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How SDN will shape networking

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Presentation on theme: "How SDN will shape networking"— Presentation transcript:

1 How SDN will shape networking
Nick McKeown Stanford University With: Martín Casado, Teemu Koponen, Scott Shenker … and many others With thanks to: NSF, GPO, Stanford Clean Slate Program, Cisco, DoCoMo, DT, Ericsson, Google, HP, Huawei, NEC, Xilinx

2 SDN: An industry change How SDN will shape networking
Outline SDN: An industry change How SDN will shape networking Empower network owners/operators Increase the pace of innovation Diversify the supply chain Build a robust foundation

3 Vertically integrated
App Specialized Applications Linux Mac OS Windows (OS) or Open Interface Specialized Operating System Microprocessor Open Interface Specialized Hardware Vertically integrated Closed, proprietary Slow innovation Small industry Horizontal Open interfaces Rapid innovation Huge industry

4 Vertically integrated
App Specialized Features Control Plane or Open Interface Specialized Control Plane Merchant Switching Chips Open Interface Specialized Hardware Vertically integrated Closed, proprietary Slow innovation Horizontal Open interfaces Rapid innovation

5 Software Defined Network (SDN)
2. At least one Network OS probably many. Open- and closed-source Control Program Control Program Global Network View Network OS 1. Open interface to packet forwarding Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding

6 Simple example

7 OSPF Distributed System Dijkstra’s Algorithm Why SDN? The Consequences
RFC 2328: 245 pages Distributed System Builds consistent, up-to-date map of the network: 101 pages Dijkstra’s Algorithm Operates on map: 4 pages Why SDN? The Consequences For industry For research For standards and protocols

8 Example OSPF (Dijkstra) IS-IS Network OS New! OSPF IS-IS OS
Packet Forwarding Distributed System New! OSPF IS-IS Distributed System Distributed System OS Custom Hardware

9 OpenFlow Forwarding Abstraction
Control Program A Control Program B Network OS “If header = p, send to port 4” “If header = q, overwrite header with r, add header s, and send to ports 5,6” Packet Forwarding “If header = ?, send to me” Flow Table(s) Packet Forwarding Packet Forwarding

10 OpenFlow Forwarding Abstraction <Match, Action>
Match on any header, or new header Allows any flow granularity Action Forward to port(s), drop, send to controller Overwrite header with mask, push or pop Forward at specific bit-rate Header Data Match: 1000x01xx x

11 OpenFlow Forwarding Abstraction
Protocol Independent Construct Ethernet, IPv4, VLAN, MPLS, … Construct new forwarding methods Backward Compatible Run in existing networks Technology Independent Switches, routers, WiFi APs Cellular basestations WDM/TDM circuits

12 SDN in development Domains Products Data centers Public clouds
Enterprise/campus Cellular backhaul Enterprise WiFi WANs Home networks Products Switches, routers: About 15 vendors Software: 8-10 vendors and startups New startups. Lots of hiring in networking.

13 SDN: An industry change How SDN will shape networking
Outline SDN: An industry change How SDN will shape networking Empower network owners/operators Increase the pace of innovation Diversify the supply chain Build a robust foundation

14 How SDN will shape networking
Empower network owners and operators Customize networks to local needs Eliminate unneeded features Creation of virtual, isolated networks Increase the pace of innovation Innovation at software speed Standards (if any) will follow software deployment Technology exchange with partners Technology transfer from universities Example 1

15 Example 1. Customizing the network Add distributed load-balancing
Nikhil Handigol, Mario Flajslik, Srini Seetharaman

16 LOAD-BALANCER

17

18 Experimental Setup Load-balancer Network OS: NOX Packet Forwarding

19

20

21 Nikhil’s Experiment: <500 lines of code
Feature Network OS: NOX

22 More videos openflow.org/videos

23 How SDN will shape networking
Empower network owners and operators Customize networks to local needs Eliminate unneeded features Creation of virtual, isolated networks Increase the pace of innovation Innovation at software speed Standards (if any) will follow software deployment Technology exchange with partners Technology transfer from universities Example 2

24 Example 2. Innovation at software speed Mininet: Rapid prototyping
Brandon Heller, Bob Lantz, Nikhil Handigol, Vimal Jeyakumar

25 Mininet: Rapid Prototyping
user kernel Load-balancer Network OS: NOX, Beacon, … Processes with network namespace Packet Forwarding veth Network OS OpenFlow Packet Forwarding Packet Forwarding Packet Forwarding Open vSwitch in kernel

26 Mininet: Rapid Prototyping
Fast Emulate network with 10s of switches on one laptop Processes easily mapped to cores and servers Emulate network with 1000s of switches in server rack Rapid transfer Deploy unmodified code directly into live network Code available openflow.org/mininet

27 How SDN will shape networking
3. Diversify the supply chain A variety of software suppliers Vendors, homegrown, outsourced, open-source Common hardware abstraction, with extensions 4. Build a robust foundation Standardized forwarding abstraction Provable network properties at every step Example 3

28 Example 3. Provable network properties Header Space Analysis
Peyman Kazemian

29 Header Space Analysis: Static checking
In today’s networks, simple questions are hard Can A talk to B? What are all the packet headers from A that can reach B? Are there any loops in the network? Is VLAN X (or ‘slice’) isolated totally from VLAN Y? Step 1: Model packet header as a point in {0,1}L Step 2: Model all switches as transforms of {0,1}L Step 3: Analyze reachability, loops, slice isolation, … Protocol independent, general, and surprisingly fast < Match, Action >

30 Basic Model Packet Forwarding Header Data L 0110101…01 Action
Send to port 1, and Rewrite with: 100XX00..1X + Match L 011XXX…X1

31 Network Transfer Function
Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding

32 Properties Network transfer function: set of Boolean expressions
Only relies on <Match, Action> Subsumes Ethernet, IPv4, firewalls, NAT, … Can prove reachability, isolation and find loops Used to find faults in real networks e.g. Analyzed Stanford backbone in 10mins Code publicly available

33 SDN: An industry change How SDN will shape networking
Outline SDN: An industry change How SDN will shape networking Empower network owners/operators Increase the pace of innovation Diversify the supply chain Build a robust foundation

34 Thank you!

35 Backup

36 Experimental Setup with Slicing
NOX Experiment NOX Experiment NOX Experiment Network OS: NOX Slicing Layer: FlowVisor Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding

37 Software Defined Network (SDN)
Control Programs Control Programs Control Programs Abstract Network View Network Virtualization Control Program A Control Program B Global Network View Network OS Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding Packet Forwarding

38 Example: New Data Center
Cost 200,000 servers Fanout of 20  10,000 switches $5k vendor switch = $50M $1k commodity switch = $10M Savings in 10 data centers = $400M Control More flexible control Tailor network for services Quickly improve and innovate

39 Consequences for research
Ease of trying new ideas Existing tools: NOX, Beacon, switches, Mininet More rapid technology transfer GENI, Ofelia and many more A stronger foundation to build upon Provable properties of forwarding New languages and specification tools

40 Consequences for standards
Standards will define the interfaces The role of standards will change: Network owners will define network behavior Features will be adopted without standards Programming world Good software is adopted, not standardized

41 Summary Networks becoming Abstractions More programmatic
Defined by owners and operators, not vendors Faster changing, to meet operator needs Lower opex, capex and power Abstractions Will shield programmers from complexity Make behavior more provable Will take us places we can’t yet imagine


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