MyPower S6800-5/S6800-12 carrier class 10G core routing switch is a new generation multi-service high-end core switch. It adopts ASIC+NP design to provide high performance, stable, reliable and secure L2/L3 switching service for next generation networks.
It is supported by advanced 10G Ethernet. Based on line rate forwarding performance, it supports various high-density interface boards and meets the requirements for high density and throughput of core-layer devices. It provides 7 and 14 shelves for new generation high-end core backbone switching devices in service provider networks with services as core.
The two kinds of shelves provide Gbps-level backplane bandwidth and switching capability; Tbps-level backplane bandwidth; Gbps-level switching capability; and Tbps-level backplane bandwidth and switching capability.
MyPower S6800-5/S6800-12 supports passive backplane, control redundancy, power supply redundancy, various reliable telecom methods such as board card, fan, and power supply hot-swap, and STP/RSTP/MSTP/VRRP realizing link redundancy to ensure continuous services. It supports rich IPv6 technologies, including NP-based centralized hardware IPv6 forwarding mode and AISC-based distributed wire speed hardware IPv6 forwarding mode to meet the different IPv6 applications.
It adopts the software system of Maipu switch with excellent security function, and provides rich routing functions, L2/L3 MPLS functions, flow classification technologies and QoS technologies, multicast supporting technologies, and L2 switching technologies. It is suitable for large-scale, multi-service and complicated flow access networks.
As network core platform, MyPower S6800-5/S6800-12 works with all series switches of Maipu to provide solutions for service provider and the users from finance, government and education. It is widely applied in the data center, product network core, area network core, and IP MAN core.
MyPower S6800-5/12
Key Features
Advanced hardware system design to ensure Tbps or Gbps backplane bandwidth and switching capability:
Adopts ASIC+NP system design; provides passive copper backplane; realizes in-board and intro-board L2/L3 line rate distributed forwarding through crossbar switch matrix performs high-speed route search through powerful ASIC chip, improving forwarding performance and expanding capability of S6800-5/S6800-12 carrier class 10G core routing switch to reach Tbps/Gbps-level backplane bandwidth and switching capacity; provides advanced 10G Ethernet support; provides various high-density interface boards to meet the requirements for high density and throughput of core devices.
Stable core guarantee mechanism and key parts redundancy to ensure the telecom-level reliability of core devices
The key parts of the whole system provide excellent dual-redundancy or multi-redundancy design; supports power supply redundancy, management module redundancy, switch matrix redundancy, fan redundancy, and link redundancy. The power supply module, fan modules and all the service boards of the whole system support hot-swap to ensure that the services are not interrupted. Dual engines back up for each other to ensure that core switching platform has telecom-level reliability.
Supports rich IPv6/MPLS technology and NP-based distributed hardware IPv6 forwarding mode
Supports rich IPv6/MPLS technologies; provides NP-based distributed hardware IPv6
forwarding mode which can realize the processing of IPv6 packets and in-board and intro-board line rate forwarding of IPv6 packets to avoid centralized forwarding bottlenecks and delay problems, provide effective protection for large-scale commercial use of IPv6, and meet different IPv6 applications.
Excellent network security features to make core device provide anti-attack and anti-virus capability
Adopts excellent security design; supports SNMP V3 based on user security policy, MAC+IP+VLAN binding, and 802.1X authentication; supports anti network storm attack, anti DOS/DDOS attack, anti-scan pry attack, anti freaky packet attack, and anti network protocol packet attack to prevent attack and virus. It is fit for large-scale, multi-service, and complicated flow access network.
Adopts low-consumption design, prolongs the life of core switching platform, and reduces the running consumption of core devices
According to 10oC rule, the reliability and life of semiconductor chip are related with working temperature. The working temperature increases 10oC and the reliability of semiconductor reduces a half, while working temperature and power consumption are in proportional. The maximum power consumption of MyPower S6800-5/S6800-12 carrier class 10G core routing switch is lower than 1800W, which makes the temperature of the board card semiconductor chip low. Therefore, the lower power consumption design improves the use life and stable running of high-end devices and saves running energy consumption of devices.
