2024年10月26日发(作者：无鸿云)

Huawei S9300 Switch

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Huawei S9300 Switch Product

Product Overview

Huawei S9300 series (S9300 for short) terabit routing switches are next-generation high-end smart switches

tailored for multiservice networks. The S9300 uses Huawei's intelligent multilayer switching concept to provide

high-performance L2/L3 switching services as well as rich network applications such as High-Definition (HD)

video, elastic cloud computing, hardware IPv6, unified security, and H-QoS. Secure, reliable, and scalable, and

providing converged, end-to-end routing and switching functions, the S9300 switches are widely used in Wide

Area Networks (WANs), Metropolitan Area Networks (MANs), and data centers to help carriers build application-

centric networks.

The S9300 is available in three models: S9303, S9306, and S9312. All S9300 models use interchangeable

modules and components for inexpensive switching capacity and port expansion. In addition, S9300 models use

innovative energy saving technologies that greatly reduce energy consumption and noise without compromising

performance or stability.

S9303 S9306 S9312

01

Product Features

Agile Switch, Enabling Networks to Be More Agile for

Services

• The high-speed ENP is tailored for Ethernet networks.

The ENP's flexible packet processing and traffic control

capabilities can meet current and future service

requirements and help build a highly scalable network.

The ENP has a fully programmable architecture, in which

customers can define their own forwarding models,

forwarding behaviors, and lookup algorithms. Microcode

programmability enables new services to be provisioned

within six months, without the need of replacing the

hardware. In contrast, with traditional ASIC chips, new

services cannot be provisioned until new hardware is

developed to support the services, which may take 1

to 3 years, because ASIC chips use a fixed forwarding

architecture and follow a fixed forwarding process.

• By using an ENP board, the S9300 supports the unified

user management function to authenticate both wired

and wireless users, ensuring a consistent user experience

regardless of whether they use wired or wireless access

devices to connect to the network. The unified user

management function supports various authentication

methods, including 802.1x, MAC, and Portal

authentications, and is capable of managing users based

on user groups, domains, and time ranges. This function

visualizes user and service management and enables the

transformation from device-centric management to user-

centric management.

• The ENP board supports the Packet Conservation

Algorithm for Internet (iPCA) function, which changes

the traditional method of using simulated traffic for fault

location. iPCA technology can monitor network quality

for any service flow at any network node, at any time,

and without extra costs. It can detect temporary service

interruptions in a very short time and precisely identify

faulty ports. This cutting-edge fault detection technology

turns "extensive management" to "fine granular

management."

• Huawei's IEEE 1588v2 and Synchronous Ethernet (SyncE)

solutions enable high-precision time synchronization

between network devices. Compared with the Global

Positioning System (GPS) time synchronization solution,

Huawei's solutions enhance security while reducing costs.

Innovative CSS Technology

• S9300 switches can set up a clustering switch system (CSS)

through cluster cards or service ports. The CSS provides

industry-leading 320 Gbps inter-chassis bandwidth due

to Huawei's novel approach of using the switching fabric

clustering technology in CSS. Member switches can be

connected through the service ports on LPUs. These

service ports can be configured as stack member ports

and added to a logical stack port to enable connection

through SFP+ optical modules and fibers, or direct

connection through SFP+ stack cables. Virtualization

technology improves link use efficiency and prevents

single-point failures through inter-chassis link aggregation.

• The S9300 uses route hot backup technology to back

up and uninterruptedly forward all data of the control

and data planes at Layer 3. This technology significantly

improves reliability and performance of the S9300. The

inter-chassis links in a CSS can be bundled to improve link

use efficiency and eliminate single-point failures.

• The S9300 can use common service ports as cluster ports,

and member switches can be connected through optical

fibers. This increases the permitted distance between

switches in the CSS.

• All member switches in a CSS are managed through a

single IP address, which simplifies network device and

topology management, improves network operation

efficiency, and reduces maintenance costs.

Carrier-Class Reliability

• The S9300's key components, such as MPUs, power

supplies, and fans trays, use a redundant design, and all

modules are hot swappable to ensure stable network

running.

• The S9300 supports 3.3 ms hardware-based BFD for static

routes and routing protocols such as RIP, OSPF, BGP, IS-IS,

VRRP, PIM, and MPLS. Hardware-based BFD significantly

improves network reliability.

