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
- Get experience with Mixed-Signal High Speed, RF and mmWave and Integrated Circuits.
- Get experience with measurements related to High-Speed PLLs and Data Communication: Jitter, Eye Diagram, BERT.
- Get experience with high-end RF/mmWave measurement equipment.
- Get hand-on experience in Validation and Debugging.
- Design of PCBs for the measurement of products
- Prototype and evaluate new tools and methodologies.
- Familiarize yourself with Validation flow: definition of appropriate measurement setup, automation, data post-processing and analysis.
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At a glance
- Be the go-to person of the digital verification for complex digital and mixed signal designs, providing hands-on expertise in digital verification, from building environments from scratch to leveraging existing flows
- Oversee and coordinate all aspects of digital verification, including planning, tracking, and reporting, and ensure clear understanding of verification requirements through effective communication with multiple stakeholders
- Collaborate with and contribute to coordination of cross-functional teams, including concept, design, AMS verification, and post-silicon validation teams, to ensure high quality designs
- Focus on all-directions-reuse of the Verification Components to be implemented
- Identify and mitigate risks in dynamic projects, with proactive communication to the project team
- Drive the enhancement of existing verification methodologies and flows, drive required innovation projects and get buy-in from management
- Drive process and efficiency improvements, share your expertise to enable team growth, and inspire and mentor new lead verification engineers to help them succeed in their roles
- Identify and address synergies between digital and analog centric Pre-Silicon verification, and Post-Silicon validation
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At a glance
- Lead the digital verification of complex digital and mixed signal designs, including IPs, Subsystems, ASIC and SoCs.
- Coordinate the overall digital verification activities such as verification planning, verification tracking and reporting, as well as requirement-based verification
- Conduct the clarification of verification requirements with multiple communication interfaces
- Collaborate with cross-functional teams, including concept, design, AMS verification, and post-silicon validation teams, to ensure high quality designs
- Hands-on contributor to digital verification either from scratch, or using legacy verification environments and flows
- Focus on all-directions-reuse of the Verification Components to be implemented
- Identify and mitigate risks in dynamic projects, with proactive communication to the project team
- Drive the enhancement of existing verification methodologies and flows, drive required innovation projects and get buy-in from management
- Foster process and efficiency improvements where applicable, as well as share your expertise to the other team members so that they are able to grow
- As a technical lead inspire and mentor junior verification engineers while providing invaluable technical support and guidance to development teams and business partners
- Identify and address synergies between digital and analog centric Pre-Silicon verification, and Post-Silicon validation
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At a glance
- Do analog focused Mixed-Signal Verification
- Create and maintain verification plans
- Define verification metrics and set-up verification environments, including analog testbenches
- Elaborate and execute tests on analog transistor level (schematic + layout) with digital RTL and gatelevel
- Team up and collaborate with colleagues from analog and digital design and verification, as well as concept engineering
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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
- Identify application trends and future requirements through customer discussions and internal experts
- Assess innovative product ideas and directly influence product roadmaps for low voltage Power MOSFETs (OptiMOS)
- Define product requirements, create target datasheets, and develop go-to-market materials like application notes and evaluation boards
- Serve as the technical interface between R&D teams and customers
- Analyze and assess topologies and application conditions through simulations, prototype measurements and benchmarking for target applications example solar power conversions
- Contribute design-in to design-win activities with leading customers
- Conduct technical discussions, coordinate requirements, and support product validation in system design
- Collaborate closely with regional field application engineering (FAE)teams
- Prepare and provide technical documentation and training on product and application levels
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Your future responsibilities
- Develop future sustainable, dependable, and intelligent embedded computing architectures.
- Drive research in VLSI/digital design with a focus on RISC-V and related processor architectures and accelerators.
- Contribute to the development of accurate design specifications for digital control blocks.
- Deliver complex digital IP to meet schedule, area, power, and performance targets.
- Work with digital verification teams to create verification plans.
- Collaborate with laboratory teams to create and verify FPGA-based prototypes.
- Collaborate with industry and academia partners.
- Lead research projects and participate in the acquisition of industry projects and funding grants.
- Publish your work in leading journals and present at conferences.
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At a glance
- Work with high voltage chip products (SiC, IGBT) used in automotive traction inverter applications
- Be part of product development projects for power electronic transistors: Define the right-fit product and technology requirements matching to application trends and customer needs
- Work closely with cross-functional teams to identify and prioritize product features, understand trade-offs and key limitations ensuring that new products meet the evolving demands of the automotive industry
- Contribute to technical design-in activities at major automotive customers with our high voltage SiC and IGBT chip products
- Closely collaborate with our regional field application engineering teams
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At a glance
- Capture and analyze customer inputs on application and product level for the next generation Magnetic Current Sensors
- Analyze and understand relevant applications (like OBC, DCDC converters) in detail by modelling, simulation and measurements on application level to derive valuable features for best fit Magnetic Current Sensors
- Promote, explain and defend our Magnetic Sensor products to the most important Tier 1s and OEMs in Automotive Industry during Design-In activities
- Write technical documents like Data Sheets, Requirements, Manuals, Application Notes and Publications
- Perform analysis and benchmarking of competitors´ Magnetic Current Sensors as well as their support material
- Extend and develop technical training material and perform trainings for worldwide FAE colleagues and key customers to support new product launches and go to market activities
- Be the go-to person for Field Application Engineers during the world-wide Design-In of our Sensor
- Responsible for selected Application Roadmaps and Product Roadmaps
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At a glance
- Define target product specifications of SiC JFET variants for hotswap, Oring, protection switch and circuit breaker applications
- Be the main technical interface to the development and go-to-market teams during the product development and post product launch stages respectively
- Develop application evaluation platforms for product validation and customer promotion
- Perform measurements based on fit for use plan to validate the suitability of SiC JFET based solutions in applications environment and document the relevant results
- Run performance benchmarking tests of internal and external products
- Prepare the product datasheets; develop product and application literature such as application notes, technical articles, promotion material, webinars etc.
- Provide global product support for the customer design-in projects
- Run simulations to replicate real application use scenarios and derive analyses
- Cascade customer feedback to internal development teams
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At a glance
- Develop new voltages classes and broadening the functionality of the existing products
- Support the ramp up and yield learning phase of new technology platforms like CoolMOS or CoolSiC together with the process integration group
- Closely collaborate with PSS production management, unit process and process integration engineers of FAB Villach
- Develop new MOSFET generations, define together with TCAD and application experts the features of the upcoming generations
- Define unit process requirements along the technology roadmap together with unit process development engineers
- Plan, coordinate and evaluate process experiments including statistical DoEs and ensure process window
- Implement improvement regarding cost, yield and stability with change management processes and/or technology projects
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