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Network Monitoring for SCIC

Network Monitoring for SCIC. Les Cottrell, SLAC For ICFA meeting September, 2005. Initially funded by DoE Field Work proposal. Currently partially funded by US Department of State/Pakistan Ministry of Science & Technology. Coverage. Measure the network performance for developing regions

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Network Monitoring for SCIC

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  1. Network Monitoring for SCIC Les Cottrell, SLAC For ICFA meeting September, 2005 Initially funded by DoE Field Work proposal. Currently partially funded by US Department of State/Pakistan Ministry of Science & Technology

  2. Coverage • Measure the network performance for developing regions • From developed to developing & vice versa • Between developing regions & within developing regions • Originated in High Energy Physics, now focused on DD • Adding monitoring sites in: Africa, S. America, Russia, Pakistan, India • Working with Turkey but ISP blocks pings • http://www-iepm.slac.stanford.edu/pinger/pingerworld/ • Interactive: zoom/pan, mouseover, clickable Monitoring site Remote site PingER coverage Aug 2005

  3. PingER Management • No funding for PingER ongoing operational management (40% FTE at the moment), so simplify management to make easier to sustain • Develop tools to simplify, automate, reduce manual effort • New installation procedures of monitor site • Assistance to producing executive plots • Provide alerts for unreachable remote sites • Provide alerts if unable to gather data from monitor sites • Check sanity of data and the configuration database • Check host are where we think they are…

  4. Triangulation 1/2 • Web hosts with TLDs in many developing countries have proxies in developed countries • E.g. 50% of initially chosen Pakistan Universities had web proxies outside Pakistan • Use IP2Location.com & traceroute to verify location, • working on triangulation • Make RTTmin measures to given host from known landmarks • Estimate distance from landmark using d= aL* RTTmin + bL • Initial aL ~ 50km/ms(speed of light in fiber, factor of 2 for right of way paths, non great-circle-route hop locations), bL = 0. • Optimize aL, bL using RTTmin for known PingER pairs • Locate host lat/long with confidence estimates

  5. Triangulation 2/2 • Landmarks: • Using Looking Glass servers (provide pings) • Install web accessible on demand ping tool at PingER monitoring sites • Use GeoLIM landmarks (for US & W. Europe) • Installing GeoLIM landmark at NIIT • Will build tool to validate where PingER nodes are really located and fix database or replace

  6. Worldwide view • Developed regions improving by factor 10 in < 6 years • Developing regions such as India and Africa are 5-10 years behind • May not be catching up.

  7. SCIC Monitoring WG PingER PingER • Measurements from • 37 monitors in 15 countries • 726 remote sites in 120 Countries; 3700 monitor-remote site pairs • Measurements go back to ‘95 • Reports on link reliability, quality • Aggregation in “affinity groups” Monitoring Sites New Affinity Groups (Countries) • Countries monitored • Contain 78% of world population • 90% of Internet users Anglo America (2), Latin America (14), Europe (24), S.E. Europe (9), Africa (26), Mid East (7), Caucasus (3), Central Asia (8), Russia includes Belarus & Ukraine (3), S. Asia (7), China (1)  and Australasia (2).

  8. Case study on Pakistan • Two sites to join LCG (NUST, QEA/NCP), is connectivity adequate? • Prompted by two outages of SEAMEW3 • Fiber cut off Karachi causes 12 day outage Jun-Jul ‘05 • Huge losses of confidence and business

  9. Fiber Outage Jun 27-Jul 8 ‘05 • Looked at 9 sites in Pakistan measured from within and outside Pakistan • Saw big (300=>600ms) increase in min-RTT as some sites switched to satellite • Losses 2-3% => >10% • Unreachability 1-2%=>20% • Effect varied by site 14 Pakistan loss from SLAC 75% Median 25% Loss % 0 Jan04 Jun05

