12月12日:Jason Cong 可信计算论坛
发布时间:2014-12-09 浏览量:5244

报告题目:Automating Customized Computing

报告人:Jason Cong  

报告时间:20141212 15:30

报告地点:中北校区数学馆201

主办单位:软件学院 科技处

报告摘要

Customized computing has been of interest to the research community for over three decades.  The interest has intensified in the recent years as the power and energy become a significant limiting factor to the computing industry. For example, the energy consumed by the datacenters of some large internet service providers is well over 109 Kilowatt-hours.  FPGA-based acceleration has shown 10-1000X performance/energy efficiency over the general-purpose processors in many applications.  However, programming FPGAs as a computing device is still a significant challenge.  Most of accelerators are designed using manual RTL coding.  The recent progress in high-level synthesis (HLS) has improved the programming productivity considerably where one can quickly implement functional blocks written using high-level programming languages as C or C++ instead of RTL. But in using the HLS tool for accelerated computing,  the programmer still faces a lot of design decisions, such as implementation choices of each module and communication schemes between different modules, and has to implement additional logic for data management, such as memory partitioning, data prefetching and reuse. Extensive source code rewriting is often required to achieve high-performance acceleration using the existing HLS tools.

     In this talk, I shall present the ongoing work at UCLA to enable further automation for customized computing. One effort is on automated compilation to combining source-code level transformation for HLS with efficient parameterized architecture template generations.  I shall highlight our progress on loop restructuring and code generation, memory partitioning, data prefetching and reuse, combined module selection, duplication, and scheduling with communication optimization.  These techniques allow the programmer to easily compile computation kernels to FPGAs for acceleration.  Another direction is to develop efficient runtime support for scheduling and transparent resource management for integration of FPGAs for datacenter-scale acceleration, which is becoming a reality (for example, Microsoft recently used over 1,600 servers with FPGAs for accelerating their search engine and reported very encouraging results). Our runtime system provides scheduling and resource management support at multiple levels, including server node-level, job-level, and  datacenter-level so that  programmer can make use the existing programming interfaces, such as MapReduce or Hadoop, for large-scale distributed computation.

 

 

报告人简介

Jason Cong received his B.S. degree in computer science from Peking University in 1985, his M.S. and Ph. D. degrees in computer science from the University of Illinois at Urbana-Champaign in 1987 and 1990, respectively.  Currently, he is a Chancellor’s Professor at the UCLA Computer Science Department and the director of Center for Domain-Specific Computing (CDSC).  He served as the department chair from 2005 to 2008. Dr. Cong’s research interests include synthesis of VLSI circuits and systems, energy-efficient computer architectures, reconfigurable systems, nanotechnology and systems, and highly scalable algorithms.  He has over 400 publications in these areas, including 10 best paper awards, and the 2011 ACM/IEEE A. Richard Newton Technical Impact Award in Electric Design Automation.  He was elected to an IEEE Fellow in 2000 and ACM Fellow in 2008.  He is the recipient of the 2010 IEEE Circuits and System Society Technical Achievement Award "For seminal contributions to electronic design automation, especially in FPGA synthesis, VLSI interconnect optimization, and physical design automation."

    Dr. Cong has graduated 32 PhD students.  Nine of them are now faculty members in major research universities, including Cornell, Fudan, Georgia Tech., Peking Univ., Purdue, SUNY Binghamton, UCLA, UIUC, and UT Austin. Dr. Cong has successfully co-founded three companies with his students, including Aplus Design Technologies for FPGA physical synthesis and architecture evaluation (acquired by Magma in 2003, now part of Synopsys), AutoESL Design Technologies for high-level synthesis (acquired by Xilinx in 2011), and Neptune Design Automation for ultra-fast FPGA physical design (acquired by Xilinx in 2013).

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