Product Details
Place of Origin: Beijing, China, guangdong, China
Brand Name: HW
Model Number: NE40E-X16
Payment & Shipping Terms
Price: $15,580.00 - $18,500.00/pieces
Type: |
Enterprise Router |
Use: |
Core, Aggregation, And Access Networks |
Network: |
Wireless Lan, Wired LAN, ONVIF, SDK, TCP |
Products Status: |
Stock |
Function: |
SNMP, VLAN Support |
WAN Ports: |
1 |
Weight (lb/kg) Fully Configured: |
246 Kg (120G) |
Throughput: |
1.44 Tbps |
Operating Temperature: |
32° To 104° F (0° To 40° C) |
Traffic Analysis: |
NetStream |
VLAN: |
Adding Access, Trunk, And Hybrid Interfaces To VLANs/Default VLAN |
Dimensions (H X W X D): |
1420 Mm X 442 Mm X 650 Mm (32 U) |
Type: |
Enterprise Router |
Use: |
Core, Aggregation, And Access Networks |
Network: |
Wireless Lan, Wired LAN, ONVIF, SDK, TCP |
Products Status: |
Stock |
Function: |
SNMP, VLAN Support |
WAN Ports: |
1 |
Weight (lb/kg) Fully Configured: |
246 Kg (120G) |
Throughput: |
1.44 Tbps |
Operating Temperature: |
32° To 104° F (0° To 40° C) |
Traffic Analysis: |
NetStream |
VLAN: |
Adding Access, Trunk, And Hybrid Interfaces To VLANs/Default VLAN |
Dimensions (H X W X D): |
1420 Mm X 442 Mm X 650 Mm (32 U) |
Item | NE40E-X16 | NE40E-X8 | NE40E-X3 | ||
Number of Slots | 22 slots, including 2 MPUs (1:1 backup), 4 SFUs (3+1 backup), and 16 LPUs | 11 slots, including 2 SRUs (1:1 backup), 1 SFUs (2+1 backup), and 8 LPUs | 5 slots (for 3 LPUs and 2 MPUs) | ||
Dimensions (W x D x H) | 442 mm x 650 mm x 1,420 mm (32U) | 442 mm x 650 mm x 620 mm (14 U) | 442 mm x 650 mm x 175 mm (DC, 4U) 442 mm x 650 mm x 220 mm (AC, 5U) | ||
Power Consumption (in full configuration) | 4,610W (120G) | 2,340W (120G) | 1,070W (AC) | ||
7,970W (240G) | 4,100W (240G) | 920W (DC) | |||
Weight (in full configuration) | 246 kg (120G) | 119 kg (120G) | 42 kg (DC) | ||
279 kg (240G) | 136 kg (240G) | 52 kg (AC) | |||
Interface Types | 100 GE/40 GE | ||||
10 GE LAN /WAN | |||||
GE/FE OC-192c/STM-64c POS | |||||
OC-48c/STM-16c POS | |||||
OC-12c/STM-4c POS | |||||
OC-3c/STM-1c POS | |||||
Channelized STM-4 | |||||
Channelized OC-3/STM-1 | |||||
OC-3c/STM-1c ATM | |||||
OC-12c/STM-4c ATM | |||||
E3/CT3 CE1/CT1 E1/T1 | |||||
IPv4 | IPv4 static routes and dynamic routing protocols, such as RIP, OSPF, IS-IS, and BGP4 | ||||
Line rate forwarding on all interfaces in complex routing environments | |||||
Various IPv4-to-IPv6 transition technologies: manual tunnel, automatic tunnel, 6to4 tunnel, GRE tunnel, and ISATAP tunnel | |||||
IPv4 over IPv6 tunnel and IPv6 Provider Edge (6PE) | |||||
IPv6 static routes and dynamic routing protocols, such as 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 | |||||
Internet Control Message Protocol Version 6 (ICMPv6) Management Information Base (MIB), User Datagram Protocol Version 6 (UDP6) MIB, TCP6 MIB, and IPv6 MIB | |||||
L2NAT, NAT444, DS-Lite, and NAT64 | |||||
MPLS TE, P2MP TE/mLDP, and MPLS/BGP VPN, in compliance with RFC 2547 | |||||
Three inter-AS implementations, integrated with Internet services | |||||
