The S6700 has industry-leading performance and provides up to 24 or 48 line-speed 10GE ports. It can be used in a data center to provide 10 Gbit/s access to servers or function as a core switch on a campus network to provide 10 Gbit/s traffic aggregation. In addition, the S6700 provides a wide variety of services, comprehensive security policies, and various QoS features to help customers build scalable, manageable, reliable, and secure data centers.
Large-capacity, high-density 10 Gbit/s access
provide sufficient bandwidth for users, many servers, particularly
those in data centers, use 10G network adapters. The S6700 can be used
in data centers to provide high forwarding performance and 10GE ports.
The S6700 has the highest density of all 10GE ports and the largest
switching capacity among its counterpart switches. Each S6700 provides a
maximum of 48 line-speed 10GE ports.
S6700 ports support 1GE and 10GE access and can identify optical module types, maximizing the return on investment and allowing users to flexibly deploy services.
The S6700 has a large buffering capacity and uses an advanced buffer scheduling mechanism to ensure non-block transmission when data center traffic volume is high.
Comprehensive security policies
S6700 provides multiple security measures to defend against Denial of
Service (DoS) attacks, as well as attacks against networks or users.
The S6700 supports DHCP snooping, which generates user binding entries based on users' access interfaces, MAC addresses, IP addresses, IP address leases, and VLAN IDs.
The S6700 supports strict ARP learning, which prevents ARP spoofing attacks that exhaust ARP entries.
The S6700 supports centralized MAC address authentication and 802.1x authentication.
Higher reliability mechanisms
S6700 supports redundant power supplies. You can choose a single power
supply or use two power supplies to ensure device reliability. With two
fans, the S6700 has a longer MTBF time than its counterpart switches.
The S6700 supports the enhanced trunk (E-Trunk) feature. When a CE is dual-homed to two S6700s (PEs), E-Trunk protects the links between the CE and PEs and implements backup between the PEs. E-trunk enhances link reliability between devices.
The S6700 supports the Smart Ethernet Protection (SEP) protocol, a ring network protocol applied to the link layer on an Ethernet network.
The S6700 supports VRRP. Two S6700s can form a VRRP group to ensure nonstop reliable communication. Multiple equal-cost routes to an upstream device can be configured on the S6700 to provide route redundancy. When an active route is unreachable, traffic is switched to a backup route.
Enhanced QoS control mechanism
The S6700 implements complex traffic classification based on packet information, such as the 5-tuple, IP preference, ToS, DSCP, IP protocol type, ICMP type, TCP source port, VLAN ID, Ethernet protocol type, and CoS. ACLs can be applied to inbound or outbound directions on an interface.
The S6700 supports the iStack function, which allows switches that are far apart to form a stack. A port on the S6700 can be configured as a stack port using a command for flexible stack deployment. The distance between stacked switches is further increased when the switches are connected with optical fibers.
S6700 supports automatic configuration, plug-and-play, deployment using a
USB flash drive, and batch remote upgrades. These capabilities simplify
device management and maintenance and reduce maintenance costs.
The S6700 supports SNMP v1/v2/v3 and provides flexible methods for managing devices. Users can manage the S6700 using the CLI, Web NMS, Telnet, and HGMP.
The S6700 supports GARP VLAN Registration Protocol (GVRP), which dynamically distributes, registers, and propagates VLAN attributes to reduce network administrator workloads and ensure correct VLAN configuration.
The S6700 supports Multiplex VLAN (MUX VLAN). MUX VLAN isolates Layer 2 traffic between interfaces in a VLAN.
The S6700 supports BFD, which provides millisecond-level fault detection for protocols, such as OSPF, IS-IS, VRRP, and PIM, to improve network reliability.
Various IPv6 features
S6700 supports IPv4/IPv6 dual stack and can migrate from an IPv4 network
to an IPv6 network. S6700 hardware supports IPv4/IPv6 dual stack, IPv6
over IPv4 tunnels (including manual tunnels, 6to4 tunnels, and ISATAP
tunnels), and Layer 3 line-speed forwarding.
The S6700 supports various IPv6 routing protocols including RIPng and OSPFv3.
|Port||Twenty-four GE SFP/10 GE SFP+ ports||Forty-eight GE SFP/10 GE SFP+ ports|
|MAC address table||128 K MAC address entries|
MAC address learning and aging
Static, dynamic, and blackhole MAC address entries
Packet filtering based on source MAC addresses
|VLAN||4 K VLANs|
Guest VLAN and voice VLAN
VLAN assignment based on MAC addresses, protocols, IP subnets, policies, and ports
1:1 and N:1 VLAN Mapping
QinQ and selective QinQ
|IPv4 routing||Static routing, RIPv1, RIPv2, ECMP, and URPF|
OSPF, IS-IS, and BGP
|IPv6 routing||Static route|
Manually configured tunnel
|IPv6 features||Neighbor Discovery (ND)|
IPv6 ping, IPv6 tracert, and IPv6 Telnet
6to4 tunnel, ISATAP tunnel, and manually configured tunnel
ACLs based on the source IPv6 address, destination IPv6 address, Layer 4 ports, or protocol type
MLD v1/v2 snooping
|Multicast||Static Layer 2 multicast MAC address|
MAC-based multicast forwarding
IGMP snooping and IGMP fast leave
Port-based multicast traffic statistics
PIM-SM, PIM-DM, and PIM-SSM
|QoS/ACL||Rate limiting on packets sent and received by an interface|
Port-based traffic policing and two-rate three-color CAR
Eight queues on each port
WRR, DRR, SP, WRR+SP, and DRR+SP queue scheduling algorithms
Re-marking of the 802.1p priority and DSCP priority
Packet filtering at Layer 2 to Layer 4, filtering out invalid frames based on the source MAC address, destination MAC address, source IP address, destination IP address, port number, protocol type, and VLAN ID
Rate limiting in each queue and traffic shaping on ports
|Reliability||STP, RSTP, and MSTP|
BPDU protection, root protection, and loop protection
RRPP ring topology and RRPP multi-instance
Smart Link tree topology and Smart Link multi-instance
BFD for OSPF, BFD for IS-IS, BFD for VRRP, and BFD for PIM
|Security||Stacking (using service ports as stack ports)|
MAC Forced Forwarding (MFF)
User privilege management and password protection
DoS attack defense, ARP attack defense, and ICMP attack defense
Binding of the IP address, MAC address, interface, and VLAN
Port isolation, port security, and sticky MAC Blackhole MAC address entries
Limit on the number of learned MAC addresses
802.1x authentication and limit on the number of users on an interface
AAA authentication, RADIUS authentication, HWTACACS authentication, and NAC
Hypertext Transfer Protocol Secure (HTTPS)
Blacklist and whitelist
|Management and maintenance||Virtual cable test|
Ethernet OAM (IEEE 802.3ah and 802.1ag)
Local port mirroring and remote switched port analyzer (RSPAN), allowing an observing port to forward packets
Remote configuration and maintenance by using Telnet
System logs and alarms of different levels
|Operating environment||Operating temperature: 0OC–45OC (long term); -5OC–50OC (short term)|
Relative humidity: 10%–90% (non-condensing)
Rated voltage range: 100 V to 240 V AC, 50/60 Hz
Maximum voltage range: 90 V to 264 V AC, 50/60 Hz
|Dimensions (W x D x H)||442 mm x 420 mm x 43.6 mm|
|Power consumption||165 W||237 W|
FSD Park II. 2.emelet