At a glance
- Challenging product requirements and transferring them into a cost-competitive System-on-Chip architecture
- Contributing to the definition of a common microcontroller architecture for our Power IC Products
- Collaborating with cross-functional teams in Analog/Digital Design, Verification, Firmware Development, Validation, Test, and Project Management to deliver first-pass functional silicon
- Influencing roadmaps and helping to set technology targets for future SOCs
- Being the technical interface to Product Marketing, Technical Marketing and Customers
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At a glance
- Be responsible for the Power Supply Concept and Sensing Architecture for Automotive Battery Management Systems
- Breakdown stakeholder requirements and application assumptions into block-based requirements for architectural High Voltage and Sensing components
- Be responsible for High Voltage and Sensing IP handling of all platforms within Automotive Microcontroller
- Drive together with the platform lead architects a strategy which enables a family concept by modular & scalable approach
- Proactively be driving innovation (according to strategy) anticipating industry and market trends
- Modeling capability allows to transfer theoretical concept in a reference for further development
- Cooperate with technical marketing team, platform lead architects, system architects, SW development, design teams and other business lines within Infineon
- Be the interface between our application engineering as well as development teams and drive active knowledge transfer
- Own and create technical documentation in order to provide the requested functional descriptions and documents to guarantee the ISO26262 compliance – Impart implementation knowhow to others
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At a glance
- Drive FPGA design and implementation from SoC-level IFX product perspective
- Develop FPGA, embedded system, application-based platforms (hardware, emulation, mixed-signal)
- Drive result-oriented analysis and debug
- Organize and support system verification and prototyping projects
- Have the potential to develop from technician to team leader and organize the team for multi-dimensional projects with multiple time zones
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At a glance
- Prepare, maintain and develop lab equipment and software architecture
- Support the preparation of verification measurement setups (hardware and software)
- Support the component verification team with the execution of measurements to reach full test coverage of the products functionalities
- Support the documentation of setups and measurement results
- Discuss the measurement results with the component verification team
- Work in a highly motivated lab team with component and system level verification, lab administration and test engineering
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At a glance
- Create and maintain verification plans
- Choose the right verification methodology
- Setup verification environments and implementation of functional coverage model
- Elaborate, execute and debug tests on RTL level
- Proactively help increase efficiency of verification activities and mitigate risks early
- Contribute to enhancing verification strategy and architecture of IP test benches
- Team up and collaborate with colleagues from analog and digital design as well as concept engineering
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In your career, let’s prove what’s possible.
- Design, develop, troubleshoot, and debug software programs for our industrial machine controls applications.
- Write efficient, reliable code in C/C++ for computer devices, as well as interfaces, ensuring functionality and stability.
- Create, optimize, and integrate drivers for peripherals and interfaces like sensors, actuators, and communication modules.
- Analyze and optimize code for memory constraints, performance, and power consumption in embedded environments.
- Ensure maintainability of our first-class codebase through regular peer reviews, testing, and documentation.
- Conduct unit and functional testing, debugging, and troubleshooting of our controls software applications to ensure functionality and stability.
- Collaborate with hardware engineers to integrate software with hardware components and systems.
- Stay updated with industry trends, best practices, and emerging technologies in C++ programming for hardware equipment controls.
- Provide technical guidance and mentoring for junior engineers.
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