ANALYSIS ENGINEER JOB DESCRIPTION

When a structural load path is wrong, no amount of downstream testing catches it cheaply. The Analysis Engineer in aerospace manufacturing is the practitioner who catches it first — reading primary airframe structures, wheel and brake assemblies, and composite layups against FAR Part 23 and Part 25 certification standards before metal is cut or a test article is built. Verification happens here. The role sits within a multi-discipline engineering organization, accountable to design leads and program managers who depend on signed-off stress reports to advance through Critical Design Reviews and safety of flight boards.

As the Analysis Engineer, you perform structural static and dynamic analyses on aerospace components and assemblies, producing the stress reports and test plans that substantiate airworthiness certification under FAA and military regulatory frameworks. You work within a structural mechanics team, partnering daily with design engineers across composites, metals, and mechanical systems to keep certification evidence current through every program milestone.

Career Impact: Engineers who accumulate signed structural analysis reports across FAR Part 23 and Part 25 programs build a certification record that commands senior and lead roles in aerospace OEM and MRO markets.

Business Impact: A stress report that clears a safety of flight review board removes the single largest schedule risk in an aircraft modification or new-build program, directly enabling production entry.

Growth Opportunity: Consistent exposure to composite structural analysis, damage tolerance methods, and FEA-based certification — across both metallic and non-metallic structures — expands the scope of programs you can lead independently within three to five years.

• Perform structural static and dynamic analyses on airframe components and assemblies using Finite Element and classical hand calculation methods.
• Act as analysis lead for concurrent programs to ensure all systems maintain certification coverage against program due dates.
• Review and approve structural analysis reports and engineering drawings prepared by other engineers within the team.
• Plan structural tests and provide on-site technical direction to test teams during execution of certification test articles.
• Evaluate design deviation requests and non-conformance reports during production and integration phases to protect airworthiness margins.
• Deliver structural analysis findings and test results to customers and internal design review boards, including safety of flight reviews.
• Mentor junior engineers in structural mechanics, load path identification, and fabrication-aware design methods.
• Contribute to the continuous improvement of structural analysis capabilities and documentation standards within the group.

• Bachelor's degree in Mechanical, Aerospace, or Structural Engineering, or equivalent work experience.
• 3 or more years of structural analysis experience, with demonstrated application to primary airframe structures or aerospace mechanical assemblies.
• Sound knowledge of structural mechanics including static analysis, load path identification, and free body diagram formulation.
• Experience applying both Finite Element methods and classical hand calculations to metallic and composite structures.
• Ability to read and interpret engineering drawings and support multi-disciplinary program teams through prototyping and serial production.
• Strong technical writing skills sufficient to author stress reports, test plans, and design review presentations.
• Familiarity with FAA certification regulations and airworthiness standards applicable to fixed-wing aircraft modifications.

• Experience with damage tolerance analysis methods including fatigue, crack growth, and creep assessment for aerospace structures.
• Proficiency in composite structural analysis, with particular depth in primary airframe layup verification and repair substantiation.
• Working knowledge of 3D CAD tools for drawing interpretation and design collaboration within a multi-site program team.
• Active or eligible DoD Secret clearance, relevant for programs with military airworthiness requirements.

• Structural analysis report completion rate against program milestone dates, tracked per active program.
• Percentage of design deviation requests dispositioned within the required review cycle without rework.
• Number of safety of flight review findings attributable to analysis gaps in reports signed off by this engineer.
• FEA model correlation accuracy against physical test data, measured as percentage deviation from test results.
• Volume of junior engineer analyses reviewed and approved per quarter, reflecting mentoring throughput.
• Typical tools: FEA platforms (commonly ANSYS, NASTRAN, or ABAQUS); CAD viewers (commonly CATIA V5 or SolidWorks); hand calculation documentation in Excel.