Structure
MyPower S6800-5/S6800-12 carrier class 10G core routing switch adopts 19" standard chassis, which can be installed on standard rack. The optimized structure design has the features of anti shake, anti high temperature, anti electromagnetic radiation and easy to install/uninstall, which makes the device more stable and reliable.
Technical Specifications
|
Product |
SM6800-5 |
SM6800-12 |
|
Shelf configuration |
|
Structure |
Rack/modular distributed structure design |
|
Control slots |
2 |
2 |
|
Service slots |
5 |
12 |
|
Serial ports |
1 |
|
Outband Ethernet ports |
1 |
|
Hot swap |
The power supply, fan and board cards support hot-swap. |
|
Power supply redundancy |
Supports dual power supply redundancy |
|
Control redundancy |
Supports dual control card redundancy |
|
Performance |
|
Backplane bandwidth |
1.6Tbps |
3.2TGbps |
|
Switching capacity |
800Gbps |
1.6Tbps |
|
Packet forwarding rate |
595Mpps |
1190Mpps |
|
VLAN |
4094 (1-4094) |
|
Power-off auto recovery |
Support |
|
Grounding end |
Has |
|
Antistatic |
Antistatic |
|
Lightning strike |
Anti lightning strike |
|
Average non-fault time |
100,000 hours |
|
Standards & protocols |
|
L2 protocol |
Supports protocols such as IEEE 802.3, IEEE 802.3u, IEEE 802.3z, IEEE 802.3x and IEEE 802.1p. STP/MSTP/RSTP . IEEE802.1q. Number of VLANs: 4096.
Supports PVLAN, QinQ |
|
L 3 protocol |
Supports RIP 1/2, OSPF, BGP, IS-IS , VRRP and Super VLAN ;Supports IPv6 |
|
Upper layer application |
HTTP TELNET FTP/TFTP DHCP/DHCP Relay SNMP V1/V2/V3 RMON 1/2/3/9 SNTP |
|
Security mechanism |
SSH ACL flow filtering mechanism, ACL, SNMPv3 Radius, user-graded login authentication, accesstable host access control, data log, IP address/VLAN ID/MAC address/port combining binding, packet filtering, packet filter of application layer, MPLS L2/L3 |
|
IPV6 |
RIPng, OSPFv3, IS-ISv6, 6to4 tunnel |
|
Network management interface |
SHELL WEB TELNET network management software third-party software |
|
Service functions |
MPLS VPN:support VPLS,VPWS(Martini),MPLS L3 vpn: RFC2547bis
NAT:support up to 256K.support NAT log functions. support NAT log functins.
Multicast: support IGMP,PIM-DM/SM,DVMRP,MSDP,MBGP
Bandwidth control: implement the port/application/flow-based bandwidth control mode
The control granularity is 8K.
