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Huawei CloudEngine 6857-48S6CQ-EI switch 48x SFP+ 6x QSFP28 (40Gb/s) AC power supply
Produttore: Huawei
Codice prodotto: HUA-CE6857-48S6CQEAC
Numero di catalogo: 7677
Garanzia (mesi):

Product on demand. Estimated delivery time: 2 weeks

Prezzo
123 529,41
151 941,17IVA inclusa
Quantità
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Descrizione

Huawei CloudEngine 6850 series switches have advanced hardware architecture with 40GE/100GE uplink ports and highdensity 10GE access ports.

Product Overview

Huawei CloudEngine 6850 series switches are next-generation 10G Ethernet switches designed for data centers and high-end campus networks, providing high-performance, high-density 10GE ports, and low latency. The CE6850 series uses an advanced hardware architecture with 40GE uplink ports and high density 10GE access ports.

Using the Huawei VRP8 software platform, CE6850 series provide extensive data center service features and high stacking capability. In addition, the airflow direction (front-to-back or back-to-front) can be changed.

CE6850 series can work with CloudEngine 16800 or CloudEngine 12800 switches to build an elastic, virtualized, high-quality fabric that meets the requirements of cloud-computing data centers.

CE6850 series provide high-density 10GE access to help enterprises and carriers build a scalable data center network platform in the cloud computing era. They can also be used as aggregation or core switches for enterprise campus networks.

CloudEngine 6857-48S6CQ-EI switches provide 48 x 10GE SFP+ ports, 6 x 100GE QSFP28 ports or 6 x 40GE QSFP+ ports.

Product Characteristics

High-Density 10GE Access

  • CloudEngine 6850 series provide 48 x 10GE ports, high-density 10GE ports among 1 U ToR switches, allowing for highdensity 10GE server access.
  • CloudEngie 6850 series have a maximum of six 100GE QSFP 28 or 40GE QSFP+ ports. Each QSFP28 or QSFP+ port can be used as four 10GE SFP+ ports, providing flexibility in networking. The uplink QSFP28 or 40GE QSFP+ ports can be connected to CloudEngine 16800 or CloudEngine 12800 switches to build a non-blocking network platform.

Inter-device Link Aggregation, High Efficiency and Reliability

  • CloudEngine 6850 series support multichassis link aggregation group (M-LAG), which enables links of multiple switches to aggregate into one to implement device-level link backup.
  • Switches in an M-LAG system all work in active state to share traffic and back up each other, enhancing system reliability.
  • Switches in an M-LAG system can be upgraded independently. During the upgrade, other switches in the system take over traffic forwarding to ensure uninterrupted services.
  • M-LAG supports dual-homing to Ethernet, VXLAN, and IP networks, allowing for flexible networking.
  • With comprehensive inter-device link aggregation technology, the device networking coupling relationship evolves from stacking at the control plane to the use of M-LAG and then finally to coupling-free M-LAG Lite. This achieves active-active server access and zero interruption of services when upgrading switches.

Virtualized Hardware Gateway, Enabling Quick Deployment

  • CloudEngine 6850 series can work with the industry's mainstream virtualization platforms and acts a hardware gateway on an overlay network (VXLAN). The virtualization function protects investments by ensuring services can be deployed quickly without requiring network changes.
  • CloudEngine 6850 series can connect to a cloud platform through open APIs, facilitating the unified management of virtual and physical networks.
  • The hardware gateway deployment enables fast service deployment without changing the customer network, providing investment protection.
  • CloudEngine 6850 series support Border Gateway Protocol - Ethernet VPN (BGP-EVPN), which can run as the VXLAN control plane to simplify VXLAN configuration within and between data centers.

Standard Interfaces, Enabling Openness and Interoperability

  • CloudEngine 6850 series support NETCONF and can work with Huawei iMaster NCE-Fabric.
  • CloudEngine 6850 series support Ansible-based automatic configuration and open-source module release, expanding network functions and simplifying device management and maintenance.
  • CloudEngine 6850 series can be integrated into mainstream SDN and cloud computing platforms flexibly and quickly.

