Key responsibilities include selecting and integrating appropriate chipsets, software platforms, defining APIs, and configuring automotive-grade middleware and Basic Software (BSW). The role also involves optimizing wire harness costs through innovative solutions like e-fuse-based local power supply systems. A deep understanding of automotive standards (e.g., Autosaur CP, AP methodology) and proficiency in embedded systems, RTOS, Linux-based platforms, and networking protocols is essential.

•    Proficiency in AutoSAR CP (Classic Platform) and AP (Adaptive Platform) methodologies.
•    Strong knowledge of BSW configuration tools, such as EB tresos.
•    Expertise in C and C++ programming for embedded systems, including coding, commissioning, and debugging.
•    Hands-on experience with RTOS, embedded Linux, Yocto, and Linux-based automotive systems.
•    Strong understanding of networking protocols, including Ethernet switch configuration, gPTP, and VLAN.
•    Experience with middleware integration, such as DDS for SOME/IP communication.
•    Familiarity with zonal EEA architectures and their applications in next-generation vehicles.
•    Knowledge of network management and advanced power management techniques.
•    Experience with e-fuse technology and local power supply systems to reduce wire harness complexity.
•    Minimum of 5+ years of experience in automotive EEA development, with a focus on zonal architectures, middleware, and embedded systems.
•    Proven track record of delivering complex automotive software and hardware projects.
•    Strong understanding of chipset benchmarking and selection for automotive applications.
•    Experience in API design and system-level integration.
•    Strong problem-solving and analytical skills.

•    Benchmark and select the most suitable chipsets for zonal EEA.
•    Roll out and configure the necessary toolchain for zonal EEA development.
•    Build the software platform, including power management, logging, SOA, S2S, Security, Diagnosis, Secure boot etc.
•    Implement advanced power management features, including e-fuse technology, to reduce wire harness costs and enable local power supply capabilities.
•    Integrate middleware such as DDS or SOME/IP communication in the M Core.
•    Configure and optimize automotive-grade Basic Software (BSW) using tools like EB tresos or equivalent BSW configuration tools.
•    Automotive Ethernet Switch selection and configuration for the zonal modue.
•    Collaborate with hardware and software teams to ensure seamless integration of zonal modules.
•    Deliver a solution package for a next-generation zonal EEA, setting a new industry benchmark.
•    Lead cross-functional teams to achieve project milestones and deliver the production solution with proof of concept within the target timeline.
•    Champion best practices in cyber security and functional safety, ensuring compliance with industry standards and regulations.