM, aiming to set new standards in manufacturing technology. Their goal is to transform the manufacturing landscape by merging digital and physical production processes.

Berkeley, CaliforniaHeadquarters

2019Year Founded

SEEDCompany Stage

Industrial & Manufacturing, HealthcareIndustries

51-200Employees

Benefits

Professional Development Budget

Risks

Emerging competition from companies like Zyvex Labs in atomically precise manufacturing.

Potential intellectual property disputes as more companies enter the APM space.

Economic downturns could reduce demand for MEMS in key sectors.

Differentiation

Atomic Machines focuses on atomically precise manufacturing, a novel approach in microfabrication.

The company targets diverse industries, including automotive, healthcare, and consumer electronics.

Their innovative MEMS technology offers higher precision and efficiency than traditional methods.

Upsides

Growing demand for MEMS in smart medical devices presents a significant market opportunity.

Advancements in nanomaterials could enhance Atomic Machines' manufacturing capabilities.

The shift to electric vehicles increases the need for advanced MEMS sensors.

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