ZTP, Implementing Automatic O&M

  • CloudEngine 6850 series support Zero Touch Provisioning (ZTP). ZTP enables the CloudEngine 6850 series to automatically obtain and load version files from a USB flash drive or file server, freeing network engineers from onsite configuration and deployment. ZTP reduces labor costs and improves device deployment efficiency.
  • ZTP provides built-in scripts through open APIs. Data center personnel can use a programming language they are familiar with, such as Python, to centrally configure network devices.
  • ZTP decouples the configuration time of new devices from the device quantity and area distribution, which improves service provisioning efficiency.

FabricInsight-based Intelligent O&M

  • The CloudEngine 6850 provides telemetry technology to collect device data in real time and send the data to Huawei data center network analyzer iMaster NCE-FabricInsight. The iMaster NCE-FabricInsight analyzes network data based on the intelligent fault identification algorithm, accurately displays the real-time network status, effectively demarcates and locates faults in a timely manner, and identifies network problems that affect user experience, accurately guaranteeing user experience.

iMaster NCE-based Simplified Network Deployment

  • CloudEngine 6850 series switches can interconnect with iMaster NCE-Fabric through standard protocols such as NetConf and SNMP to implement network automatic management and control, providing more efficient and intelligent operation methods, simplifying network management, and reducing the OPEX.

Flexible Airflow Design, Improving Energy Efficiency
Flexible front-to-back/back-to-front airflow design

  • CloudEngine 6850 series use a strict front-to-back/back-to-front airflow design that isolates cold air channels from hot air channels. This design improves heat dissipation efficiency and meets design requirements of data center equipment rooms.
  • Air can flow from front to back or back to front depending on the fans and power modules that are used.
  • Redundant power modules and fans can be configured to ensure service continuity.

Innovative energy-saving technologies

  • CloudEngine 6850 series have innovative energy-saving chips and can measure system power consumption in real time. The fan speed can be adjusted dynamically based on system consumption. These energy-saving technologies reduce O&M costs and contribute to a greener data center.

Clear Indicators, Simplifying Maintenance

Clear indicators

  • Port indicators clearly show the port status and port rate. The 40GE/100GE port indicators can show the states of all ports derived from the 40GE/100GE ports. State and stack indicators on both the front and rear panels enable users to maintain the switch from either side.
  • CloudEngine 6850 series support remote positioning. Remote positioning indicators enable users to easily identify the switches they want to maintain in an equipment room full of devices.

Simple maintenance

  • The management port, fans, and power modules are on the front panel, which facilitates device maintenance.
  • Data ports are located at the rear, facing servers. This simplifies cabling.

Specification

CE6857-48S6SQ-EI
Dimensions (W × D ×H, mm) 442*420*43.6
Weight (excluding optical
transceivers, power
modules, and fan
assemblies/ including AC
power modules and fan
assemblies, excluding
optical transceivers, kg)

5.3/7.6

Switching capacity (Tbps) 2.16
Forwarding performance (Mpps) 1000
10GE SFP+ ports 48
40GE QSFP28 ports 6
Out-of-band management port 1x gigabitowy port Ethernet
Console port 1x RJ45
USB port 1
Main frequency (GHZ) 1,4 GHz
Number of cores 4
RAM 4 GB
NOR Flash 64 MB
NAND Flash 2 GB
System buffer 32 MB
Power modules 600 W AC
Rated voltage range (V) 100 - 240 V AC
Maximum voltage range (V) 90 - 290 V AC
Maximum input current 8 A
Typical power 152 W
Maximum power 287 W
Frequency 50 / 60 Hz
Heat dissipation mode Air cooling
Number of fan trays 4
Heat dissipation airflow Front-to-back or back-to-front airflow
Maximum heat consumption (BTU/hr) 976
MTBF (year) 45,3
MTTR (hour) 1,68
Availability 0.99999576002
Environment specifications
Long-term operating temperature 0°C to 40°C
Storage temperature -40°C to +70°C
Relative humidity 5% to 95%
Sound power at 27°C