• The S9300 supports High-speed Self Recovery (HSR)

technology. Using Huawei's ENP cards, the S9300 is the

industry's only switch that implements end-to-end IP

MPLS bearer network protection switchover within 50 ms,

improving network reliability.

• The S9300 supports hardware-based Ethernet OAM

in compliance with IEEE 802.3ah, 802.1ag, and ITU-Y.

1731. Hardware-based Ethernet OAM can collect precise

network parameters, such as transmission latency and

jitter, to help customers monitor network operating status

in real time and to realize fast fault detection, location,

and failover.

• The S9300 supports Graceful Restart (GR) technology to

implement nonstop forwarding (NSF) and ensure reliable

and high-speed operation of the entire network.

02

03

Powerful Service Processing Capabilities

• The S9300 provides high-density 10GE ports and provide 4 x

100GE line card, Each S9312 chassis can provide a maximum

of 576 x 10GE ports and 48 x 100GE ports, meeting the

requirements of bandwidth-consuming applications, such as

multimedia conferencing and data access.

• Based on a multi-service routing and switching platform,

the S9300 provides wireless access, voice, video, and data

services for network access, aggregation, and core layers,

helping customers build a highly reliable, low-latency, and

multi-service network.

• The S9300 supports distributed MPLS L2/L3VPN functions

including MPLS, virtual private LAN service (VPLS),

hierarchical VPLS (HVPLS), and virtual leased line (VLL), to

provide secure access for VPN users.

• The S9300 supports comprehensive Layer 2 and Layer

3 multicast protocols, including Protocol Independent

Multicast Sparse Mode (PIM SM), PIM Dense Mode (DM),

PIM Source-Specific Multicast (SSM), Multicast Listener

Discovery (MLD), and Internet Group Management

Protocol (IGMP) snooping, to ensure high-quality HD video

surveillance and video conferencing services.

• The Service Chain feature virtualizes the value-added

service processing capabilities, such as firewall, so that

campus networks can utilize these capabilities in an

undifferentiated manner. That is, these capabilities can be

used without location constraint.

• The software platform where the S9300 runs supports

various routing protocols (including IPv6) to meet carriers'

network requirements and allows carriers to smoothly

upgrade their networks to IPv6.

Various Network Traffic Analysis Functions

• The S9300 supports NetStream, including V5/V8/V9

versions. The NetStream features involve aggregation

traffic template, real-time traffic sampling, dynamic

report generation, traffic attribute analysis, and traffic

exception alarms. The S9300 sends traffic statistics logs to

master and backup servers simultaneously to avoid data

loss. NetStream helps monitor the operating status and

traffic model on the entire network. It also provides fault

pre-detection, effective fault rectification, fast problem

handling, and security monitoring capabilities to help

customers optimize network structure and adjust service

deployment.

Comprehensive Security Measures

• The S9300 supports MAC security (MACSec) that enables

hop-by-hop secure data transmission. The S9300 can be

applied to scenarios that pose high requirements on data

confidentiality, such as government and finance sectors.

• NGFW is a next-generation firewall card installed on an

S9300. In addition to the traditional defense functions,

such as identity authentication and Anti-DDoS, the NGFW

supports IPS, anti-spam, web security, and application

control functions.

• The S9300 provides comprehensive network admission

control (NAC) solutions, involving MAC, 802.1x, and Portal

authentications as well as authentication triggered by

DHCP snooping. These authentication methods ensure the

security of various access users, such as dumb terminals,

mobile users, and users allocated dynamic IP addresses.

Comprehensive IPv6 Solution

• The S9300 software and hardware platforms support IPv6.

The Ministry of Industry and Information Technology (MIIT)

has certified the S9300 as IPv6 network-access compliant

and has awarded IPv6 Ready Logo Phase 2 certification.

• The S9300 supports IPv6 routing protocols such as RIPng,

OSPFv3, IS-ISv6, as well as IPv6 static routes, and supports

BGP4+, MLD v1/v2, MLD snooping, PIM-SM/DMv6, and

PIM-SSMv6.

• The S9300 supports various IPv4-to-IPv6 technologies to

ensure seamless network migration. The technologies

include IPv6 manual tunnel, 6to4 tunnel, Intra-site

Automatic Tunnel Addressing Protocol (ISATAP) tunnel,

Generic Routing Encapsulation (GRE) tunnel, and IPv4-

compatible automatic tunnel.