• Base Salary Range: $85,000 to $125,000 per year depending on seniority and program scope.
• Bonus: 5% to 10% annual performance bonus, common in defense and aerospace OEM environments.
• Equity: Rare at individual contributor level; stock purchase plans available at larger publicly traded OEMs.
• Health Benefits: Medical, dental, and vision coverage; most aerospace employers cover the majority of premiums.
• PTO: 15 to 20 days annually, plus federal holidays and program-dependent shutdown periods.
• Common Perks: Tuition reimbursement for continuing engineering education, professional society membership support, and relocation assistance for cleared or specialized roles.

Figures are estimates based on general US market benchmarks and may be outdated. Adjust based on location, company size, and seniority level.

Candidates for this position are considered without regard to race, color, religion, sex, national origin, age, disability, veteran status, genetic information, sexual orientation, gender identity, or any other characteristic protected under applicable federal, state, or local law. Consistent with the Americans with Disabilities Act, reasonable accommodations are available to qualified individuals upon request throughout the hiring process. Background screening, which may include employment history and reference verification, is a condition of employment. All candidates must be authorized to work in the United States without sponsorship, and some positions may require eligibility for a security clearance.

The Failure Analysis Engineer owns device-level failure analysis of mixed signal ICs at Cirrus Logic's Edinburgh lab, supporting customer returns, product qualifications, yield excursions, and new product development. Collaborating with project managers, design and engineering groups, regional teams, and external labs, this role drives the identification of root causes that protect product quality on a global scale.

Key Responsibilities

• Perform device level failure analysis on mixed signal ICs to support customer returns, product qualifications, yield excursions, and new product development.
• Carry out electrical and physical fault isolation on mixed signal IC devices to identify root cause of failure.
• Interact directly with project managers, design and engineering groups, regional teams, and external analysis labs.
• Work within multi-functional teams to resolve and understand the root cause of product issues.
• Use sophisticated failure analysis equipment within Cirrus Logic's failure analysis lab.
• Write technical reports that summarise the analysis carried out, conclusions drawn, and relevance to the issue under investigation.
• Use application test setups when required to support analysis requests.
• Maintain and support complex failure analysis equipment within the lab.
• Evaluate and introduce new equipment and latest techniques to the failure analysis flow.

Required Qualifications

• Degree in electronics, physics, chemistry, materials science, or related subject area, or equivalent validated industry experience.
• Hands-on proficiency with electrical fault isolation tools and techniques such as photon-emission, static and dynamic laser stimulation, scan diagnostic techniques, ATE, thermal imaging, micro/nanoprobing, and applications bench testing.
• Hands-on proficiency with physical failure analysis tools and techniques such as SEM, FIB, ion mill, RIE, planar delayering, and chemical deprocessing.
• In-depth understanding of CAD layout, ATE and bench test datalogs, digital and analogue circuits, device physics, IC fabrication, and assembly.
• Knowledge of microscopy including optical, SEM, and FIB.
• Familiarity with common IC failure mechanisms and qualification stress configurations.
• Experience and proven track record in a similar failure analysis role.
• Excellent analytical and problem-solving skills, strong technical writing and verbal communication skills, attention to detail, and safety-conscious mindset.

Embedded within a multi-program structural engineering team, the Aerospace Stress Analysis Engineer III performs static and linear structural analysis for FAR Part 23 and Part 25 aircraft modifications while acting as analysis lead across concurrent programs. Working closely with design, engineering, and management stakeholders, this role ensures structural integrity, mentors junior engineers, and secures safety of flight outcomes across all phases of design.

Core Functions

• Perform static and linear structural analysis for modifications to FAR Part 23 and Part 25 aircraft.
• Act as analysis lead for one or more programs concurrently to ensure programmatic due dates are met and all systems have analysis coverage.
• Analyze metals, non-metallic, and composite structures using both Finite Element Analysis and classical hand calculation methodology.
• Write structural test plans, test reports, and structural analysis reports.
• Perform Computer Aided Design drafting and design.
• Peer review and approve structural analysis reports and drawings of other engineers.
• Review and approve design deviation requests and non-conformance reports throughout production and integration phases.
• Provide technical inputs to mechanical designs during all phases of design.
• Present analysis assumptions and results during internal and external design reviews and safety of flight review boards.
• Mentor engineers in areas of stress analysis, design, and fabrication methods.

