MAE Evolution

1. MAE Evolution Tom Bechly Internet Architecture and Technology

2. MAE ATM - Distributed Exchange Point • MAE-ATM East is a distributed exchange point • 8100 Boone Blvd, Vienna – original MAE ATM site • 12368 E. Sunrise Valley Drive, Reston (8/1) • 21830 UUNet Way, Ashburn (10/16) • Additional site planned for 2001 • New Sites have ATM switches, co-location, and transport • Benefits of distributing MAE • Increased port, circuit, and co-location capacity • Improved resilience and diverse customer connections • MAE-ATM West additional site planned for 2001 MAE Evolution

3. MAE ATM “Guaranteed” Service • Current MAE ATM is “Guaranteed” service • ABR service where PCR = 2*MCR • MCR can not exceed fixed percentage of access port speed • MCR for DS3 cannot exceed 50% of port speed (22.5 Mbps) • MCR for OC3 cannot exceed 33% of port speed (51.1 Mbps) • MCR of OC12 cannot exceed 25% of port speed (155.5 Mbps) • Total MCR cannot exceed access port speed MAE Evolution

4. MAE ATM “Best Effort” Service • New “Best Effort” service (11/00) • ABR service with congestion control in core • MCR = 100 cells/second • PCR is set to fixed percentage of access port speed • PCR for DS3 is 100% of port speed (45 Mbps) • PCR for OC3 is 66% of port speed (99.22 Mbps) • PCR for OC12 is 50% of port speed (300.67 Mbps) • Total MCR cannot exceed access port speed • Service types can be mixed on same access port MAE Evolution

5. MAE-FDDI East Status • MAE-FDDI East is being de-commissioned • MAE-FDDI East at 8100 Boone Blvd and at 1919 Gallows Road will be turned down on 2/28/01 • There is a FAQ on WWW.MAE.NET that covers the MAE East FDDI to ATM migration MAE Evolution

6. MAE-FDDI West Status • MAE-FDDI West platform was upgraded • Enterasys SSR 8600 implemented at MAE West • Customers connections were migrated to SSR 8600 over period 9/16 thru 10/11 • DEC GigaSwitches at MAE West were powered down on 10/12 • There are no plans to de-commission MAE-FDDI West, at this time • No new customers will be added MAE Evolution

7. Service Level View MAE Evolution

8. Service Goals • Public Point of Presence for exchanging traffic • Equal and neutral access to exchange • Fair in that same rules and policies apply to all • Stable Service Interface • Protect shared resources • Enable users to manage Peering relationships • ISP-XXX wants to peer with all • ISP-ZZZ only peers with ISP-AAA • Exchange point leverages advanced technology MAE Evolution

9. MAE Platform Evolution • Requirement for capacity in both bandwidth and port speeds will exceed current platform • Current architecture won’t scale indefinitely • Future requirement for OC48 access • Currently testing MPLS core with Frame Relay Interface • POS ports with Frame Relay encapsulation • Frame Relay DLCI mapped to LSP at core • Access speed of OC3, OC12, and OC48 MAE Evolution

10. Frame Relay Interface (Pros) • Service provisioning is straightforward for both Customer and MAE • No routing information exchanged between MAE and CPE • MAE technology can change while preserving stable service level interface • Architecture can be extended to provide multi-service interface with no ATM cell tax • Customer CPE saving in both cost and space MAE Evolution

11. Frame Relay Interface (Con’s) • Current Juniper implementation connects only alike interfaces (i.e. frame-relay-ccc to frame-relay-ccc) • Current Juniper implementation uses DLCIs from 511 to 1022 for frame-relay-ccc • Interworking with existing ATM (or any other) platform requires gateway MAE Evolution