Innovative Energy Saving Design

• The S9300 uses a rotating ventilation channel to improve

heat dissipation efficiency and a variable-current chip to

dynamically adjust power according to traffic volume.

These technologies reduce power consumption of the

entire chassis by 11%. The S9300 supports port sleeping.

Idle ports enter the sleeping state to reduce power

consumption.

• The S9300 supports intelligent fan-speed adjustment,

in which fans are grouped into multiple zones and fan

speed in each zone is adjusted individually based on

service loads. This technology lowers power consumption,

reduces noise, and extends the service life of fans.

• The S9300 supports Energy Efficient Ethernet (EEE) in

compliance with IEEE 802.3az. Transceivers on line cards

can quickly transition to the lower power idle state to

reduce power consumption when no traffic is being

transmitted.

VXLAN

• VXLAN is used to construct a Unified Virtual Fabric (UVF). As such, multiple service networks or tenant networks can be

deployed on the same physical network, and service and tenant networks are isolated from each other. This capability truly

achieves 'one network for multiple purposes'. The resulting benefits include enabling data transmission of different services

or customers, reducing the network construction costs, and improving network resource utilization. The S9300 series

switches are VXLAN-capable and allow centralized and distributed VXLAN gateway deployment modes. These switches also

support the BGP EVPN protocol for dynamically establishing VXLAN tunnels and can be configured using NETCONF/YANG.

OPS

• Open Programmability System (OPS) is an open programmable system based on the Python language. IT administrators

can program the O&M functions of a switch through Python scripts to quickly innovate functions and implement intelligent

O&M.

Big Data Security Collaboration

• Agile switches use NetStream to collect campus network data and then report such data to the Huawei Cybersecurity

Intelligence System (CIS). The purposes of doing so are to detect network security threats, display the security posture across

the entire network, and enable automated or manual response to security threats. The CIS delivers the security policies to the

Agile Controller. The Agile Controller then delivers such policies to agile switches that will handle security events accordingly.

All these ensure campus network security.

Intelligent Diagnosis

• Open Intelligent Diagnosis System (OIDS) integrates the device health monitoring and fault diagnosis functions – that are

typically deployed on a Network Management System (NMS) – into the switch software to implement intelligent diagnosis

on a single switch. After OIDS is deployed on a switch, the switch periodically collects and records the running information

and automatically determines whether a fault occurs. If a fault occurs, the switch automatically locates the fault or helps

locate the fault. All these merits increase fault locating efficiency of O&M staff while improving device maintainability.

04

05

Product Specifications

ItemS9303S9306 / S9306 PoES9312 / S9312 PoE

Switching capacity1.92Tbps3.84Tbps3.84Tbps

Packet forwarding rate1440Mpps2880Mpps2880Mpps

Service slot quantity3612

Unified user management

User management

802.1x, MAC, and Portal authentications

Charging based on traffic volume and online duration

User authorization based on user groups, domains, and time ranges

Access, trunk, and hybrid

Default VLAN

VLAN

VLAN switching

QinQ and selective QinQ

MAC-based VLAN assignment

VXLAN centralized gateway and distributed gateway

VXLANBGP EVPN

Configured through NETCONF protocol

MAC address learning and aging

MAC address

Static, dynamic, and blackhole MAC address entries

Packet filtering based on source MAC addresses

MAC address limiting based on ports and VLANs

STP (IEEE 802.1d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s)

STP/ERPS

BPDU protection, root protection, and loop protection

BPDU tunnel

G.8032 Ethernet Ring Protection Switching (ERPS)

IP routing

IPv4 dynamic routing protocols, such as RIP, OSPF, IS-IS, and BGP

IPv6 routing protocols, such as RIPng, OSPFv3, IS-ISv6, and BGP4+

IGMPv1/v2/v3 and IGMP v1/v2/v3 snooping

PIM-DM, PIM-SM, and PIM-SSM

MSDP and MBGP

Prompt leave

Multicast

Multicast traffic control

Multicast querier

Multicast protocol packet suppression

Multicast CAC

Multicast ACL

Basic MPLS functions

MPLS

MPLS OAM

MPLS TE

MPLS VPN/VLL/VPLS

Time synchronization

IEEE 1588v2

SyncE

ItemS9303S9306 / S9306 PoES9312 / S9312 PoE

LACP and inter-chassis E-Trunk

VRRP and BFD for VRRP

BFD for BGP/IS-IS/OSPF/static route

NSF and GR for BGP/IS-IS/OSPF/LDP

ReliabilityTE FRR and IP FRR

Ethernet OAM in compliance with IEEE 802.3ah and 802.1ag (hardware-level)