Qualifications and Experience

• Bachelor's degree in Mechanical, Aerospace, or Structural Engineering with 4 years of experience, or additional experience in lieu of a degree.
• Active Secret clearance, or eligibility to obtain minimum Secret clearance.
• Experience in CFD, damage tolerance, vibration, fatigue, and/or thermal analysis.
• Experience with military airworthiness requirements and working knowledge of FAA rules and regulations.
• Strong knowledge in static and dynamic engineering mechanics.
• Proficient knowledge of FEMAP and SolidWorks, and familiarity with FEA and CAD software.
• Understanding of common manufacturing processes and practices, and experience leading projects and/or teams.
• Excellent communication skills to interface with customers and peers.

Reporting to engineering leadership, the Failure Analysis Engineer performs bench-level electrical verification and fault isolation on integrated circuits to determine root cause of failure, managing the full analysis process from die verification through formal reporting. Partnering with design, product, and quality engineering teams, this role advances product reliability by delivering clear failure analysis findings that inform process and design improvements.

Primary Duties

• Perform bench level electrical verification and fault isolation on integrated circuits to determine root cause of failure.
• Verify fail mode of die, isolate failure site, and identify fail mechanism.
• Work from schematic diagrams, written and verbal descriptions, layouts, or defined plans to perform testing, checkout, and troubleshooting functions.
• Become proficient in a variety of failure analysis techniques and equipment operation.
• Manage the failure analysis process in conjunction with skill set development.
• Work in a team environment and provide consultation for non-failure analysis disciplines.
• Write detailed failure analysis reports.

Skills and Qualifications

• Bachelor's degree in Electrical Engineering or related engineering field.
• 3 years of experience in failure analysis.
• Strong analytical and problem-solving skills, strong verbal and written communication skills, and strong time management skills.
• Ability to work in teams and collaborate effectively with people in different functions, take initiative, drive for results, and work effectively in a fast-paced and rapidly changing environment.
• Ability to analyze and interpret data, interpret customer input, and apply input to products and processes.

Sitting at the intersection of structural mechanics and aerospace design, the Stress Analysis Engineer performs structural static and dynamic analyses using Finite Element and classical methods to assess the integrity of primary airframe structures. Operating across design teams, test phases, and customer presentations, this role contributes to the Structural Mechanics Group's ongoing development of analytical capabilities while delivering compliant, optimised aircraft solutions.

Duties

• Perform structural static and dynamic analyses using Finite Element or classical methods to assess structural integrity.
• Support the design teams to derive and guide detailed design solutions for existing and future aircraft projects.
• Interact closely with engineers from other disciplines to achieve an optimised design within the stipulated project schedule.
• Plan structural tests and be on-site during project testing phases to advise the test team and test director on relevant structural aspects.
• Deliver presentations to customers regarding relevant structural aspects and test results to conclude structural integrity of designs and modifications.
• Contribute to the Structural Mechanics Group responsible for developing and improving structural capabilities and skills within the organization.

Education and Experience

• Good Master's or Bachelor's degree in Mechanical or Aerospace Engineering.
• Experience with Finite Element and classical methods for structural load and stress analysis of primary airframe structures.
• Practical experience supporting airframe modification projects through prototyping phase and serial production.
• Strong analytical skills with sound knowledge of structural mechanics and strong foundation in load and stress analysis.
• Ability to use CATIA V5 or similar CAD tool and familiarity with Airbus Drawing System.
• Experience in composite structural and dynamic analysis.
• Good written and oral communication skills in English, proficiency in MS Office including Excel and VBA.
• Self-motivated team player able to work independently.

A key member of the Tempe Analysis team at Honeywell Aerospace, the Stress Analysis Engineer II performs structural stress analysis using Ansys and hand calculations across a wide range of product lines including environmental controls, valves, and actuators. Collaborating across project and design engineering teams, this role delivers analysis results that support Critical Design Reviews and ensure products meet structural and schedule requirements.