Frontto-back airflow: < 63 dBA
Backto-front airflow: < 63 dBA

Sound power at 40°C

Frontto-back airflow: < 84 dBA
Backto-front airflow: < 82 dBA

Functions and Features

Device virtualization

iStack

M-LAG

Network virtualization

VXLAN routing and bridging

BGP-EVPN
QinQ access VXLAN

Data center interconnect VXLAN mapping, implementing interconnection between multiple DCI networks at Layer 2
SDN iMaster NCE-Fabric
Network convergence DCBX, PFC, ETS
RDMA and RoCE (RoCE v1 and RoCE v2)
Programmability OPS
Ansible-based automatic configuration and open-source module release
Traffic analysis NetStream
sFlow
VLAN Adding access, trunk, and hybrid interfaces to VLANs
Default VLAN
QinQ
MUX VLAN
GVRP
MAC address table Dynamic learning and aging of MAC address entries
Static, dynamic, and blackhole MAC address entries
Packet filtering based on source MAC addresses
MAC address limiting based on ports and VLANs
IP routing IPv4 routing protocols, such as RIP, OSPF, IS-IS, and BGP
IPv6 routing protocols, such as RIPng, OSPFv3, IS-ISv6, and BGP4+
IPv6 IPv6 Neighbor Discovery (ND)
Path MTU Discovery (PMTU)
TCP6, IPv6 ping, IPv6 tracert, IPv6 socket, UDP6, and Raw IP6
Multicast Multicast routing protocols such as IGMP, PIM-SM, PIM-DM, MSDP, and MBGP
IGMP snooping
IGMP proxy
Fast leaving of multicast member interfaces
Multicast traffic suppression
Multicast VLAN
Reliability

Link Aggregation Control Protocol (LACP)

STP, RSTP, VBST, and MSTP
BPDU protection, root protection, and loop protection
Smart Link and multi-instance
Device Link Detection Protocol (DLDP)
ERPS (G.8032)
Hardware-based Bidirectional Forwarding Detection (BFD)
VRRP, VRRP load balancing, and BFD for VRRP
BFD for BGP/IS-IS/OSPF/Static route
BFD for VXLAN

QoS Traffic classification based on Layer 2, Layer 3, Layer 4, and priority information
ACL, CAR, re-marking, and scheduling
Queue scheduling algorithms, including PQ, WRR, DRR, PQ+WRR, and PQ+DRR
Congestion avoidance mechanisms, including WRED and tail drop
Traffic shaping
O&M Network-wide path detection
Telemetry
Statistics on the buffer microburst status
VXLAN OAM: VXLAN ping and VXLAN tracert
Configuration and
maintenance
Console, Telnet, and SSH terminals
Network management protocols, such as SNMPv1/v2/v3
File upload and download through FTP and TFTP
BootROM upgrade and remote upgrade
Hot patches
User operation logs
Zero Touch Provisioning (ZTP)
Security and management Command line authority control based on user levels, preventing unauthorized users from using
commands
Defense against DoS address attacks, ARP storms, and ICMP attacks
Port isolation, port security, and sticky MAC
Binding of the IP address, MAC address, port number, and VLAN ID
Authentication methods, including AAA, RADIUS, and HWTACACS
Remote Network Monitoring (RMON)
Performance and Scalability
Maximum number of MAC address
entries
288K
Maximum number of Forwarding
routes (FIB IPv4/ IPv6)
380K / 256K
ARP table size 168K
Maximum number of VRF 4096
IPv6 ND (Neighbor Discovery) table
size
64K
Maximum Number of multicast routes (Multicast FIB IPv4/IPv6) 8K / 2K
Maximum VRRP groups 1K
Maximum number of ECMP paths 128
Maximum Number of broadcast
domains
16K
Maximum number of BDIF 8K
Maximum number of tunnel endpoints
(VTEP)
2K
Maximum number of lag group 1024 / 512 / 256 / 128 / 64
Maximum number of links in a lag
group
2 / 4 / 8 /16 / 32
Maximum number of MSTP instance 64
VBST (Maximum number of VLANs
where VBST can be configured)
500