Fletcher, Torrellas Included In Intel’s New Resilient Architectures and Robust Electronics Multi-University Research Center | Computer Science

Intel Labs University’s Research and Collaboration Division (URC) is pleased to announce the opening of a new multi-university research center called Resilient Architectures and Robust Electronics (RARE). The center will focus on evaluating and enhancing the resilience, reliability, and security of Intel® hardware and software, including the security of Intel® silicon integrated circuits. In addition, all studies will be published for the broad semiconductor industry.

Illinois professors Chris Fletcher (left) and Josep Torrelas.

Academic researchers from 10 leading universities have been selected to develop new opportunities to help increase the reliability and security of computing technologies. Areas of research include the systematic mitigation of the consequences of errors and failures and related impacts on the future of CPU architecture and implementation. These include faults caused by natural radiation, aging, accidental effects, noisy environments and electronic failures. In addition, the study will also investigate intentionally caused faults such as bug attacks.

“Providing Intel technology and improving the reliability of our semiconductors is our top priority,” said Frank McKean, senior chief engineer at Intel Labs. “For example, environmental anomalies and bug attacks are becoming more common, and there is a need to increase bug detection and discover new ways to fix bugs. Through collaboration with these leading academic researchers, we will find solutions and new approaches to these industry-wide e-problems. security. “

The center began operations in the 4th quarter of 2021 and will operate for three years.

Details of a specific area of ​​study by Illinois CS professors Chris Fletcher and Josep Torrelas at RARE:

Scale CPUs to hundreds of security domains
Christopher Fletcher, University of Illinois Urbana-Champaign
Josep Torrelas, University of Illinois Urbana-Champaign
Mohit Tivari, University of Texas at Austin

Applications such as data analytics pipelines, browsers, and service networks run on hundreds of concurrent security domains on each machine. Modern approaches to the isolation of security domains are based primarily on a strict separation of states and lose both performance and measurable guarantees in such congested environments. This project offers multi-domain architectures – from programming models to microarchitectures – to securely multiplex hundreds of concurrent security domains in modern applications.

See the original article from Intel.

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