HSR

ITU-Y.1731

DLDP

Traffic classification based on Layer 2 headers, Layer 3 protocols, Layer 4 protocols, and 802.1p fields

ACL, CAR, and actions including Remark and Schedule

QoS

Queuing algorithms, such as SP, WRR, DRR, SP+WRR, and SP+DRR

Congestion avoidance mechanisms, including WRED and tail drop

H-QOS

Traffic shaping

iPCA, monitor network quality for any service flow at any network node, at any time, and without

extra costs

Terminal access services such as console port login, Telnet, and SSH

Network management protocols, such as SNMPv1/v2/v3

Configuration and

maintenance

File uploading and downloading through FTP and TFTP

BootROM upgrade and remote in-service upgrade

Hot patches

User operation logs

Open Programmability System (OPS)

802.1x authentication and Portal authentication

MACSec

NAC

RADIUS and HWTACACS authentication for login users

Security and user

management

Command line authority control based on user levels (unauthorized users cannot use commands)

Defense against DoS attacks, TCP SYN Flood attacks, UDP Flood attacks, broadcast storms, and traffic

flooding attacks

Ping and traceroute

RMON

Secure Boot(need to use MPU that supports Secure Boot)

Firewall

Network Address Translation (NAT)

Security protection IPSec, SSL VPN

Intrusion Protection System (IPS)

Load balancing Analog Digital Conversion (ADC)

Energy savingEnergy Efficient Ethernet (802.3az)

Dimensions (W x D x H)442 mm x 489 mm x 175 mm442 mm x 489mm x 442 mm442 mm x 489 mm x 664 mm

Weight (empty chassis)10 Kg15Kg25Kg

Operating temperature:

Operating

0 m to 1800 m: The long-term operating temperature is 0

o

environment

temperature is 0

o

C to 45

o

C and the short-term operating

1800 m to 4000 m: The operating temperature reduces by 1

C to 55

o

C.

o

Storage temperature: -40

o

C to +70

o

C every time the altitude increases by 220 m.

Relative humidity: 5% to 95% (noncondensing)

C

Operating voltageDC: 40 V to -72 V AC: 90 V to 290 V

Total power capacity2200 W4400 W4400 W

06

07

Product List

Basic Configuration

LE0BN66EDCN66E DC Assembly Rack (Four 40A outputs, maximum 1600W per output, 600X600X2200mm)

LE0BN66EACN66E AC Assembly Rack (Eight 10A Outputs, maximum 1600W per output, 600X600X2200mm)

LE2BN66EA000N66E AC Assembly Rack (Four 16A Outputs, maximum 2500W per output, 600X600X2200mm)

LE0KS9303S9303 Assembly Chassis

LE0KS9306S9306 Assembly Chassis

LE0KS9312S9312 Assembly Chassis

LE0BS9306P1S9306 POE Assembly Chassis

LE0BS9312P1S9312 POE Assembly Chassis

LE0M00FBXB00Wide Voltage 68 Fan Box

Monitoring Board

LE0DCMUA0000Centralized Monitoring Board

Main Control Unit

LE0MMCUAS9303 Main Control Unit A

LE0DMCUAS9303 Main Control Unit A(Optional Clock)

LE0MSRUAS9306/S9312 Main Control Unit A

LE0DSRUAS9306/S9312 Main Control Unit A(Optional Clock)

LE0D00SRUB00S9306/S9312 Main Control Unit B(Optional Clock)

LE1D2SRUE000S9306/S9312,Main Control Unit E

LE1D2SRUH000S9306/S9312,Main Control Unit H

LE1D2SRUH002S9306/S9312,Main Control Unit H(Support Secure Boot)

SRU Service Card

LE0MFSUAEnhanced Flexible Service Unit

LE0D0VSTSA00Cluster Switching System Service Unit

LE1D2VS040004-Port 10G Cluster Switching System Service Unit (SFP+)

LE0D00CKMA00Clock Pinch Board-1588

Agile Card

LE2D2L16QX2H16-Port 40GE QSFP+ Interface Card(X2H,QSFP+)

LE1D2L08QX2E8-Port 40GE QSFP+ Interface Card(X2E,QSFP+)

LE1D2X32SX2S32-Port 10GE SFP+ Interface Card(X2S,SFP+)

