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Crash Simulation Engineer Jobs in California (NOW HIRING)

... simulation and/or testing for all accidents; · Perform vehicle, site, and evidence inspections ... Technical Requirements · College degree in engineering, or related field · Industry experience ...

Analyze structures for strength, stiffness, and vibration performance under operational, crash, and ... engineers and contribute to process improvement initiatives for modeling efficiency and simulation ...

Analyze structures for strength, stiffness, and vibration performance under operational, crash, and ... engineers and contribute to process improvement initiatives for modeling efficiency and simulation ...

Analyze structures for strength, stiffness, and vibration performance under operational, crash, and ... engineers and contribute to process improvement initiatives for modeling efficiency and simulation ...

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Crash Simulation Engineer information

What does a Crash Simulation Engineer do?

A Crash Simulation Engineer uses computer modeling and simulation software to analyze how vehicles behave during collisions. They help predict the impact of crashes on vehicle structure and passenger safety, allowing manufacturers to improve design before building physical prototypes. Their work is crucial for meeting safety standards and regulations, as well as reducing development costs and time. Crash Simulation Engineers often collaborate with design, testing, and safety teams to ensure vehicles are both safe and efficient.

What are the key skills and qualifications needed to thrive as a Crash Simulation Engineer, and why are they important?

To thrive as a Crash Simulation Engineer, you need a strong background in mechanical engineering or a related field, with expertise in finite element analysis (FEA) and crash dynamics. Familiarity with simulation tools such as LS-DYNA, HyperMesh, and CATIA, along with relevant certifications in simulation software, is highly valuable. Attention to detail, problem-solving, and effective communication skills help convey complex simulation results and collaborate with cross-functional teams. These competencies are essential for ensuring vehicle safety, compliance with regulations, and the successful integration of crashworthiness into the design process.

What is the difference between Crash Simulation Engineer vs Finite Element Analyst?

AspectCrash Simulation EngineerFinite Element Analyst
Required CredentialsBachelor's or Master's in Mechanical Engineering, Automotive Engineering, or related fields; knowledge of CAE softwareBachelor's or Master's in Mechanical Engineering, Civil Engineering, or related fields; expertise in finite element analysis software
Work EnvironmentAutomotive or aerospace R&D labs, design teams, testing facilitiesEngineering firms, research institutions, manufacturing companies
Industry UsagePrimarily in automotive safety, crashworthiness, and structural integrityBroadly in structural analysis, product design, and failure prediction

The Crash Simulation Engineer focuses on developing and running crash tests using specialized software to improve vehicle safety. In contrast, the Finite Element Analyst performs detailed structural analyses across various industries. While both roles require knowledge of CAE tools and similar credentials, the Crash Simulation Engineer specializes in crash scenarios, making their work more specific to automotive safety testing.

What are the typical challenges faced by Crash Simulation Engineers when integrating simulation results with real-world crash test data?

Crash Simulation Engineers often encounter challenges in aligning simulation results with actual crash test outcomes due to factors like material variability, model accuracy, and real-world unpredictability. Bridging this gap requires close collaboration with test engineers, iterative refinement of finite element models, and thorough validation processes. Staying updated with the latest simulation software and continually improving modeling techniques are essential to accurately predict crash performance and ensure vehicle safety compliance.
What are popular job titles related to Crash Simulation Engineer jobs in California? For Crash Simulation Engineer jobs in California, the most frequently searched job titles are:
What job categories do people searching Crash Simulation Engineer jobs in California look for? The top searched job categories for Crash Simulation Engineer jobs in California are:
What cities in California are hiring for Crash Simulation Engineer jobs? Cities in California with the most Crash Simulation Engineer job openings:
Sr. Principal Software Engineer, Debug Tools

