.Senior Embedded Software Engineer - Electric Vehicles Enabling a software-defined, electrified future. Visteon is a technology company that develops and builds innovative digital cockpit and electrification products at the leading-edge of the mobility revolution. Founded in 2000, Visteon brings decades of automotive intelligence combined with Silicon Valley speed to apply global insights that help transform the software-defined vehicle of the future for many of the world's largest OEMs. The company employs 10,000 employees in 18 countries around the globe. To know more about us Mission of the Role: The Senior Embedded Software Engineer's primary mission is to lead software development and integration of ETK and other instrumentation features for Visteon's Electrification Products and support use of ETAS toolchains for OEM customer applications. Key Objectives of this Role: Lead, consult, specify and execute ECU tools-related system integration engineering projects to enhance the customers ECU development processes. Specify software requirements, develop software architecture to enable efficient integration of ETK and other instrumentation features. Lead development of rapid prototyping, virtual ECU models and support virtual ECU integration. Lead software development and integration of ETK and other instrumentation features into Electrification ECUs. Develop integration test plan and support validation of instrumentation features, rapid prototyping and virtual ECU models. Acquire and maintain an expert level knowledge of ETAS & Vector products and customer processes and applications, with a focus on ECU instrumentation (test benches, measurement, and calibration, rapid prototyping, and debug tools) in order to execute and support engineering service projects or customers. Lead and manage technical customer communication and interaction on ECU tools-related system integration projects including providing technical presentations, managing critical customer issues, and tracking open/closed action items. Provide customer training and assist other engineers with applications know-how. Key Performance Indicators: Innovation and Adaptability: Evaluate the ability of the Software Engineer to introduce innovative solutions and adapt to newer technologies in instrumenting ECUs for development and calibration, rapid prototyping and virtual ECU integration. System Performance: Assess the system's responsiveness and efficiency in handling various electrification processes. This KPI could be measured in terms of response times, throughput, or processing speed. Understand virtual ECU development, rapid prototyping, ETK and other instrumentation technologies and impact on the ECU performance. Problem-solving and Troubleshooting: Software Engineers often encounter technical challenges during the development process. This KPI evaluates the engineer's ability to identify and resolve system-related issues promptly and efficiently