LE1D2X32SX2E32-Port 10GE SFP+ Interface Card(X2E,SFP+)

LE1D2S24SX2S24-Port 10GE SFP+ Interface and 8-Port GE SFP Interface Card(X2S,SFP+)

LE1D2S24SX2E24-Port 10GE SFP+ Interface and 8-Port GE SFP Interface Card(X2E,SFP+)

LE1D2S16SX2S16-Port 10GE SFP+ Interface and 16-Port GE SFP Interface Card(X2S,SFP+)

LE1D2S16SX2E16-Port 10GE SFP+ Interface and 16-Port GE SFP Interface Card(X2E,SFP+)

LE2D2C08HX2H8-Port 100GE QSFP28 Interface Card(X2H,QSFP28)

LE1D2C04HX2S4-Port 100GE QSFP28 Interface Card(X2S,QSFP28)

LE1D2C04HX2E4-Port 100GE QSFP28 Interface Card(X2E,QSFP28)

LE1D2H02QX2S2-Port 100GE QSFP28 Interface and 2-Port 40GE QSFP+ Interface Card(X2S,QSFP28)

LE1D2H02QX2E2-Port 100GE QSFP28 Interface and 2-Port 40GE QSFP+ Interface Card(X2E,QSFP28)

LE1D2X48SX2S48-Port 10GE SFP+ Interface Card(X2S,SFP+)

LE1D2G48TX1E48-Port 10/100/1000BASE-T Interface Card(X1E,RJ45)

LE1D2G48SX1E48-Port 100/1000BASE-X Interface Card(X1E,SFP)

LE1D2S04SX1E

4-Port 10GBASE-X and 24-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface

Card(X1E,RJ45/SFP/SFP+)

LE1D2S08SX1E

8-Port 10GBASE-X and 8-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface

Card(X1E,RJ45/SFP/SFP+)

10/100/1000BASE-T Interface Card

LE0DT24XEA0024-Port 10/100/1000BASE-T and 2-Port 10GBASE-X Interface Card (EA,RJ45/XFP)

LE0DG24TFA0024-Port 10/100/1000BASE-T Interface Card(FA,RJ45)

LE0DG48CEAT036-Port 10/100/1000BASE-T and 12-Port 100/1000BASE-X Interface Card(EA,RJ45/SFP)

LE0MG48TA48-Port 10/100/1000BASE-T Interface Card(EA,RJ45)

LE0DG48TFA0048-Port 10/100/1000BASE-T Interface Card(FA,RJ45)

LE0MG48TC48-Port 100/1000BASE-T Interface Card(EC,RJ45)

LE0MG48TD48-Port 100/1000BASE-T Interface Card(ED,RJ45)

100/1000BASE-X Interface Card

LE0MG24SA24-Port 100/1000BASE-X Interface Card(SA,SFP)

LE0MG24SC24-Port 100/1000BASE-X Interface Card(EC,SFP)

LE0MG24SD24-Port 100/1000BASE-X Interface Card(ED,SFP)

LE0MG24CA24-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface Card(SA,SFP/RJ45)

LE0DS24XEA0024-Port 100/1000BASE-X and 2-Port 10GBASE-X Interface Card(EA,SFP/XFP)

LE0D0S24XC0024-Port 100/1000BASE-X and 2-Port 10GBASE-X Interface Card(EC,SFP/XFP)

LE0MG48SA48-Port 100/1000BASE-X Interface Card(EA,SFP)

LE0DG48SFA0048-Port 100/1000BASE-X Interface Card(FA,SFP)

08

09

LE0MG48SC48-Port 100/1000BASE-X Interface Card(EC,SFP)

LE0MG48SD48-Port 100/1000BASE-X Interface Card(ED,SFP)

10GBASE-X Interface Card

LE0MX2UXA2-Port 10GBASE-X Interface Card(EA,XFP)

LE0MX2UXC2-Port 10GBASE X Interface Card(EC,XFP)

LE0MX4UXA4-Port 10GBASE-X Interface Card(EA,XFP)

LE0MX4UXC4-Port 10GBASE-X Interface Card(EC,XFP)

LE0DX4UXED004-Port 10GBASE-X Interface Card(ED,XFP)

LE2D2X08SED48-Port 10GBASE-X Interface Card(ED,SFP+)

LE0DX12XSA0012-Port 10GBASE-X Interface Card(SA,SFP+)

