Embedded Multicore/Manycore SoC Architectures

Chair

Man Wu
Keio University, Japan

To meet the escalating computational demands of consumer electronic devices, system-on-chip (SoC) designs have evolved from simple unicore architectures to sophisticated multicore architectures, incorporating numerous IP blocks on silicon. These advancements have significantly enhanced processing capabilities, but also introduced various challenges that need to be addressed to ensure the efficient utilization of multicore SoC architectures. Key areas of interest in this track include, but are not limited to:

  • Multicore/Many-core Architecture: Exploring innovative designs and implementations of multicore and many-core systems to enhance performance, scalability, and energy efficiency.
  • Reconfigurable Platforms: Investigating adaptable and flexible platforms that can be reconfigured to meet specific application requirements and optimize resource usage.
  • Reconfigurable Heterogeneous Cryptographic SoC Accelerators: Developing secure and efficient cryptographic accelerators that can be reconfigured to support diverse security protocols and standards.
  • Memory Management Support: Addressing advanced memory management techniques to optimize data access, storage, and retrieval in multicore environments.
  • Communication Protocols: Designing robust and efficient communication protocols to facilitate seamless data transfer and synchronization between multiple cores and peripheral devices.
  • Real-time Systems: Enhancing the reliability and predictability of real-time systems through improved scheduling, synchronization, and resource management techniques.
  • SoCs and DSPs: Focusing on the integration and optimization of digital signal processors (DSPs) within SoCs to support high-performance computing and multimedia applications.
  • Heterogeneous Architectures with HW Accelerators and GPUs: Leveraging heterogeneous architectures that integrate hardware accelerators and graphics processing units (GPUs) to boost computational power and efficiency.
  • Chiplet-based Design: Innovating in chiplet-based design methodologies to create modular, scalable, and high-performance SoCs.

Paper Submision

For paper submission instructions and deadlines, pealse access the paper submission page.

Former Chairs

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