Functions

• Perform structural stress analysis using Ansys and hand calculations.
• Support execution of vibration testing.
• Perform mechanical component selection and sizing including bearings and seals.
• Create technical documentation such as stress reports or part specifications.
• Collaborate with project and design engineering teams.
• Create and present analysis results in Critical Design Reviews.
• Provide cost and workload estimation and maintain schedule adherence to meet key milestones.

Experience and Qualifications

• Bachelor's degree in Mechanical or Aerospace Engineering.
• Must be a U.S. Citizen due to contractual requirements.
• Demonstrated experience in structural, dynamic, and/or thermal analysis using FEA software, with Ansys preferred.
• Experience with aerospace mechanical components and knowledge of bearings and seals.
• Fundamental understanding of mechanical engineering principles and sound engineering judgement.
• Strong technical communication skills with ability to communicate complex technical ideas clearly and concisely.
• Self-motivated with consistent initiative to get things done independently.

Structural integrity across the full aircraft wheel and brake product lifecycle depends on the Structural Analysis Engineer, who performs structural and dynamic analysis on assemblies from Requirement Definition through Production Support and Sunset. Based within a team that spans South Bend, IN and international sites including China, India, and Mexico, this role shapes engineering process improvements and supports service issues to keep aircraft wheel and brake programs on track.

Accountabilities

• Perform structural and dynamic analysis on aircraft wheel and brake assemblies during all phases of the IPDS process from Requirement Definition through Production Support and Sunset.
• Analyze and size aircraft wheel and brake components and assemblies.
• Present and document analysis results.
• Review and approve aircraft wheel and brake component and assembly drawings.
• Review test procedures and reports, and witness structural tests.
• Support vibration testing and evaluate manufacturing discrepancies.
• Support service issues and review material failure reports.
• Improve existing engineering processes by introducing automation through Python and other methods.

Minimum Qualifications

• Bachelor's degree in Mechanical or Aerospace Engineering.
• Master's degree in relevant concentration in lieu of 2 years of experience.
• At least 2 years of experience or relevant coursework in two or more of the following: static analysis, structural dynamics, fatigue analysis, damage tolerance analysis using NASGRO, creep analysis, or finite element modeling in ANSYS, ABAQUS, and/or NASTRAN.
• Experience with engineering drawing interpretation.
• Ability to support multiple projects and willingness to learn new concepts independently.

As the Simulation Analysis Engineer, this role develops and maintains 3D CFD internal flow models and complex 1D system simulation models to support vehicle efficiency improvements across Polestar's powertrain and thermal programs. The broader vehicle attributes team relies on this work to produce accurate, correlated simulation outputs that inform component and calibration decisions across Electric Propulsion, Thermal and Climate, Drive Line, and other cross-functional groups.

Job Functions

• Develop 3D CFD internal flow models of system components on an occasional basis.
• Maintain models in accordance with changes to vehicle hardware, operating modes, calibration, and physical test data.
• Prepare reports and provide feedback to technical and project management teams.
• Proactively recommend component, system, and/or calibration changes that improve overall vehicle efficiency.
• Engage cross-functionally with Vehicle Attributes, Thermal and Climate systems, Electric Propulsion, Interiors, Drive Line, Vehicle Calibration, and Electrical groups.

Background and Experience

• Bachelor's degree or equivalent experience in a relevant area.
• 3 years of industry experience.
• Demonstrable experience in development of complex system models using 1D simulation in Matlab and Simulink/Simscape, correlation of simulation results to physical test data, heat transfer and pressure loss theory, and internal flow using CFD.
• Some system control and calibration experience is an advantage.
• Comfortable working within tight time frames and presenting new alternative ideas.

Structural Analysis Engineer delivers mechanical analyses of RPS structures, systems, and components, including testing and prototype hardware, ensuring compliance with ASME, ASCE, and AWS pressure vessel and regulatory codes. The work directly supports vendor oversight, test requirements generation, and the high-quality documentation standards required for nuclear power system development programs.

