Date: Tuesday 28 March 2017
Time: 08:30 - 10:30
Location / Room: Auditorium A
Chair:
David Atienza, EPFL, CH
Co-Chair:
Giorgio Di Natale, LIRMM, FR
Time | Label | Presentation Title Authors |
---|---|---|
08:30 | 1.1.1 | WELCOME ADDRESSES Speakers: David Atienza1 and Giorgio Di Natale2 1DATE 2017 General Chair, EPFL, CH; 2DATE 2017 Programme Chair, LIRMM, FR |
08:45 | 1.1.2 | PRESENTATION OF DISTINGUISHED AWARDS |
09:15 | 1.1.3 | KEYNOTE: DESIGN AUTOMATION IN THE ERA OF AI AND IOT: CHALLENGES AND PITFALLS Speaker: Arvind Krishna, IBM Research, US Abstract The AI and IoT revolutions are twin phenomena that are reshaping business models, industries, and society. If we are to maximize their potential, we must overcome significant technical challenges with the help of the Design Automation and Test Community. First, new computer architectures are required to accelerate solutions driven by cognitive computing, the term given to a comprehensive set of AI capabilities that includes not just machine learning but also data ingestion, data privacy, learning, reasoning, natural language, and conversation. These architectures must support each of these new technologies and manage extreme, cognitive workloads marked by unprecedented volumes of structured and unstructured data. This challenge poses important questions for the Design Automation and Test community about what new approaches can be taken. A similar challenge is inherent in the rapid development of IoT, where the span of computing architecture varies from extremely low power constraints, limited bandwidth, and sporadic access at the "edge" of the network to the nearly infinite power and compute of data centers. This raises the question of how to maximize the design and placement of IoT systems, which will have to function for extended periods of time (up to ten years or more, like a pacemaker). Unlike smartphones, these systems can't simply be disposed of, which raises significant security concerns. In his talk exploring these challenges, Dr. Krishna will emphasize that solutions can only come from an integrated hardware-software co-design approach. He will also highlight some of the leading-edge technologies IBM Research is developing to drive further innovation in the computing stack as the era governed by Moore's law comes to a close. |
1.1.4 | KEYNOTE: A NEW ERA OF HARDWARE MICROSERVICES IN THE CLOUD Speaker: Doug Burger, Microsoft Research, US Abstract The Cloud is causing a major shift in both the business ecosystem and system infrastructures. The major hyperscale providers are building out highly-interconnected, worldwide computers at a scale that allows them to make significant first-party investments. This verticalization allows them to make cross-layer architectural changes more rapidly than would the old horizontal model. A second trend is the emergence of ultra-low latency requirements in the Cloud, moving storage, networking, and services from the millisecond to the microsecond regime. In this talk, I will describe how these architectural shifts are enabling the emergence of specialized hardware in datacenters, that enable services to be operated in the microsecond regime. On FPGAs, GPUs, and ASICs, these services can run with no CPU intervention, allowing much lower latencies and better cost structures than previously possible for key services such as deep learning. Over time this transition will enable a much broader collection of hardware IP to run at scale in the Cloud. | |
10:30 | End of session Coffee Break in Exhibition Area On all conference days (Tuesday to Thursday), coffee and tea will be served during the coffee breaks at the below-mentioned times in the exhibition area. Tuesday, March 28, 2017
Wednesday, March 29, 2017
Thursday, March 30, 2017
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