LE1D2X16SSC216-Port 10GBASE-X Interface Card(SC,SFP+)

LE1D2X32SSC032-Port 10GBASE-X Interface Card(SC,SFP+)

100GE BASE-X Interface Card

LE1D2C02FEE02-Port 100GBASE-X Interface Card(EE,CFP)

POE Interface Card

LE0DG48VEA0048-Port 10/100/1000BASE-T POE Interface Card(EA,RJ45,POE)

Service Processing Unit

LE1D2FW00S01NGFW Module B,with HW General Security Platform Software

Optical Transceiver

FE-SFP Optical Transceiver

S-SFP-FE-LH40-SM1310Optical Transceiver,eSFP,FE,Single-mode Module(1310nm,40km,LC)

S-SFP-FE-LH80-SM1550Optical Transceiver,eSFP,FE,Single-mode Module(1550nm,80km,LC)

SFP-FE-SX-MM1310Optical Transceiver,SFP,100M/155M,Multi-mode Module(1310nm,2km,LC)

eSFP-FE-LX-SM1310Optical Transceiver,eSFP,100M/155M,Single-mode Module(1310nm,15km,LC)

GE-SFP Module

SFP-1000BaseTElectrical transceiver-SFP-GE-Electrical Interface Module (100m,RJ45)

eSFP-GE-SX-MM850Optical Transceiver-eSFP-GE-Multi-mode Module (850nm,0.5km,LC)

SFP-GE-LX-SM1310Optical Transceiver-SFP-GE-Single-mode Module (1310nm,10km,LC)

S-SFP-GE-LH40-SM1310Optical Transceiver,eSFP,GE,Single-mode Module(1310nm,40km,LC)

S-SFP-GE-LH40-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,40km,LC)

S-SFP-GE-LH80-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,80km,LC)

eSFP-GE-ZX100-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,100km,LC)

10GE-XFP Optical Transceiver

XFP-SX-MM850Optical Transceiver-XFP-10G-Multi-mode Module (850nm,0.3km,LC)

XFP-STM64-LX-SM1310Optical Transceiver-XFP-10G-Single-mode Module (1310nm,10km,LC)

XFP-STM64-LH40-

SM1550

Optical Transceiver-XFP-10G-Single-mode Module (1550nm,40km,LC)

XFP-STM64-SM1550-

80km

Optical Transceiver-XFP-10G-Single-mode Module (1550nm,80km,LC)

10GE-SFP+ Optical Transceiver

OMXD30000Optical Transceiver-SFP+-10G-Multi-mode Module (850nm,0.3km,LC)

SFP-10G-iLROptical Transceiver,SFP+,9.8G,Single-mode Module(1310nm,1.4km,LC)

OSX010000Optical Transceiver-SFP+-10G-Single-mode Module (1310nm,10km,LC)

OSX040N01Optical Transceiver-SFP+-10G-Single-mode Module (1550nm,40km,LC)

OSXD22N00Optical module, SFP+, 10G, Multi-mode module (1310nm, 0.22km, LC, LRM)

LE2MXSC80FF0Optical Transceiver,SFP+,10G,Single-mode Module(1550nm,80km,LC)

SFP-10G-USROptical Transceiver,SFP+,10G,Multi-mode Module(850nm,0.1km,LC)

SFP-10G-ZROptical Transceiver,SFP+,10G,Single-mode Module(1550nm,80km,LC)

SFP-10G-BXU110GBase,BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1270nm/RX1330nm,10km,LC)

SFP-10G-BXD110GBase,BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1330nm/RX1270nm,10km,LC)

SFP-10G-BXU210GBase-BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1330nm/RX1270nm,20km,LC)

SFP-10G-BXD210GBase-BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1270nm/RX1330nm,20km,LC)

SFP-10G-ER-SM1330-

BIDI

Optical Transceiver,SFP+,10G,BIDI Single-mode Module(TX 1330nm/RX 1270nm,40km,LC)

SFP-10G-ER-SM1270-

BIDI

Optical Transceiver,SFP+,10G,BIDI Single-mode Module(TX 1270nm/RX 1330nm,40km,LC)

SFP-10G-AOC3MAOC Optical Transceiver,SFP+,850nm,1G~10G,0.003km

SFP-10G-AOC10MAOC Optical Transceiver,SFP+,850nm,1G~10G,0.01km

QSFP-4SFP10-AOC10MOptical transceiver,QSFP+,40G,(850nm,10m,AOC)(Connect to four SFP+ Optical Transceiver)