Scope of Work

• Perform mechanical analyses of RPS structures, systems, and components including testing and prototype hardware.
• Verify mechanical performance meets or exceeds limits of structure, regulatory, and pressure vessel codes such as ASME, ASCE, and AWS.
• Document all analysis results and design solutions clearly and with a high degree of technical quality.
• Generate test requirements documents to validate analysis results.
• Provide oversight of vendors performing mechanical analyses and review vendor engineering work to ensure consistency with function and quality requirements.

Technical Qualifications

• B.S. or higher in Mechanical Engineering or equivalent from an accredited university with 4+ years of relevant experience focusing on structural analysis.
• Experience performing activities under an NQA-1, AS9100, or similar quality standard.
• Specific experience with fatigue analysis and fracture mechanics is a plus.
• Experience with FEA tools such as ANSYS or similar, and working knowledge of 3D CAD programs such as SolidWorks or similar.
• Experience with GD&T implementation and analysis per ASME Y14.5.
• Self-starter with ability to coordinate and lead a design team's effort with minimal direction, meet deadlines, and perform under pressure.
• Excellent written and oral communication skills and ability to work independently or as part of a team.

The Lead Analysis Engineer produces aerodynamic and contamination targets for new car projects, setting complete vehicle requirements and conducting wind tunnel tests and CFD-based data correlation across the full product lifecycle for HEV, PHEV, and BEV programs. Collaborating with HQ fluid attributes teams, cross-functional groups, and management, this role ensures vehicle aero performance meets APAC regulatory standards while driving investments in simulation tools and computational capacity.

Leadership Responsibilities

• Set aerodynamic and contamination targets for new car projects and provide guidance to Designers to optimize aerodynamic performance and update clay car.
• Set complete vehicle requirements and support work with technical overall targets carried downstream the development.
• Sign off at key vehicle milestones including system mule, prototype, pre-production, and production build events.
• Make engineering judgements based on wind tunnel test and CFD results.
• Set Wind Tunnel Verification plan, prepare for Clay car, and conduct wind tunnel tests.
• Set contamination road verification plan and conduct data correlation between CFD and AWT.
• Communicate regularly with HQ fluid attributes teams and present findings to cross-functional teams and management.
• Track aerodynamic and contamination related China trends and interpret APAC regulations.
• Drive investments in software, computational capacity, and new technologies.

Professional Experience

• MS in Aerodynamics Engineering or related field.
• 3+ years of experience in automotive aerodynamic and contamination area including at least one full product lifecycle from concept through production for HEV, PHEV, or BEV.
• Expert understanding of fluid dynamics and good knowledge of CFD.
• Familiarity with geometry creation, simplification, and data management within CAD software, preferably CATIA.
• Experience with wind tunnel testing.
• Knowledge of Star-CCM+, ANSYS Fluent, OpenFOAM, PreonLab, and Engys Elements.
• Good interpersonal skills and ability to integrate into a global team-working environment.

Embedded within the Airbus Zephyr program team, the Structural Analysis Engineer performs structural analysis for aircraft components across all phases from concept study through production support. Working closely with design engineers, test teams, and multi-discipline stakeholders, this role ensures structural compliance through FEA and hand analysis, with a primary focus on composite structures.

Day-to-Day Responsibilities

• Perform structural analysis for aircraft components as part of the Airbus Zephyr program.
• Support the design teams to derive and guide detailed design solutions for existing and future aircraft projects.
• Provide technical inputs and advice to the wider product development team on concept studies and arising build issues.
• Support any testing required to clear designs and materials.
• Assist with the resolution of emergent issues such as structural repairs or requested deviations.
• Proactively identify improvements that could positively affect either the end product or processes used.

Knowledge Skills and Abilities

• Proven experience in Structural Analysis with proficiency in FEA software and conventional hand calculations.
• Experience in air vehicle structural design principles and ability to coordinate across multiple disciplines.
• Familiarity with MSC suite of tools including Nastran.
• Understanding of composites and metallic analysis, with the role being 80% composites.
• Structural analysis and requirements checking including FEA analysis and hand analysis.

Reporting to the engineering leadership team, the Senior Failure Analysis Engineer develops and executes hands-on root cause analyses of sophisticated robotics systems and software to support the MONARCH platform's continuous improvement program. Partnering with Product Development, Clinical Specialists, Field Service Engineers, and Manufacturing personnel, this role advances product quality and patient outcomes by delivering formal analysis reports and mentoring the broader analysis team.

