Motion Sensing System Architect

Apple Inc

CA

JOB DETAILS
SKILLS
Algorithms, Analysis Skills, Apple, Architectural Services, Campaigns, Communication Skills, Cross-Functional, Documentation, Electrical Design, Electricity, Electromagnetism, Emerging Technology, Failure Analysis, Finite Element Analysis, Identify Issues, Industrial Design, Leadership, MATLAB, Machine Learning, Manufacturing, Mathematical Modeling, Monte Carlo Method, Patents, Performance Analysis, Performance Tuning/Optimization, Physics, Presentation/Verbal Skills, Product Design, Prototyping, Python Programming/Scripting Language, Quality Engineering, Requirements Management, Risk Management, Scientific Method, Signal Processing, Simulation, Statistics, System Architecture, System Integration (SI), System Validation, Systems Engineering, Team Player, Technical Support, Testing, Trade-Off Analysis, User Interface/Experience (UI/UX), Validation Plan, Willing to Travel, Writing Skills
LOCATION
CA
POSTED
30+ days ago

Motion sensors bridge the physical and digital realms, enabling seamless user interaction and motion features across Apple products. The Motion Sensing Hardware Team integrates MEMS and magnetic sensing technologies throughout Apple's product portfolio in a collaborative environment that fosters creativity and engineering excellence. Invention and patent creation are encouraged to revolutionize product design through innovative technologies and exceptional user experiences.

As a member of this team, you will own the end-to-end sensing system architecture - from transducer physics through signal chain and algorithm - shaping how motion sensing capabilities are defined, developed, and delivered from concept through high-volume manufacturing.

You will own the motion sensing system architecture for state-of-the-art sensors (magnetic, inertial, and pressure) across Apple products. Your primary responsibility is to drive the feature roadmap, define feature requirements, and systematically decompose them into system requirements and sensor module specifications. You will build and validate quantitative end-to-end models capturing the full signal chain - physical, electrical, and algorithmic - to ensure that sensor specifications and intermediate figures of merit guarantee feature-level performance. Beyond requirements definition, you will own sensor integration into the product system, leveraging modeling and simulation to optimize sensor placement and working cross-functionally to ensure placement meets performance, mechanical, and manufacturing constraints. You will define comprehensive validation plans, execute them rigorously, and generate high-quality reports to communicate results, risks, and recommendations to leadership and cross-functional teams.

Drive the motion sensing feature roadmap by evaluating emerging technologies, user needs, and product opportunities.

Define feature requirements and systematically translate them into system-level requirements, intermediate figures of merit, and sensor module specifications - maintaining full traceability across the requirements hierarchy.

Build and validate quantitative end-to-end models of the sensing signal chain (physical, electrical, algorithmic) to guarantee that sensor specifications deliver required feature performance.

Own sensor integration into the product system; leverage modeling and simulation to evaluate and optimize sensor placement for performance, ensuring mechanical, thermal, and electromagnetic constraints are met.

Work cross-functionally with mechanical, electrical, industrial design, and product design teams to align on sensor placement and integration trade-offs.

Define comprehensive validation plans spanning characterization through production; execute validation campaigns and drive closure of open issues.

Generate high-quality engineering reports and share findings, status, risks, and mitigation strategies with leadership and cross-functional teams through thorough documentation and clear presentations.

Determine the sensitivity of user-facing features to variation in sensor specifications; perform impact analyses to assess proposed requirement and specification changes.

Perform architectural trade-off analyses across performance, manufacturability, size, schedule, and cost to guide module and system integration teams.

Develop repeatable, reproducible, and automated measurement methods to enable thorough validation on tight development schedules.

Diagnose engineering issues with rigorous scientific method, driving to definitive root cause.

Support engineering builds with performance validation, yield optimization, and failure analysis coordination.

Drive multi-source sensor performance matching and work with suppliers to proactively resolve specification-matching issues; travel to supplier and manufacturing sites as needed.

BS and a minimum of 10 years relevant industry experience.

Practical understanding of motion sensors (magnetic, inertial, pressure) and relevant physics.

Experience in architecture and system-level design of sensing systems.

PhD with 5+ years of hands-on experience and a proven track record shipping motion sensor or sensing system products.

Experience in architecture, design, characterization, and validation of MEMS sensing systems (accelerometer, gyroscope, magnetometer, barometer), including theory of operation, signal processing, fabrication, packaging, and design trade-offs.

Deep, multi-disciplinary understanding of EE, ME, transducer physics, and system engineering principles.

Proficiency in modeling, simulation, and analysis tools (ANSYS Maxwell, COMSOL, MATLAB, Python, JMP experience designing and running FEA or Monte Carlo simulations.

Experience in sensor placement optimization through modeling (FEA, magnetic/inertial simulation) within product-level constraints.

Strong fundamentals in signal processing, probability, and statistics; competency in sensor fusion, machine learning, and mathematical modeling is an asset.

Experience defining and executing validation plans from characterization through production readiness.

Experience building and testing complex multi-physics systems and delivering related prototypes.

Excellent written and verbal communication skills with solid collaboration and leadership abilities.

About the Company

A

Apple Inc

We bring amazing people together to make amazing things happen.

We’re a diverse collection of thinkers and doers, continually reimagining what’s possible to help us all do what we love in new ways. The people who work here have reinvented entire industries with the Mac, iPhone, iPad, and Apple Watch, as well as with services, including iTunes, the App Store, Apple Music, and Apple Pay. And the same passion for innovation that goes into our products also applies to our practices — strengthening our commitment to leave the world better than we found it.

About Apple

There’s a place here for every kind of brilliant. Everyone here is an innovator, or an innovator-to-be, no matter what your team or your role. So bring your passion, courage, and original thinking and get ready to share it, because every new product, service, or feature we invent is the result of people working together to make each others’ ideas stronger. Innovation at this level depends on people who represent the variety of the human experience and inspire us with their own fresh perspectives. Together, we’ll do amazing work that can make a difference in people’s lives. Including your own. Learn more about working at Apple.

COMPANY SIZE
10,000 employees or more
INDUSTRY
Computer/IT Services
FOUNDED
1976
WEBSITE
https://www.apple.com/jobs