Sr. Principal Software Engineer, Debug Tools

Ampere Computing LLC

Santa Clara, CA • On-site

$225K - $338K/yr

Full-time

Medical, Dental, Vision, Retirement

Posted 3 days ago


Job description

Description
Invent the future with us.
Ampere is a semiconductor design company for a new era, leading the future of computing with an innovative approach to CPU design focused on high-performance, energy efficient AI compute.
As a pioneer in the new frontier of energy efficient high-performance computing, Ampere is part of the Softbank Group of companies driving sustainable computing for AI, Cloud, and edge applications.
Join us at Ampere and work alongside a passionate and growing team - we'd love to have you apply!
About the Role
As a core member of the Ampere Debug Tools team, you will be responsible for the architecture, design, and development of Debug Tools solutions for the next generation of Ampere products. This role is distinguished by deep technical ownership, architecture leadership, and cross-team influence.
The Debug Tools Team is part of the Ampere Software Team. Our mission is to develop a comprehensive debug strategy and roadmap for internal debug capabilities, as well as to develop and deploy debug solutions for all internal and external Ampere SoC users.
  • Internal users include Debug Tools software users from the Virtual Platform, Emulation, Platform, Design Validation (DV), Post-Silicon Validation, Design For Test (DFT), Firmware, Operating System, Software, Performance, and Application Engineering teams.
  • External users include partners, ODMs, OEMs, datacenter, edge and embedded customers.
  • Debug solutions include Arm Development Studio, TRACE32 PowerView, and OpenOCD debuggers, Arm Self-Hosted Trace for Linux, and utilities for invasive debug, bus trace, instruction trace, array dump, and scan dump. This role will be for the lead of the Arm Development Studio implementation.

What You'll Achieve:
  • Architect, design, develop, and deploy software-based Debug Tools for custom 64-bit Armv9 SoC and other processors.
  • Invent new debug tools and techniques for future products and technologies.
  • Influence the architecture and design team decisions with knowledge of internal and external debug tools on Ampere SoCs.
  • Contribute to software architecture and design documents, application notes, and other software product documentation.
  • Develop tooling for advanced debugging techniques, such as instruction trace, bus trace, array dump, scan dump, and ATE bootstrapping.
  • Develop open source JTAG and self-hosted trace and debugger software for internal and external use in debugging Ampere microprocessors.
  • Develop Arm Development Studio, TRACE32, and OpenOCD utilities for internal and external use in debugging Ampere microprocessors.
  • Perform pre-silicon bring-up of debug software on software simulators and hardware emulation platforms.
  • Collaborate with hardware design, architecture, post-silicon validation, and platform AE teams, as necessary, to resolve critical customer issues.

About You:
  • Bachelor's degree in Computer Science, Computer Engineering, Electrical Engineering, or Software Engineering or related technical field & 12 years of related experience; or MS degree & 8 years; or PhD & 5 years
  • Proficiency with Arm® architecture and ecosystem, including Armv8-a/v9-a and Armv7-m processor architectures, Arm Debug Interface Architecture, Arm CoreSight™ Architecture, Arm AMBA® APB, AXI, AHB, and CHI protocols.
  • Proficiency in C/C++, Python, and Bash programming.
  • Experience using Arm Development Studio, TRACE32 PowerView, OpenOCD, and GDB debuggers.
  • Experience with instruction trace, bus trace, scan dumps, array dumps, and crash capture.
  • Experience with version control tools such as git, and software best practices.
  • Strong analytical, debugging, and testing methodology skills.
  • Proven ability to own problems and drive them to a resolution.
  • Experience with system software debugging, tracing, and analysis tools, such as perf, ftrace, etc, is recommended.

What We'll Offer:
At Ampere we believe in taking care of our employees and providing a competitive total rewards package that includes base pay, cash long-term incentive, and comprehensive benefits. The full base pay range for this role is between $225,500 and $338,500, except in the San Francisco Bay Area where the range is between $237,000 and $356,000.
Our benefits include health, wellness, and financial programs that support employees through every stage of life.
Benefit highlights include:
  • Premium medical insurance, dental insurance, vision insurance, as well as income protection and a 401K retirement plan, so that you can feel secure in your health and financial future.
  • Unlimited Flextime and 10+ paid holidays so that you can embrace a healthy work-life balance.
  • A variety of healthy snacks, energizing espresso, and refreshing drinks to keep you fueled and focused throughout the day.

And there is much more than compensation and benefits. At Ampere, we foster an inclusive culture that empowers our employees to do more and grow more. We are excited to share more about our career opportunities with you through the interview process. Our benefits include health, wellness, and financial programs that support employees through every stage of life.
#LI-Hybrid
#LI-Hybrid #LI-DR
#LI-Hybrid
Ampere is an inclusive and equal opportunity employer and welcomes applicants from all backgrounds. All qualified applicants will receive consideration for employment without regard to race, color, national origin, citizenship, religion, age, veteran and/or military status, sex, sexual orientation, gender, gender identity, gender expression, physical or mental disability, or any other basis protected by federal, state or local law.