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Eyal de Lara Department of Computer Science University of Toronto.

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1 Eyal de Lara Department of Computer Science University of Toronto

2  Health & assisted living, advertising, gaming, travel, social networking, task assistance and education, etc…  Examples:  Augmented reality  Face recognition  Automatic translation  Activity recognition

3  Huge pressure on mobile devices in terms of compute capacity, communication, and power budget  High data rate sensors (Cameras and microphones)  Compute intensive (real time classification & online learning)  Interactive 3

4  Too much latency for real-time responsiveness  Even 30 msec latency affect interactive performance  Example latencies:  Internet 2 RTT 50 – 200 msec.  Median 3G RTT is 200 msec. 4

5 5 802.11n AP with a n-core CPU  Bring the cloud closer:  The Case for VM-based Cloudlets in Mobile Computing, Satyanarayanan, Bahl, Caceres, Davies  Cloudlet: “data center in a box”  Lots of cores with no power constraints one network hop away  Leverage existing 802.11 protocols for service discovery, encryption, billing and authentication with no extra overhead  Provides tight coupling between the network and the computation  Incremental deployment Low latency, high bandwidth

6  Mechanisms to guarantee execution integrity  Privacy: Client should trust that no sensitive data is retained  Correctness of execution: Clients and service provider should trust the correctness of the computation  Developing applications that span the client, AP and cloud  Seamless migration of execution between client, AP and cloud  Supporting flexible business models  Give users access to proprietary algorithms in exchange for context  Provide micropayments to cloudlet owners in exchange for cycles  Broker connections between advertisers and customers 6

7  Mechanisms to guarantee execution integrity  Privacy: Client should trust that no sensitive data is retained  Correctness of execution: Clients and service provider should trust the correctness of the computation  Developing applications that span the client, AP and cloud  Seamless migration of execution between client, AP and cloud  Supporting flexible business models  Give users access to proprietary algorithms in exchange for context  Provide micropayments to cloudlet owners in exchange for cycles  Broker connections between advertisers and customers 7

8 Stateful swift cloning of VMs  State inherited up to the point of cloning  Local modifications are not shared  Clones make up an impromptu/transient cluster  Master is persistent  Clones state is ephemeral VM 0 Host 0 VM 1 Host 1 VM 2 Host 2 VM 3 Host 3 VM 4 Host 4 Virtual Network

9 tix = sf_request_ticket(howmany) prepare_computation(tix.granted) me = sf_clone(tix) do_work(me) if (me != 0) send_results_to_master() sf_sync() else receive_results() sf_join(tix) scp … more in the future Just like UNIX fork() Block … Child VMs are gone

10  Migrate computation to cloudlet  Scale application on cloudlet 10

11  VMs are BIG: Don’t send all the state!  Clones need little state of the parent  Clones exhibit common locality patterns  Clones generate lots of private state

12  Send only what you really need  Multicast  Network hardware parallelism  Prefetch: exploit locality patterns  Heuristics  Don’t send if I’ll overwrite  Malloc: exploit apps generating new state

13 Virtual Machine VM Descriptor Multicast ? ? State: Disk, OS, Processes Metadata “Special” Pages Page tables GDT, vcpu ~1MB for 1GB VM 1. Start only with the basics2. Fetch state on-demand3. Multicast: exploit net hw parallelism4. Multicast: exploit locality to prefetch Clone 1 Private State Clone 2 Private State 5. Heuristics: don’t fetch if I’ll overwrite 13

14 VM suspend (make descriptor) Xend suspend code Contact all hosts Wait for clones to start VM spawn (from descriptor) Xend resume code Clone set up Multicast descriptor 14

15 32 VMs 800 Milliseconds

16  Near-interactive parallel Internet service  Leverage parallelism to do the task in seconds  Examples  Bioinformatics  NCBI BLAST  EBI ClustalW2  Render farm  Quantitative finance farm  Compile farm

17  Cluster of 32 Dell PowerEdge, 4 cores  128 total processors  Xen 3.0.3 1GB VMs, 32 bits, linux pv 2.6.16.29  Obvious future work  Applications  Bioinformatics: BLAST, SHRiMP, ClustalW  Quantitative Finance: QuantLib  Rendering: Aqsis (RenderMan implementation)  Parallel compilation: distcc

18  128 processors  (32 VMs x 4 cores)  1-4 second overhead 143min 87min 20min 7min 110min 61min

19  Hierarchical VM fork support  VM fork over wireless 19

20  Cloudlets are an attractive solution for next generation context aware apps  VM fork lends itself well for cloudlet computing.  Sub-second cloning time  Negligible runtime overhead

21 http://sysweb.cs.toronto.edu/snowflock http://sourceforge.net/projects/snowflock delara@cs.toronto.edu Questions? 21

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