Manycore system-on-chip (MCSoC) design approaches have long been employed in various computing domains to overcome the performance and power limitations of simple unicore designs. As a result, several high-performance and low-power MCSoCs have been realized. However, to support emerging applications, MCSoC design approaches need to guarantee uncompromised, scalable performance with high energy efficiency across diverse workloads while meeting multiple energy budgets under thermal and power-delivery constraints. The topics of interest of the track include, but are not limited to:
- Hardware specification
- Hardware-Software-Codesign
- Modeling
- System-level design methodology and tools
- Synthesis
- Heterogeneous design flows
- Low-power simulation and analysis
- Reliability and variability compensation
- Design validation and verification
- Thermal-aware design
- Performance modeling
- Security issues
- Reconfigurable design
Former Chairs
- Prof. Cristinel Ababei, Marquette Univ, U.S.A (16th IEEE MCSoC 2023)
