Analog Mixed-Signal Modeling Engineer
Apply NowCompany: Apple
Location: Cupertino, CA 95014
Description:
Summary
At Apple, we work every day to craft products that enrich people's lives. Do you love working on challenges that no one has solved yet? Do you like changing the game? Apple Silicon Engineering Group has an opportunity for a forward-thinking and unusually creative AMS modeling engineer.
In this role, you will be responsible for developing accurate and efficient models for analog and mixed-signal integrated circuits. Your Expertise in circuit modeling and simulation will contribute to the design and verification of the next generation of Apple's world-leading systems-on-chip (SOCs).
Modeling engineers bring a unique and versatile combination of hardware, physics, applied mathematics, and software expertise. On their way from architecture to silicon, circuits take form in software. As part of the innovative AMS modeling Software team, you will develop those software representations of future hardware, and help make them real.
The ideal candidate will have extensive years' experience in AMS design, architecture, or modeling as well as programming efficiency.
As an Analog Mixed-Signal Modeling Engineer, you will have the opportunity to work on future Apple AMS interfaces and help shape the future of semiconductor technology.
Description
Develop accurate behavioral and electrical models for mixed-signal circuits, including SerDes, PLLs, memory interfaces and data converters
Verify the performance and accuracy of the developed models against circuit-level simulations and measurements.
Optimize and refine models to ensure accuracy while maintaining efficient simulation performance
Collaborate closely with system architects and designers to understand circuit specifications, design intent, and performance requirements
Create clear and comprehensive documentation for the developed models, including specifications, usage guidelines, and limitations
Contribute to the development of modeling methodologies, best practices, and automation tools to enhance the efficiency and accuracy of circuit mode
At Apple, we work every day to craft products that enrich people's lives. Do you love working on challenges that no one has solved yet? Do you like changing the game? Apple Silicon Engineering Group has an opportunity for a forward-thinking and unusually creative AMS modeling engineer.
In this role, you will be responsible for developing accurate and efficient models for analog and mixed-signal integrated circuits. Your Expertise in circuit modeling and simulation will contribute to the design and verification of the next generation of Apple's world-leading systems-on-chip (SOCs).
Modeling engineers bring a unique and versatile combination of hardware, physics, applied mathematics, and software expertise. On their way from architecture to silicon, circuits take form in software. As part of the innovative AMS modeling Software team, you will develop those software representations of future hardware, and help make them real.
The ideal candidate will have extensive years' experience in AMS design, architecture, or modeling as well as programming efficiency.
As an Analog Mixed-Signal Modeling Engineer, you will have the opportunity to work on future Apple AMS interfaces and help shape the future of semiconductor technology.
Description
Develop accurate behavioral and electrical models for mixed-signal circuits, including SerDes, PLLs, memory interfaces and data converters
Verify the performance and accuracy of the developed models against circuit-level simulations and measurements.
Optimize and refine models to ensure accuracy while maintaining efficient simulation performance
Collaborate closely with system architects and designers to understand circuit specifications, design intent, and performance requirements
Create clear and comprehensive documentation for the developed models, including specifications, usage guidelines, and limitations
Contribute to the development of modeling methodologies, best practices, and automation tools to enhance the efficiency and accuracy of circuit mode