[Cs-affiliates] seminar - Monday Feb. 27 (today)
Devits, Christopher R
cdevits at bu.edu
Mon Feb 27 07:22:36 EST 2017
Good Morning Everyone,
A reminder that we have another visit today – Renato Mancuso. His talk will be at 11:00AM in MCS 148 (note the location), and the student meeting is scheduled for 4:30PM in MCS 144. Talk title and abstract below.
Presenter: Renato Mancuso
Time, Date, Location: 11:00AM, Monday Feb. 27, MCS 148
Title: Safe, Real-Time Software Reference Architectures for Cyber-Physical Systems
There has been an uptrend in the demand and need for complex Cyber-Physical Systems (CPS), such as self-driving cars, unmanned aerial vehicles (UAVs), and smart manufacturing systems for Industry 4.0. CPS often need to accurately sense the surrounding environment by using high-bandwidth acoustic, imaging and other types of sensors; and to take coordinated decisions and issue time critical actuation commands. Hence, temporal predictability in sensing, communication, computation, and actuation is a fundamental attribute. Additionally, CPS must operate safely even in spite of software and hardware misbehavior to avoid catastrophic failures. To satisfy the increasing demand for performance, modern computing platforms have substantially increased in complexity; for instance, multi-core systems are now mainstream, and partially re-programmable system-on-chip (SoC) have just entered production. Unfortunately, extensive and unregulated sharing of hardware resources directly undermines the ability of guaranteeing strong temporal determinism in modern computing platforms. Novel software architectures are needed to restore temporal correctness of complex CPS when using these platforms. My research vision is to design and implement software architectures that can serve as a reference for the development of high-performance CPS, and that embody two main requirements: temporal predictability and robustness. In this talk, I will address the following questions concerning modern multi-core systems: Why application timing can be highly unpredictable? What techniques can be used to enforce safe temporal behaviors on multi-core platforms? I will also illustrate possible approaches for time-aware fault tolerance to maximize CPS functional safety. Finally, I will review the challenges faced by the embedded industry when trying to adopt emerging computing platforms, and I will highlight some novel directions that can be followed to accomplish my research vision.
Renato Mancuso is a doctoral candidate in the Department of Computer Science at the University of Illinois at Urbana-Champaign. He is interested in high-performance cyber physical systems, with a specific focus on techniques to enforce strong performance isolation and temporal predictability in multi-core systems. He has published around 20 papers in major conferences and journals. His papers were awarded a best student paper award and a best presentation award at the Real-Time and Embedded Technology and Applications Symposium (RTAS) in 2013 and 2016, respectively. He was the recipient of a Computer Science Excellence Fellowship, and a finalist for the Qualcomm Innovation Fellowship. Some of the design principles for real-time multi-core computing proposed in his research have been officially incorporated in recent certification guidelines for avionics systems. They have also been endorsed by government agencies, industries and research institutions worldwide. He received a B.S. in Computer Engineering with honors (2009) and a M.S. in Computer Engineering with honors (2012) from the University of Rome "Tor Vergata".
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