Martini and Kompella MPLS L2VPN, L2VPN techniques such as VPLS and VLL, and IP interworking over heterogeneous media | |||||
Multicast VPN | |||||
IPv6 | MPLS TP | ||||
Layer 2 Features | IEEE 802.1Q, IEEE802.1ad, IEEE 802.1D, IEEE 802.1w, and IEEE 802.1s | ||||
VLAN aggregation (super VLAN) | |||||
1483B and filtering list based on MAC addresses and ports | |||||
Reliability | IP/LDP/VPN/TE/VLL FRR, and IP/TE auto re-routing | ||||
IGP/BGP/ multicast route convergence, VRRP, RRPP, and IP trunk load balancing and backup | |||||
Hardware-based BFD of 3.3 ms, MPLS/Ethernet OAM, Y.1731, and routing protocol/port/VLAN damping | |||||
PW redundancy, E-Trunk, E-APS, and E-STP | |||||
In-service patching for smooth software upgrade | |||||
Passive backplane design: backup for key components such as route processing | |||||
IP/LDP/VPN/TE/VLL FRR, and IP/TE auto rerouting | |||||
IGP/BGP/multicast route convergence, VRRP, RRPP, and IP trunk load balancing and backup | |||||
Hardware-based BFD of 3.3 ms, MPLS/Ethernet OAM, Y.1731, and routing protocol/port/VLAN damping | |||||
PW redundancy, E-Trunk, E-APS, and E-STP | |||||
In-service patching for smooth software upgrade | |||||
Passive backplane design: backup for key components such as route processing modules, SFUs, and power modules to guard against single points of failure | |||||
Switching between components that hot back up each other, Graceful Restart (GR), NSF, NSR, and ISSU | |||||
Hot swap of all components | |||||
Well-designed HQoS and advanced scheduling and congestion avoidance technologies on each LPU | |||||
Accurate traffic policing and traffic shaping | |||||
Complex rule definition and fine-grained flow identification | |||||
MPLS HQoS, ensuring QoS for MPLS VPN, VLL, and PWE3 services | |||||
DS-TE that combines MPLS TE and the DiffServ model and 8CT | |||||
TE-tunnel-oriented QoS Y.1731, IP FPM, RFC 2544, MPLS OAM, 802.1ag, and 802.3ah | |||||
IGMPv1, IGMPv2, and IGMPv3 | |||||
Static multicast and multicast protocols, including PIM-DM, PIM-SM, PIM-SSM, Multicast Source Discovery Protocol (MSDP), and Multiprotocol BGP (MBGP) | |||||
Multicast CAC | |||||
Interoperability between multicast protocols | |||||
Two-level multicast replication on the SFUs and LPUs to optimize the multicast effect | |||||
ACL-based packet filtering | |||||
URPF | |||||
GTSM | |||||
DHCP snooping | |||||
ARP attack defense and DoS attack defense | |||||
MAC address limit and MAC-IP binding | |||||
Secure Shell (SSH) and SSHv2 | |||||
IPsec tunnel | |||||
Distributed GRE tunnel | |||||
Distributed NetStream | |||||
High-precision NAT: CGN | |||||
QoS | Long-term operating temperature: 0°C to 45°C | ||||
OAM | Short-term operating temperature: –5°C to +55°C | ||||
Multicast | Long-term operating humidity: 5% RH to 85% RH | ||||
Security | Short-term operating humidity: 0% RH to 100% RH | ||||
Value-added Services | Operating altitude: ≤ 3,000 meters | ||||
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