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Jennifer Rexford Princeton University MW 11:00am-12:20pm Network Virtualization COS 597E: Software Defined Networking.

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Presentation on theme: "Jennifer Rexford Princeton University MW 11:00am-12:20pm Network Virtualization COS 597E: Software Defined Networking."— Presentation transcript:

1 Jennifer Rexford Princeton University MW 11:00am-12:20pm Network Virtualization COS 597E: Software Defined Networking

2 Course Project Timeline –Mon Oct 21: Short proposal due –Tue Jan 14: Written report due –Later that week: short oral presentation Project –Work alone, or in teams of 2-3 –Your own topic, or from a suggestion –Can overlap with independent work, thesis, or graduate research topic –Optionally use or extend Pyretic 2

3 Controller Applications Distributed server load balancer Denial of service attack detection/mitigation Traffic engineering Latency-equalized routing Routing in intermittingly-connected networks Countermeasures against wiretapping Inter-domain control (e.g., for DoS detection, flexible routing, monitoring, …) 3

4 SDN Platform Efficient compilation –Hardware switches with multi-stage tables –Software switches with configurable tables –Network virtualization Better tools –Network debugging Partial deployment –Interact with legacy routing protocols –Support programmability in partial deployment 4

5 SDN Platform Incorporating end hosts –Ship low-level packet processing to VMs –Steer traffic through middleboxes –Integrate Pyretic with OpenStack Network measurement –Better measurement support on switches –Integration with existing measurement (sFlow) –Collecting measurements at end hosts Preventing DoS attacks on the controller 5

6 SDN Platform Distributed controllers –Multi-threaded controller –Hierarchical controllers –Fault tolerance through backup controllers –Scalability by sub-dividing the network –Inter-domain controllers Quality of service –Extend Pyretic to support QoS mechanisms –Support specification of higher-level policies 6

7 Other Ways to Find Projects Talk with graduate students and postdocs working on SDN Follow up on one of the papers we’ve read Combine SDN with one of your other interests Look at workshop papers –HotSDN workshop (August 2012 and 2013) –Open Networking Summit Research Track (April 2013) 7

8 Network Virtualization FlowVisor and Nicira’s NVP 8

9 Network Virtualization History Dedicated overlays for incremental deployment –Mbone (multicast) and 6bone (IPv6) Multi-service networks –Tempest project for ATM networks Overlays for improving the network –Resilient Overlay Networks (RON) Shared experimental testbeds –PlanetLab, Emulab, Orbit, … Virtualizing the network infrastructure –Overcoming Internet impasse through virtualization –Later testbeds like GENI, VINI, … Virtualization in SDN –Open vSwitch, MiniNet, FlowVisor, Nicira NVP, … 9 http://www.cs.princeton.edu/courses/archive/fall13/cos597E/papers/sdnhistory.pdf

10 Network Virtualization Decoupling the services provided by a network from the physical infrastructure Virtual network is a “container” of network services, provisioned by software Faithful reproduction of services provided by a physical network 10 http://www.opennetsummit.org/pdf/2013/presentations/bruce_davie.pdf

11 Two Main Ideas Sharing the network –Different controllers for different users/traffic –Isolation (bandwidth, table space, flow space) Abstracting the topology –One big virtual switch –Many virtual switches to one physical switch –Arbitrary network topologies While presenting a familiar abstraction –A network 11

12 Why Slice the Network? Multiple administrative groups –Different departments on a campus Multiple customers –Tenants in a shared data center –Researchers on a shared infrastructure Experiments vs. operational network –Support research without breaking real services Expanding a network’s footprint –Lease components in another carrier’s network Multiple services or applications in one domain 12

13 Why Abstract the Topology? Partial deployment –Tunnel through components you don’t control Simplicity –Hide inessential details, churn, migration, … Privacy –Hide internal details of the network Scalability –Present a smaller topology and fewer events Experimentation –Try topologies that don’t really exist 13

14 Network Virtualization and SDN Network virtualization != SDN –Predates SDN –Doesn’t require SDN Easier to virtualize an SDN switch –Run separate controller per virtual network –Partition the space of all flows –Leverage open interface to the hardware 14

15 Discussion Where to support virtualization? –Controller platform –Hypervisor –Switch Is a virtual network a good abstraction? –Familiar abstraction –But, is it the right one? 15

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