EN
S16800-04
S16800-08
S16800-16
FiberHome S16800 series switches (S16800) are next-generation Datacenter switches developed by FiberHome for service providers and enterprise networks. The S16800 provides high density of 10/40/100GE ports, and supports intelligent network optimizations using MPLS, traffic analysis, comprehensive QoS, multicast, load balancing, and security as well as high-performance of Layer 2 to Layer 4 switching. In addition, S16800 adopts high-reliability technologies such as non-stop forwarding, ring protection, redundant control and power supply. It can be deployed in various scenarios, such as core and convergence layer of WANs, MANs, campus networks, and data centers. Together with Fengine 6900 series switches, Fengine 16800 enables you to build scalable, simplified, open, and secure networks.
FiberHome S16800 series switches (S16800) are next-generation Datacenter switches developed by FiberHome for service providers and enterprise networks. The S16800 provides high density of 10/40/100GE ports, and supports intelligent network optimizations using MPLS, traffic analysis, comprehensive QoS, multicast, load balancing, and security as well as high-performance of Layer 2 to Layer 4 switching. In addition, S16800 adopts high-reliability technologies such as non-stop forwarding, ring protection, redundant control and power supply. It can be deployed in various scenarios, such as core and convergence layer of WANs, MANs, campus networks, and data centers. Together with Fengine 6900 series switches, Fengine 16800 enables you to build scalable, simplified, open, and secure networks.
Product Appearance
S16800-04 | 4 power supply slots |
4 service card slots | |
2 main control slots | |
6 switching slots | |
S16800-08 | 8 power supply slots |
8 service card slots | |
2 main control slots | |
6 switching slots | |
S16800-16 | 10 power supply slots |
16 service card slots | |
2 main control slots | |
6 switching slots |
Product Features & Benefits
High Density Interface
The S16800 supports high density interfaces, max 2304 10G,2304 25G, 576 40G, 576 100G ports.
High Switching Capacity
The backplane capacity of S16800 is up to 56T to provide all ports with non-stop forwarding. The S16800 high performance makes sure to build a reliable, sustainable high speed IP networks.
The S16800 supports multi-lever switching; the L2 to L7 flow can be identified, each port support separate packet filtering, so that different control can be applied.
Carrier Grade Reliability
The S16800 adopts redundant design of key components, such as main control, power supply, fan and monitoring. The seamless switching can be achieved via the redundant main control card. All cards are hot swappable to make sure that service could not be interrupted when switchover to redundant parts.
And S16800 provides enhanced Ethernet reliability technologies such as STP/RSTP/MSTP, VRRP, R-link, Ethernet Ring Protection Switching (G.8032) at millisecond-level protection switchover to ensure link-level reliability.
The S16800 also supports 802.1ag, 802.3ah and Y.1731 Ethernet OAM standards and BFD to make sure that it is 99.999% reliable.
Superior Quality of Service
The S16800 supports 802.1p, WRR, SP/PQ+WRR, WRED, DiffServ priorities scheduling to ensure the highest-priority packets are scheduled ahead of all other packets. And it supports L2-L7 flow classifications.
High-Performance IPv6 Service Support
The S16800 supports IPv4/IPv6 dual stack. IPv6 wire-rate processing is achieved by hardware forwarding. And it supports other IPv6 features, such as tunneling, IPv6 static routes, RIPng, OSPFv3, BGP4+, IS-ISv6, and IPv6 PIM, IPv6 ACL. to meet the requirements of independent IP networks and IPv4/IPv6 integrated networks.
Excellent Security Design
The S16800 offers a comprehensive ACL security solution including standard ACL, extended ACL.
And subscriber security are protected by DHCP Snooping, ARP Inspection. IP Source Guard can be used to identify each customer based on MAC, IP address and port information to help prevent malicious attack.
Switch security means CPU can be protected from attack and storm control, such as DOS, etc., the port security feature allows controlling the number of MAC addresses against the overflow of the switch memory and MAC address table.
The S16800 supports IEEE 802.1x authentication to prevent malicious terminals to attack the entire networks.
