MEMS Process Integration Engineer at HRL Laboratories

Malibu, 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

Aerospace, Automotive, IndustrialIndustries

Requirements

Ph.D. or Master’s Degree in a physical science or engineering field with 5+ years of fabrication process experience in an R&D environment
Strong track record of process development, process optimization, design of experiments methodology, statistical data analysis and problem solving
Solid verbal and written communication skills in a multi-person team environment, enabling cross-laboratory collaboration and coordination
Ability to combine disparate process recipes into a full fabrication flow and understand the impact of process interdependence
Experience and process development expertise in contact/stepper photolithography, wet and plasma dry etches, high aspect-ratio deep reactive ion etching (DRIE) of silicon, glass and other MEMS relevant materials, chemical vapor deposition, dielectric and metal depositions, wafer bonding and vacuum encapsulation of microscale structures, sacrificial and structural layer creation and wet/dry release
Ability to conduct metrology such as optical/infrared microscope inspections, interferometric measurements and scanning electron microscopy with elemental analysis
Ability to design and characterize process control monitors (PCM) for in-process verification
Ability to design, modify and/or review mask layouts in CAD layout software such as L-Edit or Cadence
Hands-on experience with both surface and bulk micro-machining (highly desired)
Proper documentation of fabrication experiments (desired)
Back-end wafer process experience in wafer grinding, CMP, die singulation and assembly processes into packages (a plus)
Ability to utilize data analysis software such as JMP, MATLAB, or Python (a major plus)
Automation of fabrication data collection and analysis (a plus)
Device simulation such as mechanical, thermal, or electrical Finite element analysis (FEA) modeling in COMSOL or SolidWorks (desired)
Must be able to perform safely in a MEMS microfabrication cleanroom and follow standard operating practices
US Citizenship and ability to obtain and maintain a US Government Security Clearance

Responsibilities

Join a diverse team of applied scientists and engineers in the development of next generation MEMS-enabled sensors and actuators for high-performance aerospace, automotive and industrial applications
Innovate and create novel microfabrication processes and integrate them into fully optimized process flows for cutting-edge wafer-scale sensors and actuators’ R&D efforts
Participate in the design, layout, fabrication, and characterization of MEMS-enabled devices and subsystems
Conduct layout design and designs of experiments
Provide timely feedback to project teammates through in-process wafer inspections and metrology data
Serve as a task lead and eventually provide project leadership

Skills

Key technologies and capabilities for this role

MEMSProcess IntegrationProcess DevelopmentProcess OptimizationDesign of ExperimentsStatistical Data AnalysisLayout DesignWafer FabricationMetrologyCleanroom FabricationMicrofabrication

Questions & Answers

Common questions about this position

What are the key required skills for the MEMS Process Integration Engineer role?

Key skills include a strong track record of process development, optimization, design of experiments, statistical data analysis, and problem solving; expertise in photolithography, wet/dry etches, DRIE, CVD, depositions, wafer bonding, and metrology; plus ability to design mask layouts in CAD software like L-Edit or Cadence.

Is this a remote position or does it require on-site work?

This information is not specified in the job description.

What is the salary or compensation for this role?

This information is not specified in the job description.

What is the team environment like at HRL Laboratories for this position?

You will join a diverse team of applied scientists and engineers, working in a multi-person team environment with solid verbal and written communication skills required to enable cross-laboratory collaboration.

What makes a strong candidate for this MEMS Process Integration Engineer position?

Strong candidates have hands-on experience combining disparate process recipes into full fabrication flows, expertise in MEMS processes like DRIE and wafer bonding, metrology skills, CAD layout design, and the ability to lead tasks and provide project leadership.

HRL Laboratories

Develops cognitive systems for human-machine collaboration

About HRL Laboratories

HRL Laboratories focuses on research and development of advanced cognitive systems and human-machine collaboration, enhancing human cognitive abilities through artificial intelligence (AI) and machine learning (ML). The company develops solutions like the ICArUS project, which improves machine interpretation of information, and the MEMES project, aimed at enhancing human memory. HRL operates on a project-based model, serving clients in defense and high-tech sectors by delivering customized solutions and licensing technologies. The goal is to lead in creating cognitive systems that improve the interaction between humans and machines.

Malibu, CaliforniaHeadquarters

1997Year Founded

$1.9MTotal Funding

GRANTCompany Stage

AI & Machine Learning, DefenseIndustries

501-1,000Employees

Benefits

Health Insurance

Dental Insurance

Vision Insurance

Life Insurance

401(k) Company Match

Gym Membership

Paid Vacation

Risks

Competition in quantum technologies could challenge HRL's market position.

Rapid AI advancements by competitors may outpace HRL's cognitive systems projects.

Reliance on government contracts poses risks if funding priorities change.

Differentiation

HRL Laboratories excels in cognitive systems enhancing human-machine collaboration.

The company is a leader in AI-driven defense projects and autonomous systems.

HRL's MEMES project focuses on advanced memory enhancement technologies.

Upsides

Growing interest in neuromorphic computing aligns with HRL's cognitive systems focus.

Increased funding for AI-driven defense projects benefits HRL's autonomous systems work.

Energy-efficient data center trends support HRL's cooling system innovations.

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