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Description
ME60 X3 DC Overview
ME60 series are multiple-service control gateways (BRASs) developed by Huawei for industries such as broadcasting, television, and education. ME60s provide a platform for unified user access and management.
Based on a 2T platform, ME60s provide the industry’s largest-capacity routing line card (480G) and a large-capacity NAT service line card (160G) that enable customers to smoothly evolve from IPv4 to IPv6.
Components of the ME60 X3 DC chassis
Front view of the ME60-X3
Rear view of the ME60-X3
No. | Part | Quantity |
---|---|---|
1 | MPU slot | 2 |
2 | LPU slot | 3 |
3 | Front cable tray | 2 |
4 | Mounting ear | 2 |
5 | Air intake vent | 1 |
6 | Handle | 4 |
7 | Rear cable tray | 2 |
8 | DC power module | 2 (1+1 for redundancy) |
9 | Air filter | 1 |
10 | Ground terminal | 1 |
11 | Fan module | 1 |
Clearances Around the ME60-X3
ME60-X3 air flow path
Allow at least 75 mm (2.95 in.) of clearance around the air intake vent of the ME60-X3, and 1 U of clearances between chassis.
Clearance around the ME60 for heat dissipation
Allow at least 350 mm (13.78 in.) of clearance around the air filter of the ME60-X3 for maintenance.
Clearance around the ME60-X3 for maintenance
ME60 X3 DC Datasheet
Item | ME60 X3 DC |
Switching Capacity | 1.08 Tbit/s |
Forwarding Performance | 360 Mbit/s |
Number of Slots | 5 slots, including 3 LPUs and 2 SRUs |
Interface Types | 100 GE-WAN/LAN
10 GE-WAN/LAN GE/FE |
Processing unit(MHz) | Dominant frequency: 800 |
BootROM(MB) | 2 |
SDRAM(GB) | 4 |
NVRAM( KB) | 512 |
Flash(MB) | 16 |
CF card(GB) | 2 |
BRAS | User access protocols: PPPoE, IPoE, 802.1X, and ND access
User authentication protocols: PAP, CHAP, MSCHAP, RADIUS, and HWTACACS User billing protocols: RADIUS, HWTACACS, and COPS User authorization protocols: RADIUS, HWTACACS, COPS, and COA |
L2TP | Maximum number of sessions supported: 64K per slot and 128K per device Maximum number of tunnels supported: 16K per slot, 16K per LAC device, and 48K per LNS device |
IPv4 | Supports the static routing protocol and dynamic routing protocols, such as RIP, OSPF, IS-IS, and BGP-4. All ports support line-rate forwarding even in complex routing environments, for example, when route flapping occurs |
IPv6 | IPv4/IPv6 dual stacks
A variety of IPv4-to-IPv6 transition technologies: Manually configured tunnels, IPv6 over IPv4 tunnels, GRE tunnels, IPv4 over IPv6 tunnels, and IPv6 Provider Edge (6PE) IPv6 static routes and dynamic routing protocols, such as BGP4/BGP4+, RIPng, OSPFv3, and IS-ISv6 IPv6 neighbor discovery, PMTU discovery, TCP6, ping IPv6, tracert IPv6, socket IPv6, static IPv6 DNS, IPv6 DNS server, TFTP IPv6 client, and IPv6 policy-based routing Network Address Translation IPv6-to-IPv4 (NAT64), NAT44 and Dual-Stack Lite (DS-Lite) Internet Control Message Protocol Version 6 (ICMPv6) Management Information Base (MIB), User Datagram Protocol Version 6 (UDP6) MIB, TCP6 MIB, and IPv6 MIB |
MPLS/MPLS VPN | MPLS TE and MPLS/BGP VPN in compliance with RFC 2547bis
Inter-AS Option A, inter-AS Option B, and inter-AS Option C Integration with Internet services Martini MPLS L2VPN and Kompella MPLS L2VPN VPLS and VLL Heterogeneous interworking Multicast VPN |
Layer 2 Features | Protocols such as IEEE 802.1Q, IEEE 802.1ad, IEEE 802.1D, IEEE 802.1w, and IEEE 802.1s
VLAN aggregation (super VLAN) Filtering list based on MAC addresses and ports |
Reliability | Protection mechanisms such as IP/LDP/VPN/TE/VLL FRR, IP/TE automatic rerouting, fast convergence of IGP/BGP/multicast routes, VRRP, load balancing among IP-Trunk links, BFD, MPLS/Ethernet OAM, and routing protocol/port/VLAN damping
PW redundancy, E-Trunk, E-APS, and E-STP In-service patching for smooth software upgrade Passive backplane Redundancy backup for key components such as route processing modules, SFUs, and power modules to guard against a single point of failure Switching between components that hot back up each other, Graceful Restart (GR), NSF, NSR, and ISSU Hot swapping for all components Intra- or inter-CGN service chassis 1+1 and 1:1 hot backup |
QoS | Provides a well-designed HQoS mechanism
Provides advanced scheduling and congestion avoidance technologies, accurate traffic policing and traffic shaping, and complex rule definition and fine-grained flow identification Supports MPLS HQoS and ensures QoS for MPLS VPN, VLL, and PWE3 services Supports DiffServ- and MPLS TE-based DS-TE, eight Class Types (CTs), and TE-tunnel-based QoS Supports a maximum of 768K flow queues per slot |
Value-added Service | Supports Destination Address Accounting (DAA), which helps carriers identify services based on destination network segments and perform separate accounting for different services on IP bearer networks
Supports Enhanced Dynamic Service Gateway (EDSG), which identifies various user services based on traffic destination addresses and implements independent rate limit, accounting, and management for each service |
Multicast | IGMP v1, IGMP v2, and IGMP v3
Static multicast Multicast routing protocols, such as PIM-SM, PIM-SSM, MSDP, and MBGP Multicast CAC Interoperability between multicast protocols Multicast policies for multicast routing protocols and multicast forwarding Multicast QoS Two-level multicast replication on the SFU and LPU to achieve optimal multicast service performance |
Security | ACL-based packet filtering
URPF GTSM DHCP snooping ARP attack defense DoS attack defense MAC address limit MAC-IP binding SSH SSHv2 |
Maximum Power Consumption(W) | 920 (BSUF-100) |
Operating Environment | Long-term operating temperature: 0°C to 45°C
Short-term operating temperature: –5°C to 55°C Long-term operating humidity: 5% to 85% Short-term operating humidity: 0% to 100% Operating altitude: Equal to or below 4,000m |
Dimensions(mm) | 175 (H)x 442 (W) x 650 (D) |
Empty chassis Weight(kg) | 21 |
Full Configuration Weight(kg) | 42 kg (100G) |
Additional information
Weight | 42.0000 kg |
---|---|
Dimensions | 65.0000 × 44.2000 × 17.5000 cm |
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