Engineering Responsibilities

• Collaborate with Product Development, Clinical Specialists, Field Service Engineers, and Manufacturing personnel to perform in-depth root cause analysis of device functionality and failures.
• Design and execute experiments and test methods to test theories and determine root cause.
• Acquire, analyze, and interpret information from data logs and various applications as well as perform physical investigation of devices as part of root cause analysis.
• Utilize failure analysis laboratory equipment to support failure analysis including optical digital microscopes, probes, X-ray systems, and custom electrical test software.
• Write formal analysis reports resulting in clear and accurate messaging about analysis findings for a broad audience.
• Enhance investigation methodologies and tools, and mentor the analysis team in the execution of those methods and tools.
• Help drive product and process improvements.

Position Requirements

• Bachelor of Science in Computer Science, Electrical Engineering, Mechanical Engineering, or related field, or equivalent work experience; Advanced Degree preferred.
• Six-Sigma, ASQ CQE, or similar certifications preferred.
• 3 years of proven experience in a failure analysis, product, or process engineering role in a regulated environment such as medical device, aerospace, or defense.
• Demonstrated technical knowledge across robotics systems and/or software engineering.
• Experience working with ISO 13485 and 14971, GMP guidelines, and FDA regulations.
• Proficiency in root cause analysis tools such as FMEA, Fault Trees, cause-and-effect diagrams, and 5 Whys, and ability to use trend analysis, Pareto, and other basic charting techniques.
• Prior experience using failure analysis laboratory equipment such as optical digital microscopes, probes, and X-ray systems.
• Sophisticated analytical and problem-solving skills, strong communication and presentation skills, and ability to work within all levels of the organization.
• Flexibility to support changing assignments and priorities while maintaining a positive and collaborative demeanor, and ability to travel up to 10%.

Sitting at the intersection of radar simulation and missile defense system performance, the Analysis Engineer characterizes sensor performance against threat ballistic and cruise missiles through modeling, simulation, and digital analysis tools. Operating across internal technical teams, defense program stakeholders, and external customers including the Space Force and FAA, this role develops and tests new analytical models that drive system requirements, design decisions, and mission safety outcomes.

Strategic Responsibilities

• Characterize sensor performance against threat ballistic and cruise missiles through modeling, simulation, and analysis using digital simulations.
• Develop and use analysis tools and other technical methods to analyze performance of threat ballistic and cruise missiles.
• Develop, integrate, and use analytical models and tools to test new threat data and software products, assess system capability, and drive system requirements and design.
• Support SME in developing radar model simulation based in Python.
• Define technical approach and plan studies based on understanding of the engineering community and customer needs.
• Conduct individual analyses and contribute to team technical studies.
• Communicate with external customers and internal technical staff via correspondence and briefings.
• Support technical leadership for internal projects and contribute to external customer forums.
• Author technical details of statements of work.

Requirements

• Bachelor's degree in Systems Engineering, Electrical Engineering, Physics, Applied Math, or related technical field; Master's or PhD preferred.
• Active and transferrable DoD Secret clearance, with Top Secret clearance preferred.
• 5-10 years of work experience with experience in sensors, seekers, or remote sensing in RF and IR bands.
• Modeling and analysis experience in one or more of: RF Sensors/EO-IR Imaging, Multi-Sensor Data Fusion, Missile Systems, Defense Weapon System Performance, or Ground and Field Test Events.
• Programming and scripting experience in a Linux environment, with MATLAB and Python for modeling, simulation, and data analysis.
• Facility working with C++ API and creating test drivers.
• Familiarity with version control using Git, issue tracking using JIRA, collaboration software such as Confluence, and high-performance computing environments.

A key member of the Tempe Analysis team supporting Ford Motor Company's global electronic hardware programs, the Analysis Engineer oversees worst case circuit analysis, electrical stress analysis, and I/O modeling for upper body EE hardware including displays, clusters, and blowers. Collaborating across design engineers, suppliers, and purchasing teams, this role strengthens governance of electronic circuit design processes and ensures Ford maintains a leadership position in automotive electronics development.