Product Specifications
Features | S16800-04 | S16800-08 | S16800-16 | ||
Main control slots | 2 | 2 | 2 | ||
Switching slots | 6 | 6 | 6 | ||
Service card slots | 4 | 8 | 16 | ||
Power slots | 4 | 8 | 10 | ||
Switching capacity | 46 Tbps | 92 Tbps | 184 Tbps | ||
Throughput | 28,800 Mpps | 57,600 Mpps | 115,200 Mpps | ||
VLAN | Access, Trunk, Hybrid VLAN, default VLAN | ||||
QinQ, selective QinQ | |||||
PVLAN, super VLAN, voice VLAN | |||||
MAC | Dynamic learning and aging of MAC addresses | ||||
Static, dynamic MAC address entries | |||||
Restriction of MAC address learning based on ports and VLANs | |||||
STP | STP(IEEE 802.1d),RSTP(IEEE 802.1w) and MSTP(IEEE 802.1s) | ||||
BPDU protection, root protection, and loop protection | |||||
IP routing | IPv4 and IPv6 static routing, GRE, PBR, ECMP | ||||
IPv4 routing protocols, such as OSPF, BGP, and ISIS | |||||
IPv6 routing protocols, such as RIPng, OSPFv3, ISISv6, and BGP4+ | |||||
Multicast | IGMPv1/v2/v3, IGMP v1/v2/v3 Snooping, IGMP snooping over VPLS, IGMP Proxy | ||||
PIM DM, PIM SM, PIM SSM | |||||
MLD, MSDP | |||||
Fast leave of multicast members | |||||
Multicast traffic control | |||||
Control of multicast packets | |||||
Multicast ACL and multicast duplications | |||||
Multicast VPN | |||||
VxLAN | IPV6 VxLAN over IPV4, EVPN VxLAN | ||||
EVPN | MP-BGP EVPN(RR), IRB, | ||||
Reliability | LACP, RTrunk | ||||
LLDP | |||||
R-LINK, G.8032, 50ms switchover | |||||
M-LAG | |||||
VRRP, BFD for VRRP | |||||
BFD for BGP, IS-IS, OSPF, and Static routing | |||||
Ethernet OAM (802.3ah and 802.1ag) | |||||
ITU-Y.1731 | |||||
Redundant power supply | |||||
Fan redundant | |||||
Hot swappable(main control, service card, fan, power supply) | |||||
Main control 1+1 backup, Switching card 1+1 backup | |||||
QoS | Traffic classification based on the Layer-2 header, Layer-3 | ||||
Information, Layer-4 information, and 802.1p priority | |||||
The actions of ACL, CAR, re-mark, and schedule | |||||
The queue scheduling algorithms of PQ, WRR, DRR, PQ+WRR, and PQ+DRR | |||||
Congestion avoidance mechanisms, such as WRED and tail drop | |||||
Traffic shaping and monitoring | |||||
Security and management | 802.1x authentication | ||||
RADIUS and TACACS authentication for login users | |||||
Hierarchical protection for commands to prevent unauthorized users from accessing the equipment | |||||
Protection against DoS attack, TCP SYN Flood attack, UDP Flood attack, broadcast storm, and heavy traffic attack | |||||
CPU queues protection | |||||
The ping and tracert functions based on ICMP packets | |||||
RMON | |||||
Energy saving | Temperature alarms, and fan speed adjustable | ||||
ALS(Automatic Laser Shutdown) | |||||
Configuration and maintenance | Console, Telnet, and SSH terminals | ||||
Network management protocols, such as SNMPv1/v2/v3, NETCONF, telemetry | |||||
Standard MIB | |||||
File uploading and downloading through FTP, TFTP and SFTP | |||||
User operation logs | |||||
Mirroring based on flow or port, IPFIX, NETFLOW, SFLOW | |||||
BootROM upgrade and remote upgrade | |||||
Hot patches | |||||
Humidity | 5%~85% non condensing | ||||
Temperature | (0~45)℃ | ||||
Input voltage | AC: Rated voltage range:100V to 240V AC, 50/60Hz | ||||
Maximum voltage range:90V to 286V AC, 50/60Hz | |||||
DC:-40V to -72V DC | |||||
HVDC: 190 ~ 400V DC | |||||
Chassis dimensions(mm) | 443×920×400(9U) | 443×920×640(14U) | 443×920×1022(23U) | ||
Chassis power supply | < 8000W | < 1000W | < 1200W | ||
Chassis weight | < 35kg | < 45kg | < 60kg |