Join us in shaping the future of high-performance computing. We are a cutting-edge semiconductor company developing next-generation server-class SoCs for data centers, cloud computing, and AI acceleration, leveraging advanced CPU architectures and state-of-the-art interconnect technologies.
We are seeking an experienced Server Chip Architect to define and drive the architecture of innovative, scalable, and power-efficient CPU solutions. In this role, you will collaborate across hardware, software, and verification teams to bring world-class server processors from concept to production.
Key Responsibilities
- Analyze product requirements and study relevant industry standards and specifications to define competitive and forward-looking architecture solutions for server CPUs.
- Define high-level architecture and hardware specifications for CPU subsystems, interconnects, memory systems, and accelerators.
- Develop detailed hardware architectural specifications in close collaboration with digital design engineers, ensuring alignment with power, performance, and timing goals.
- Provide technical leadership across the development cycle, working with design, verification, and system validation teams to resolve architectural and implementation issues efficiently.
- Review and refine verification and validation plans, identify coverage gaps, and support debugging in pre-silicon and post-silicon phases to ensure compliance with specifications and standards.
- Evaluate existing hardware modules, identify opportunities for performance, scalability, and efficiency improvements, and drive architectural enhancements.
- Collaborate with firmware, software, and system engineering teams to ensure seamless integration of hardware features into the overall server platform.
Job Requirements
- Bachelor’s degree or above in Electrical Engineering, Computer Engineering, or a related field, with 8+ years of industry experience in CPU or SoC architecture design.
- Proven track record in driving system architecture decisions across software and hardware teams, building consensus, and translating ideas into clear specifications.
- Familiarity with interface peripherals such as Ethernet, PCIe, I2S, SPI, I2C.
- In-depth knowledge of CPU microarchitecture, cache hierarchy, coherency protocols, and interconnect fabrics (e.g., CCIX, CXL, NoC).
- Hands-on experience in system-level performance modeling, workload characterization, and architectural trade-off analysis.
- Knowledge of embedded processors and firmware operation, as well as processor subsystems such as ARM Cortex-A/M/R or RISC-V, is a strong plus.
Report job
