1 / 54

Traffic Flows in the Caribbean

Traffic Flows in the Caribbean. Caribbean Internet Forum Thursday, October 30, 2008 Jonny Martin Internet Analyst Packet Clearing House. PCH Background. Not-for-profit agency supporting operation of critical Internet infrastructure since 1993.

happy
Download Presentation

Traffic Flows in the Caribbean

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Traffic Flows in the Caribbean • Caribbean Internet Forum • Thursday, October 30, 2008 • Jonny Martin • Internet Analyst • Packet Clearing House

  2. PCH Background • Not-for-profit agency supporting operation of critical Internet infrastructure since 1993. • Funded by grants from carriers, equipment vendors, aid agencies, and individuals. • Offices in San Francisco, London, and Kathmandu.

  3. Traffic Flows in the Caribbean • Originally going to be joint presentation with Mr. Carlton Samuels • Unable to obtain full information from carriers about nature of traffic flows • We’re going to look at a traffic flow that doesn’t feature in the Caribbean - that across Internet eXchange Points (IXP)

  4. ISP Lifecycle: Simple Aggregator Single Transit Provider IXPs ISP Network Customers

  5. ISP Lifecycle: Redundancy and LCR Redundant Transit Providers IXPs ISP Network Customers

  6. ISP Lifecycle: Local Peer Redundant Transit Providers IXPs ISP Network Single IXP Customers

  7. ISP Lifecycle: Network Service Provider Redundant Transit Providers IXPs Multiple IXPs NSP Network Customers

  8. Hot Potato Routing Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  9. Hot Potato Routing Red Customer sends to Green Customer via Red NSP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  10. Hot Potato Routing Red NSP delivers at nearest IXP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  11. Hot Potato Routing Green NSP backhauls from distant IXP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  12. Hot Potato Routing Green ISP delivers to Green Customer Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  13. Hot Potato Routing Green Customer replies via Green NSP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  14. Hot Potato Routing Green NSP delivers at nearest IXP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  15. Hot Potato Routing Red NSP backhauls from distant IXP Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  16. Hot Potato Routing Red NSP delivers to Red Customer Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  17. Hot Potato Routing Red Network is responsible for its own costs Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  18. Hot Potato Routing Green Network is responsible for its own costs Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  19. Hot Potato Routing Symmetry: Fair sharing of costs Redundant Transit Providers Redundant Transit Providers IXP Red NSP Network Green NSP Network IXP Red Customer Green Customer

  20. The efficiency of the Internet depends upon this principle: • For any two parties who wish to exchange traffic, there must be a pair of exchanges, one near each party.

  21. The manifestation of this inefficiency: • Countries which haven’t yet built Internet Exchange Points disadvantage themselves, and export capital to countries that already have.

  22. A Closer Look at The Economicsof Internet Exchange Points

  23. Tools for thinking about Internet Exchanges in economic terms • What are we, as ISPs, selling? The right to modulate bits. That right is a perishable commodity. Where do we get the potentially-modulatable bits?

  24. The right to modulate bits • Any Internet connection is a serial stream of time-slices. • Each time-slice can be modulated with a binary one or zero, one bit. • Each customer purchases potentially-modulatable bits at some rate, for example, 2mbps, which is 5.27 trillion bits per monthly billing cycle.

  25. That’s a perishable commodity • The quality (as opposed to quantity-per-time) characteristics of an Internet connection are loss, latency, jitter, and out-of-order delivery. Loss increases as a function of the number and reliability of components in the path, and the amount of contention for capacity. Latency increases as a function of distance, and degree of utilization of transmission buffers by competing traffic sources. Jitter is the degree of variability in loss and latency, which negatively affects the efficacy and efficiency of the encoding schemes which mitigate their effects. Jitter increases relative to the ratio of traffic burstiness to number of sources. Out-of-order delivery is the portion of packets which arrive later than other, subsequently-transmitted packets. It increases as a function of the difference in queueing delay on parallel paths. • All of these properties become worse with time and distance, which is a reasonable definition of a perishable commodity.

  26. So where do we get the bits? • The value of the Internet is communication. • The value is produced at the point at which communication occurs between two ISPs, and it is transported to the customers who utilize it. • Thus, all the bits we sell come from an Internet exchange, whether nearby, or far away.

  27. So how do we recognize a successful exchange? • The purpose of an IX is to lower participating ISPs’ average per bit delivery costs (APBDC). • A cheap IX is probably a successful one. An expensive IX is always a failure. Reliability is just hand-waving by salespeople.

  28. The irony inherent in that • An efficient IX is an ISPs lowest-cost delivery method. • In order to shift latency-sensitive traffic toward the lowest-cost delivery method, it must also be the highest-capacity pipe. • Regardless of degree of utilization. • Thus many IX connections run at low utilization: apparent inefficiency.

  29. So, with that background... • ...let’s take a short tour of the world, concluding with Latin America. • As we go, keep an economic perspective, and consider correlations between exchange locations and economic power.

  30. Europe

  31. Two Large Exchanges

  32. Many, Many Smaller Exchanges

  33. Cable Landings

  34. North America

  35. Two Large Exchanges

  36. Many Smaller Exchanges

  37. Cable Landings

  38. Asia-Pacific

  39. Three Large Exchanges

  40. Many Medium-Sized Exchanges

  41. Cable Landings

  42. Africa

  43. Two Large IXes

  44. Eight Smaller IXes

  45. Cable Landings

  46. Satellite Only

  47. Latin American & Caribbean Region

  48. Two Large Exchanges

  49. Nine Smaller Exchanges

  50. Three of those are in Brazil

More Related