【演講公告】歡迎參加106.12.28(四) 「Software-Based Networks: Leveraging high-performance NFV platforms to meet future communication challenges」講座

最後更新時間: 2017-12-07 16:53:01

| |

此次活動特別邀請到University of California, Riverside的Dr. K. K. Ramakrishnan前來為我們演說「Software-Based Networks: Leveraging high-performance NFV platforms to meet future communication challenges」議題,歡迎有興趣的老師與同學免費報名參加!

SOFTWARE-BASED NETWORKS: LEVERAGING HIGH-PERFORMANCE NFV PLATFORMS TO MEET FUTURE COMMUNICATION CHALLENGES

一、報到時間:2017/12/28(四)16:20 - 16:40

       演講時間:2017/12/28(四)16:40 - 18:00

 二、演講地點:工程三館122教室

 三、講        者:Dr. K. K. Ramakrishnan (CS, Univ. of California, Riverside)

 四、報名方式:免費報名(本次演講為英文演講)

        限額100名,16:20開放預約報名者入場,未預約報名者採現場候位

 五、報名網址:https://goo.gl/forms/qOmyu2kfXSTEZVU43

        報名截止:2017/12/22(五)17:00

 六、演講摘要:

Communication networks are changing. They are becoming more and more “software-based.” The use of Network Function Virtualization (NFV) to run network services in software, along with the concept of Software Defined Networks (SDN), will lead to a largely software-based network environment. To truly achieve the vision of a high-performance software-based network that is flexible, lower-cost, and agile, a fast and carefully designed NFV platform along with a comprehensive SDN control plane is needed.  Our high-performance NFV platform, OpenNetVM, enables high bandwidth network functions to operate at near line speed, while taking advantage of the flexibility and customization of low cost commodity servers.  We envision a dynamic and flexible network that can support a smarter data plane than just simple switches that forward packets. We will describe scheduling frameworks for OpenNetVM that enables per-flow customization and rate-and-cost proportional fair scheduling of flows.

 Use of OpenNetVM opens up opportunities to re-architect the way networks are put together. As an example, we demonstrate the utility of OpenNetVM for supporting future cellular networks (e.g., 5G and beyond). NFV enables dynamic management of capacity to support the Mobile Core Network of future cellular networks. Truly exploiting the opportunities of a software-based environment requires careful thinking about the protocols utilized as well. We describe CleanG, a simplified software-based architecture for the cellular core network with a simplified control plane protocol. 

 七、講者簡歷:

 Dr. K. K. Ramakrishnan is Professor of Computer Science and Engineering at the University of California, Riverside. Previously, he was a Distinguished Member of Technical Staff at AT&T Labs-Research. He joined AT&T Bell Labs in 1994 and was with AT&T Labs-Research since its inception in 1996. Prior to 1994, he was a Technical Director and Consulting Engineer in Networking at Digital Equipment Corporation. Between 2000 and 2002, he was at TeraOptic Networks, Inc., as Founder and Vice President.

 Dr. Ramakrishnan is an AT&T Fellow, recognized for his fundamental contributions on communication networks and lasting impact on AT&T and the industry, including his work on congestion control, traffic management and VPN services. He is an IEEE Fellow, and has received other awards. His work on the "DECbit" congestion avoidance protocol received the ACM Sigcomm Test of Time Paper Award in 2006. He has published nearly 250 papers and has 163 patents issued in his name. K.K. has been on the editorial board of several journals and has served as the TPC Chair and General Chair for several networking conferences and has been a member of the National Research Council Panel on Information Technology for NIST.  K. K. received his MTech from the Indian Institute of Science (1978), MS (1981) and Ph.D. (1983) in Computer Science from the University of Maryland, College Park, USA.

 ※聯絡方式:

資工系馮小姐 電話:03-5712121#54832

E-mail:ruby@cs.nctu.edu.tw