Heterogeneous MPSoCs for Mixed Criticality Systems: Challenges and Opportunities
Mohamed Hassan

TL;DR
This paper discusses the challenges and opportunities of using heterogeneous MPSoCs in mixed criticality systems, emphasizing models, interference, data sharing, and security to guide future research and development.
Contribution
It provides a comprehensive overview of current solutions and identifies key research directions for integrating heterogeneous MPSoCs into MCS.
Findings
Identifies four critical aspects: modeling, interference, data sharing, security.
Highlights existing solutions and their limitations.
Suggests future research directions for MPSoCs in MCS.
Abstract
Due to their cost, performance, area, and energy efficiency, MPSoCs offer appealing architecture for emerging mixed criticality systems (MCS) such as driverless cars, smart power grids, and healthcare devices. Furthermore, heterogeneity of MPSoCs presents exceptional opportunities to satisfy the conflicting requirements of MCS. Seizing these opportunities is unattainable without addressing the associated challenges. We focus on four aspects of MCS that we believe are of most importance upon adopting MPSoCs: theoretical model, interference, data sharing, and security. We outline existing solutions, highlight the necessary considerations for MPSoCs including both opportunities they create and research directions yet to be explored.
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See pages 1-last of MPSoC.pdf