  10. Longer term • Typically once a month losses go to 20% • Infrastructure appears fragile • Losses to QEA & NIIT are 3-8% averaged over month Loss % RTT ms Feb05 Another fiber outage, this time of 3 hours! Power cable dug up by excavators of Karachi Water & Sewage Board Jul05 Jun/Jul outage

  11. Pakistan: Next steps • Established contacts with PERN (manages E&R net connections) and NTC (carrier, government monopoly) and PIE (Pakistan Internet Exchange - international carrier interface) • Monitoring PIE backbone router in Karachi • NTC router deprecate pings so can’t monitor it • Establishing PingER monitors in PERN and NTC • Already have one at NIIT. • Want to pin-point causes of poor performance (losses, unreachability) • Monitoring to NIIT via NTC and Broadband/DSL provider to compare providers.

  12. First results from S. Africa • Host at Tertiary Education Network (TENET) site at Ronderbush • TENET secures for ZA universities & technical colleges management of service contracts, operational functions, other value added services • Monitoring about 45 beacon sites worldwide • Land line links to world, min-RTTs: • Europe: ~215ms; US: ~250ms; Russia: ~235ms; • L. America: ~415ms; E. Asia: ~450ms; Pakistan: ~ 465ms; Australia: ~ 480ms • Evaluating what sites in Africa to monitor

  13. Africa Coverage • Recently added monitoring station in South Africa (TENET) From S. Africa • Note we now cover most (31) countries with many tertiary education centers (83% pop)

  14. Satellites vs Terrestrial • Terrestrial links via SAT3 & SEAMEW (Mediterranean & Red Sea) • Terrestrial not available to all within countries

  15. S Africa Connectivity • Connections are usually indirect: • Costly and wastes international bandwidth • Color of country indicates route from S. Africa • E.g yellow countries accessed via Europe • Purple = some sites via Europe, some via US • Red routes go via Europe and USA

  16. Collaborations/funding • Good news: • Active collaboration with NIIT Pakistan to develop network monitoring including PingER (in particular management) • Travel funded by US State department & Pakistan MOST for 1 year • Have submitted a follow on proposal to USAID • FNAL & SLAC continue support for PingER management and coordination • Bad news (currently unfunded, could disappear): • DoE funding for PingER terminated • Harder to cover from SLAC HEP budget, given new project oriented budgeting • For development look at making part of a tool-kit (e.g. VDT) • Hard to get funding for operational needs (~0.4 FTE) • For quality data need constant vigilance (host disappear/move, security blocks pings, need to update remote host lists …), harder as more/remoter hosts

  17. Overall Situation • Performance from U.S. & Europe is improving all over, for losses, RTT & throughput • Performance to developed countries are orders of magnitude better than to developing countries • Poorer regions 5-10 years behind • Poorest regions Africa, Central & S. Asia • Some regions are: • catching up (SE Europe, Russia), • keeping up (Latin America, Mid East, China), • falling further behind (e.g. India, Africa)

  18. Future Focii • First view of Africa from within Africa • Impact of Gloriad for Russian connectivity • Impact of new RNP initiatives for Brazil • More on India (preparation for CHEP06) • Finish off the study of Pakistan • Impact of new connectivity in E. Asia • Others (suggestions welcome…)

  19. Further Information • PingER project home site • www-iepm.slac.stanford.edu/pinger/ • PingER methodology (presented at I2 Apr 22 ’04) • www.slac.stanford.edu/grp/scs/net/talk03/i2-method-apr04.ppt • ICFA/SCIC Network Monitoring report • www.slac.stanford.edu/xorg/icfa/icfa-net-paper-jan05/20050206-netmon.doc • ICFA/SCIC home site • http://icfa-scic.web.cern.ch/ICFA-SCIC/ • SLAC/NIIT collaboration • http://maggie.niit.edu.pk/ • Pakistan outage: www.slac.stanford.edu/grp/scs/net/case/pakjul05/jun-july.htm

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