Ownership Areas

• Provide electrical and electronic engineering consulting services for design engineers and management relative to analytical methods such as circuit analysis, worst case circuit analysis, electrical stress analysis, and I/O modeling.
• Own and govern upper body EE hardware electronic circuit design processes and common implementation standards.
• Own and govern electronic design processes such as Hardware Checklist, WCCA Guide, ELCOMP requirements, and generic robustness documents.
• Direct generic product documentation such as Subsystem Design Specifications, Engineering Specifications, and FMEAs.
• Lead reviews with module owners and design teams of analysis methods and results to ensure compliance to Ford standards.
• Lead efforts in resolving electronic design questions, issues, and concerns for Ford's global operations.
• Support launch sign-off process and provide consultation.
• Support engineering and supplier community through training, seminars, and mentoring.
• Assess competitive electronic technologies and work with Purchasing and Engineering to develop commodity strategies.

Education and Experience

• Bachelor's degree in Electrical Engineering, Computer Engineering, or related field, or equivalent experience; Master's degree preferred.
• 5+ years of experience with electronic circuit design and/or analysis, with 8+ years preferred.
• Recognized specialist in electronic design with a consistent record of robust implementations.
• Worst case analysis experience and oversight or review of design and analysis work.
• Recognized specialist with extensive experience in automotive systems requirements and test methods.
• In-depth knowledge and proven delivery of vehicle program design process.
• Outstanding supplier relationship skills and excellent program management, mentoring, written, and oral communication skills.

Reliable utility infrastructure at Southern California Edison depends on the Analysis Engineer, who conducts root cause investigations and failure data analysis of distribution, transmission, and substation equipment to develop failure mitigation strategies. Serving as a technical resource for Subject Matter Experts, interns, and cross-functional teams, this role produces recommendations that reduce equipment failure likelihood and advance safety across Edison's T and D network.

Work Activities

• Conduct root cause investigation and failure analysis of failed equipment.
• Conduct failure data analysis and trending to gain insights to support development of failure mitigation strategies.
• Develop recommendations to mitigate and reduce the likelihood of failures, including changes to design standards, work practices, materials, construction standards, and inspection criteria.
• Work with Subject Matter Experts to drive solutions to issues arising from standard updates.
• Undertake projects and multi-functional challenges requiring cross-functional teams.
• Perform engineering and economic analysis of various technical issues.
• Support development and mentoring of engineering interns and entry level engineers within the team.
• Create and maintain a safety-conscious work environment by leading and influencing others to follow safety protocols and safe work practices.

Technical Qualifications

• Bachelor's degree or higher in Engineering.
• California PE License.
• 5 or more years of engineering experience with experience conducting failure analysis and/or experience working with utility assets such as distribution, transmission, or substation equipment.
• Experience with T and D equipment and processes, and experience with T and D tools such as Circuit eMaps, Interruption Log Sheets, and SCEGeoView.
• Experience leading and/or participating in cross-functional teams to address and solve business and engineering issues.
• Excellent proficiency in Microsoft Excel, Access, Word, and PowerPoint.
• Experience developing and communicating ideas effectively to diverse audiences through oral presentations and written communications.

As the Analysis Engineer supporting SpaceX launch activities, this role analyzes trajectory profiles, simulates launch vehicle failure modes, and develops Autonomous Flight Termination System destruct criteria to ensure each mission meets Space Force and FAA quantitative risk requirements. The flight safety team relies on this work to author the flight plans and licensing data that protect the general public and enable mission success from Earth orbit to lunar landing.

