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Allied Telesyn New Products and Solutions for Enterprise and NSP Market Vladimir Bošković August 2005 Agenda New devices fro enterprise and NSP Convertion 85xx 86xx 88xx 8948 Questions are welcome all the time! 9424 9924 and 9924s AR44xs AR750s iMAP family, including 9100 iMG new products ADSL routers new products LX3800 CWDM Multi-protocol Device Development on 10GE current and nearest future products Corporate Scenario Example : Campus Network – Delivering High Speed Application-Aware Network Engineering Department SwitchBlade 4004 10/100 Science Department AT-9812T Halls of Residence Power User Rapier48i 10/100/1000 SwitchBlade 4004 SwitchBlade 4008 SwitchBlade 4004 SwitchBlade 4008 Data Centre SwitchBlade AT-EX1001 4008 • Wire-speed L2/3 switching • Bandwidth Control • Multicast management E-learning video server Database server E-mail server AT-EX1001 • Gigabit Extenders utilise existing MultiMode Fibre Layer 1 – The Cable Type Thick Ethernet (Yellow Co-ax - obsolete) Thin Ethernet (Black Co-ax - obsolete) Unshielded Twisted Pair (Cat 5 / Cat 5e / Cat 6) Fibre (Multi Mode / Single Mode) Spectral Channel Length Cat 1 Layer 1 Types of Copper Cable LAN Applications Voice Cabling 4Mb Token Ring (4 x UTP’s) Cat 2 4MHz Cat 3 16MHz 100m 10Mb Ethernet, 4Mb Token Ring Cat 4 20MHz 100m 10Mb Ethernet, 16Mb Token Ring Cat 5 100MHz 100m 1000Mb Ethernet Cat 5e * 100MHz 100m 1000Mb Ethernet Cat 6 ** 250MHz 100m 1000Mb Ethernet Cat 7 600MHz 100m None available at this time * e stands for enhanced – has better crosstalk ** Cat 6 is expensive, large cross section & large bend radius DSL in Enterprise Market Hotel solution Connection to the gates in factories Corporate HQ Ethernet Gate of the factory ADSL over 2 wires ADSL or Ethernet Over Fiber Phone ADS L MO DE M/R OUT ER Direct to iMG for ADSL Single Home or Ethernet Switch/ iMAP DSLAM In MTU Applications High resiliency for VoIP DATA and Video Health Check (Periodi c) Secon Workstations dary Blocks Data VLANs Prim ary Workstations PSTN Mas ter Domain #1 Workstations Tra nsit Tra nsit Domain #1 Domain #1 Workstations Tra nsit Domain #1 Internet NSP Scenarion Broadband Network Architecture Today Single-Service networks Future Multi-Service networks Services Content Content Servers Data Mobile Telephony Television Communcation Control Evolution IP Core Network Access Access Access Access Transport, Switching & Access Networks Clients The whole is greater than the sum of individual parts! Access Access Internet PSTN Router VoIP Gateway Video Processing Equipment Customer Middleware OSS & NMS Service Mngt Billing MultiLayer Switching MAN Node Video On-Demand Application Middleware Server Transport/Core Network Access Sub-ring MultiService Access Platforms Copper in Access Fiber in Access Resilient Fiber Ring 1 or 10 Gigabit Ethernet Triple Play Services for Consumers Ethernet Standards Family (Speed defined at Layer 2 of OSI Seven Layer Model) 10Mb - Ethernet - Original Ethernet speed, still commonplace IEEE 802.3 – – – – 100Mb - Fast Ethernet - 10/100 Current workstation standard IEEE 802.3u – – – – 100BaseT4 100BaseTX 100BaseFX 100BaseSX – 100Mb over four unshielded twisted pairs - obsolete – 100Mb over two unshielded twisted pairs – 100Mb over Multi Mode fibre using 1310nm drivers – 100Mb over Multi Mode fibre using 850nm drivers 1Gb - Gigabit Ethernet – Server standard – Network Backbone standard – – – – 10Base5 – Thick Ethernet (Co-ax) - obsolete 10Base2 – Thin Ethernet (Co-ax) - obsolete 10BaseFL – 10Mb over MM Fibre using 850nm drivers 10BaseT – 10Mb over two unshielded twisted pairs 1000BaseT – 1000Mb over four unshielded twisted pair IEEE 802.3z 1000BaseTX – 1000Mb over two unshielded twisted pair – (requires Cat6, no product avail) 1000BaseSX – 1000Mb over Multi Mode fibre 1000BaseLX – 1000Mb over Single Mode fibre 10Gb - 10 Gig Ethernet – IEEE P802.ae – Large Network Backbone standard – – – – – – 10GBaseSR – 10 Gig over MM using 850nm (28 meters max) 10GBaseLX4 – 10 Gig over MM using 4 way mux (300 metres max) 10GBaseLR – 10 Gig over SM using 1310nm (10Km) 10GBaseER – 10 Gig over SM using 1550nm (40Km) 10GBaseZR – 10 Gig over SM using 1550nm (80Km) 10GBaseCX4 – 10 Gig over copper 15 metres Ethernet Fibre Distance Limitations Stated Optical Distance using Distance using Distance using Standard Distance Frequency 62.5/125 50/125 9/125 10FL MM 2Km 850nm 2Km 2Km -- 10FL SM * 15Km 1310nm -- -- 15Km 100SX MM 300m 850nm 300m 300m -- 100FX MM 2Km 1310nm 2Km 2Km -- 100FX SM (15Km) * 15Km 1310nm -- -- 15Km 100FX SM (40Km) * 40Km 1310nm -- -- 40Km 100FX SM (75Km) * 75Km 1310nm -- -- 75Km 100FX SM (100Km) * 100Km 1550nm -- -- 100Km 1000SX MM 500m 850nm 220m 500m -- 1000LX SM (10Km) 10Km 1310nm 550m 550m 10Km 1000LX SM (20Km) * 20Km 1310nm -- -- 20Km 1000LX SM (50Km) * 50Km 1550nm -- -- 50Km 1000LX SM (70Km) * 70Km 1550nm -- -- 70Km * Standards based signalling but with Single mode optics. Excessive attenuation will reduce the distance. Requires mode conditioning patch cords Common Characteristics Fiber Ethernet 10/100/1000 and 10GE IP protocol DSL technologies usable in enterprise environment as well Redundancy and resiliency Same applications – IP Data, IP Telephony, IP TV, Security etc. Differences between LAN and WAN are narrowing Differences between Enterprise and NSP are narrowing Customers who believe in our vision Enterprise and Government Organisations Operators and Providers Questions