Authentication function: support 802.1x,RADIUS Client
DHCP:support DHCP Relay |
|
QOS feature |
Supports Diff-serv/QOS, flow monitoring CAR, SP, WRR, SP+WRR queue scheduling arithmetic, 802.1P/DSCP/TOS
Layer 2-based priority queues
Layer 3-based source/destination flow control
Layer 4-based source/destination flow control. |
|
IEEE |
IEEE 802.3 10BASE-T IEEE 802.3u 100BASE-TX/FX
IEEE 802.3z 1000BASE-SX IEEE 802.3ab 1000BASE-T
IEEE 802.3ad Link Aggregation IEEE 802.3x Flow Control
IEEE 802.1D STP IEEE 802.1Q Virtual LAN IEEE 802.1P Tag priority IEEE 802.1W RSTP 802.1X 802.3ae 10GBASE 802.1ad Q in Q |
|
reliability |
MTBF:>200000 hours
MTTR:<30 minutes
All boards support hot swappable. The master control and power supply support redundancy backup |
|
Physical index |
|
Dimension (WxDxH) |
445mm x 450mm x 440mm |
445mm x 450mm x 755mm |
|
Power supply |
|
Input voltage (AC) |
100-240V, 50-60Hz |
|
Power consumption (MAX) |
700W |
1800W |
|
Environment |
|
Temperature |
0-45oC |
|
Humidity |
10-90%. Non-condensing |
Order Information
|
Model |
Description |
|
MyPower S6800-5/S6800-12 |
|
7-slot shelf, 14-slot shelf and control, power supply |
|
SM6800-5-AC |
SM6800-5 AC chassis (including backplane and fan), 2 control slots, and 5 line card slots |
|
SM6800-5-DC48 |
SM6800-5 DC chassis (including backplane and fan), 2 control slots, and 5 line card slots |
|
SM6805-AC |
SM6800-5-AC AC power supply module (one is mandatory and the other is optional as 1+1 redundancy) |
|
SM6805-DC |
SM6800-5-DC48 DC power supply module (one is mandatory and the other is optional as 1+1 redundancy) |
|
SM6805-MPUAH |
SM6800-5 control and switching network module (first generation master control) (containing operation system software, including IP routing software, QoS service software and MPLS service software) |
|
SM6805-MPUBH |
SM6800-5 control and switching network module (second generation master control) (containing operation system software, including IP routing software, QoS service software and MPLS service software) |
|
SM6800-12-MF-AC |
SM6800-12-AC AC shelf (including backplane and fan), 2 control slots, 12 line card slots |
|
SM6800-12-MF-DC48 |
SM6800-12-DC48 DC shelf (including backplane and fan), 2 control slots, 12 line card slots |
|
SM6800-12-MPUH |
Control and switching network module (containing operation system software, including IP routing software, QoS service software and MPLS service software) |
|
SM6800-12-PWR-AC |
SM6800-12-AC uses AC power supply (two are mandatory and another is optional as 2+1 redundancy) |
|
SM6800-12-PWR-DC48 |
SM6800-12-DC48 uses DC power supply (one is mandatory and another is optional as 1+1 redundancy) |
|
Modules for SM6800-5 and SM6800-12 shelves |
|
SM6805-48GETH |
48-port Gigabit electric interface board |
|
SM6805-44FET4GETH |
44-port FE electric port+4-port GE electric port board (MPLS processor can be configured and MPLS function is supported) |
|
SM6805-8GEF4GEH |
8-port Gigabit optical interface (SFP optical module needs to be configured)+4-port Gigabit optical (SFP optical module needs to be configured)/electric interface board (MPLS processor can be configured and MPLS function is supported) |
|
SM6805-8GET4GEH |
8-port Gigabit electric port+4-port Gigabit optical (SFP optical module needs to be configured)/electric interface board (MPLS processor can be configured and MPLS function is supported) |
|
SM6805-24GETH |
24-port Gigabit RJ45 interface board |
|
SM6805-20GEF4GEH |
20-port Gigabit optical interface (SFP optical module needs to be configured)+4-port Gigabit optical (SFP optical module needs to be configured)/electric interface board |
|
SM6805-1XGEFH |
1-port 10G XENPAK interface board (XENPAK optical port module needs to be configured) (MPLS processor and MPLS function is supported) |
|
SM6805- MPLS-EXT |
MPLS processor pinch board upgrade parts (for the internal slot of board card) |
|
SFP/XFP interface module |
|
SFP-M1-L24P8 |
1.25G multi-mode optical module (550m transmission distance, LC interface, PECL level, 850nm wavelength) |
|
SFP-S2-L24P3 |
1.25G single-mode optical module (20km transmission distance, LC interface, PECL level, 1310nm wavelength) |
|
XENPAK-M1-S192P8 |
10G XENPAK interface (multi-mode 300m/850nm, SC interface) |
|
XENPAK-S1-S192P3 |
10G XENPAK interface (single-mode 10km/1310nm, SC interface) |
|
XENPAK-S4-S192P5 |
10G XENPAK interface (single-mode 40km/1550nm, SC interface) |
MyPower S6800-5/12
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