Delivery Expectations

• Analyze established and first-time trajectory profiles designed by the SpaceX Guidance, Navigation, and Control team for risk to the launch site and general public.
• Perform reliability analyses for complex systems both quantitative and qualitative.
• Review systems and identify failure modes and scenarios to put strong engineering controls in place with the right verifications.
• Simulate a variety of failure modes that the launch vehicle may experience and the impact they have on achieving a safe orbit and meeting mission requirements.
• Author flight plans and generate data required by Space Force and FAA regulations to obtain launch licenses for each mission flown.
• Develop and test Autonomous Flight Termination System destruct criteria to ensure acceptability for reliable and safe flight.
• Write technical documents for internal and external customers in support of contract milestones, licensing efforts, or other customer requirements.

Experience and Qualifications

• Bachelor's degree in an engineering or STEM discipline; Master's degree preferred.
• 1+ years of programming experience in MATLAB or Python.
• Experience with Failure Mode, Effects and Criticality Analysis, fault trees, distribution fitting, or hypothesis testing.
• Familiarity with launch vehicle architectures and fundamental systems such as avionics, propulsion, structures, and guidance, navigation, and control.
• Experience processing and analyzing large datasets such as Monte Carlo simulations quickly and efficiently.
• Experience managing and utilizing issue and project tracking software such as JIRA, and collaborative coding using Git or SVN.
• Strong communication skills and comfort interfacing with external contacts, with ability to solve complex problems on time independently or as part of a team.

Analysis Engineer advances electrical and physical failure investigations of defective semiconductor products using industry-standard equipment including Scanning Electron Microscopes, X-ray, and Plasma Etchers. The work directly supports root-cause identification through collaboration with internal and external laboratories, ISO audit participation, and adherence to lab maintenance and data control procedures.

Key Responsibilities

• Perform electrical and physical analyses of defective products using industry-standard equipment and techniques including hazardous chemicals.
• Work with internal and external teams and laboratories to identify failure mechanisms and contribute to root-cause failure investigations.
• Articulate analysis progress and results verbally and in writing.
• Meet failure analysis cycle time requirements.
• Participate in lab processes and procedures including lab and tool maintenance and data/control systems.
• Participate in ISO audits.

Skills and Qualifications

• Bachelor's degree in Electrical Engineering or Electrical Engineering Technology.
• Entry level knowledge of electronic theory and semiconductor physics.
• Aptitude for electronic troubleshooting and physical fault isolation.
• Willingness and ability to become a proficient operator of high-tech equipment such as Scanning Electron Microscopes, Scanning Acoustic Microscopes, Energy-dispersive X-ray spectroscopy, oscilloscopes, X-ray, and Plasma Etcher.
• Familiarity with semiconductor manufacturing processes.
• Manual dexterity, attention to detail, and patience to perform microscopic cross-sectioning, polishing, chemical deprocessing, and electrical probing.
• Knowledge and use of MS Office suite.
• Strong work ethic, dependability, willingness to learn, and ability to function effectively in a fast-paced team environment.

The Analysis Engineer builds and tests chain system models using multi-body dynamics simulation software, correlating results against real-world internal combustion engine performance data to support customer issue resolution and new product validation. Working across simulation, laboratory, and customer test environments, this role delivers technical direction and documented findings that improve chain drive reliability across engine and industrial applications.

Core Responsibilities

• Test chain drive performance in simulations and within internal combustion engines or other applications.
• Create chain system models using multi-body dynamics simulation software.
• Analyze system and component performance in dynamics simulation software and correlate with real world and lab test results.
• Use Microsoft Excel to pre-process and post-process large data files.
• Communicate and document engineering simulation or test results and provide technical direction.
• Develop and provide test plans for customer issues.
• Operate engine dynamometers, motoring stands, and other test equipment.
• Set up chain system and component tests using appropriate hardware, sensors, and data acquisition.

Background and Experience

• Bachelor's degree in Engineering or applicable undergraduate science degree, with BSME preferred.
• Understanding of internal combustion engines and ability to assemble and disassemble engines to install timing drives and instrumentation.
• Understanding of data acquisition, instrumentation, and engineering experimentation.
• CAD and FEA skills to design and analyze parts using SolidWorks, Ansys, or NX.
• Proficiency in Microsoft PowerPoint, Outlook, and Word, and use of Microsoft Excel for data processing.
• Ability to travel to customer or test sites approximately 6 times per year, with occasional international travel required.