Algorithm Developer III
Santa Clara County, CA - USA
Job Summary
Who We Are
Applied Materials is a global leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. We design build and service cutting-edge equipment that helps our customers manufacture display and semiconductor chips the brains of devices we use every day. As the foundation of the global electronics industry Applied enables the exciting technologies that literally connect our world like AI and IoT. If you want to push the boundaries of materials science and engineering to create next generation technology join us to deliver material innovation that changes the world.
What We Offer
Salary:
$161000.00 - $221000.00Location:
Santa ClaraCAYoull benefit from a supportive work culture that encourages you to learn develop and grow your career as you take on challenges and drive innovative solutions for our customers. We empower our team to push the boundaries of what is possiblewhile learning every day in a supportive leading global company. Visit our Careers website to learn more.
At Applied Materials we care about the health and wellbeing of our employees. Were committed to providing programs and support that encourage personal and professional growth and care for you at work at home or wherever you may go. Learn more about our benefits.
About Rocket
Rocket is a team within Applied dedicated to advancing and scaling rapid innovation methodologies across the organization. We focus on accelerating breakthrough technologies by combining deep scientific expertise advanced computational methods and practical engineering to solve complex challenges in semiconductor manufacturing.
Position Summary
We are seeking a highly motivated and intellectually curious Algorithm Developer to work at the intersection of artificial intelligence and machine learning (AI/ML) theoretical physics and systems engineering. In this role you will drive the development of next-generation solutions for high-impact semiconductor manufacturing applications.
The successful candidate will contribute to multiple disruptive design initiatives by developing automated systems capable of ingesting and processing data from thousands of sensors identifying critical physics-based relationships and building predictive and control models. These solutions will leverage a hybrid approach that combines first-principles physics modeling with advanced machine learning techniques including physics-informed neural networks (PINNs) to optimize complex manufacturing processes in real time.
Key Responsibilities
- Design and develop scalable data pipelines to collect process and analyze high-volume sensor data from semiconductor manufacturing systems.
- Identify and model underlying physical relationships governing complex process behavior.
- Develop predictive and control algorithms using a combination of traditional physics-based methods and machine learning approaches.
- Build robust maintainable software modules that integrate directly with real-world manufacturing tools and systems.
- Collaborate with multidisciplinary teams spanning physics engineering software development and data science to accelerate innovation and technology deployment.
- Contribute to the design and implementation of intelligent automation solutions for advanced semiconductor manufacturing processes.
- Develop ML surrogates or reduced order models based on rigorous physics simulations including research design development and implementation & proliferation accompanying in accordance with project budgets and time schedules.
- Optimize accuracy / performance tradeoffs to retain achieve but speed execution of algorithm modules
- Analyze large quantities of sensor and metrology data and iteratively improve simulation and models to improve accuracy
- Implement models and code for user facing applications in control systems or dashboards
- Maintain a clean and consistent code base that can be extended by team
Ideal Candidate Profile
The ideal candidate possesses a strong foundation in theoretical and computational disciplines coupled with practical software development expertise. You are passionate about applying scientific principles to solve real-world engineering challenges and are equally comfortable moving between mathematical modeling machine learning and software implementation.
You should demonstrate:
- Deep expertise in one or more areas of theoretical physics applied mathematics computational science or simulation-driven engineering.
- Working knowledge of modern machine learning data science and statistical modeling techniques.
- Strong software engineering capabilities including the ability to translate complex algorithms into clean scalable and production-ready code.
- A practical mindset focused on delivering solutions that interact with and control physical systems in real-world environments.
Qualifications
Minimum Requirements
- Ph.D. in Physics Applied Mathematics Computational Chemistry Electrical Engineering Mechanical Engineering or a related quantitative discipline or
- Masters degree in one of the above fields with a minimum of 2 years of relevant industry or research experience.
Preferred Qualifications
- Demonstrated ability to develop high-quality maintainable code evidenced through public GitHub repositories open-source contributions peer-reviewed publications or equivalent technical work.
- Experience with computational methods computer-aided engineering (CAE) engineering simulation physical modeling or the analysis of complex systems with a focus on practical and impactful outcomes.
- Experience applying machine learning techniques to scientific engineering or industrial problems.
- Strong interest in sensors instrumentation hardware systems robotics or other technologies that bridge software with physical-world applications.
- Proven ability to work effectively in interdisciplinary environments and solve ambiguous complex technical problems.
Why Join Rocket
Rocket offers a unique opportunity to work on cutting-edge challenges at the convergence of physics AI and semiconductor manufacturing. You will help develop transformative technologies that directly influence next-generation manufacturing systems while collaborating with a team dedicated to rapid innovation scientific excellence and real-world impact.
Additional Information
Time Type:
Full timeEmployee Type:
Assignee / RegularTravel:
NoRelocation Eligible:
NoThe salary offered to a selected candidate will be based on multiple factors including location hire grade job-related knowledge skills experience and with consideration of internal equity of our current team addition to a comprehensive benefits package candidates may be eligible for other forms of compensation such as participation in a bonus and a stock award program as applicable.
For all sales roles the posted salary range is the Target Total Cash (TTC) range for the role which is the sum of base salary and target bonus amount at 100% goal achievement.
Applied Materials is an Equal Opportunity Employer. Qualified applicants will receive consideration for employment without regard to race color national origin citizenship ancestry religion creed sex sexual orientation gender identity age disability veteran or military status or any other basis prohibited by law.
Required Experience:
IC
About Company
Applied Materials, Inc. is the global leader in materials engineering solutions for the semiconductor, flat panel display and solar photovoltaic (PV) industries.