QSFP-H40G-AOC10MOptical transceiver,QSFP+,40G,(850nm,10m,AOC)

SFP-10G-ZCW1571Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1571nm,70km,LC)

SFP-10G-ZCW1591Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1591nm,70km,LC)

SFP-10G-ZCW1611Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1611nm,70km,LC)

10GE-SFP+ Optical Transceiver

QSFP-40G-LX4

40GBase-LX4 Optical Transceiver,QSFP+,40GE,Single-mode(1310nm,2km,LC),Multi-

mode(1310nm,0.15km,LC)

10

11

QSFP-40G-iSM4

40GBase-iSM4 Optical Transceiver, QSFP+, 40G, Single-mode Module (1310nm,1.4km,MPO)

(Connect to four SFP+ Optical Transceiver)

QSFP-40G-eSM4

40GBase-eSM4 Optical Transceiver, QSFP+, 40G, Single-mode Module (1310nm,10km,MPO)

(Connect to four SFP+ Optical Transceiver)

QSFP-40G-iSR4

40GBase-SR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm, 0.15km, MPO)(Connect to four

SFP+ Optical Transceiver)

QSFP-40G-LR440GBase-LR4 Optical Transceiver,QSFP+,40GE,Single-mode Module(1310nm,10km,LC)

QSFP-40G-eSM4

40GBase-eSM4 Optical Transceiver,QSFP+,40G,Single-mode Module (1310nm,10km,MPO)(Connect

to four SFP+ Optical Transceiver)

QSFP-40G-eiSR4

40GBase-eSR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm,0.3km,MPO)(Connect to four

SFP+ Optical Transceiver)

QSFP-40G-ER440GBase-ER4 Optical Transceiver,QSFP+,40G,Single-mode Module (1310nm,40km,LC)

CFP-40G-ZR4High Speed Transceiver,CFP,40G,Single-mode Module(1550nm band,41.25G,80km,straight LC)

CFP-40G-SR4High Speed Transceiver,CFP,40G,Multimode Module(850nm,4*10G,0.1km,MPO)

CFP-40G-LR4High Speed Transceiver,CFP,40G,Single-mode Module(1310nm band,41.25G,10km,straight LC)

CFP-40G-ER4High Speed Transceiver,CFP,40G,Single-mode Module(1310nm band,41.25G,40km,straight LC)

CFP-40G-ZR4High Speed Transceiver,CFP,40G,Single-mode Module(1550nm band,41.25G,80km,straight LC)

100GE-QSFP28 & CFP Optical Transceiver

QSFP-100G-SR4100GBase-SR4 Optical Transceiver,QSFP28,100G,Multi-mode (850nm,0.1km,MPO)

QSFP-100G-PSM4100GBase-PSM4 Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,0.5km,MPO)

QSFP-100G-CLR4High Speed Transceiver,QSFP28,1310nm,4*25GBase,-6.5dBm,2.5dBm,-10.7dBm,LC/PC,2km

QSFP-100G-CWDM4High Speed Transceiver,QSFP28,1310nm,4*25GBase,-6.5dBm,2.5dBm,-9.8dBm,LC/PC,2km

QSFP-100G-LR4100GBase-LR4 Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,10km,LC)

CFP-100G-SR10100GBase-SR4 Optical Transceiver,QSFP28,100G,Multi-mode (850nm,0.1km,MPO)

CFP-100G-LR4High Speed Transceiver,CFP,100G,Single-mode Module(1310nm band,4*25G,10km,straight LC)

CFP-100G-ER4High Speed Transceiver,CFP,100G,Single-mode Module(1310nm band,4*25G,40km,straight LC)

CFP-100GE-ZR4100GBase,CFP Module,100G,Single-mode Module(1310nm band,4*25G,80km,straight LC)

QSFP-100G-CU1M

High Speed Cable,100G QSFP28 Passive High Speed Cable,1m,QSFP28,CC8P0.254B(S),QSFP28,ETH

100GbE

QSFP-100G-CU3M

High Speed Cable,100G QSFP28 Passive High Speed Cable,3m,QSFP28,CC8P0.254B(S),QSFP28,ETH

100GbE

QSFP-100G-CU5M

High Speed Cable,100G QSFP28 Passive High Speed Cable,5m,QSFP28,CC8P0.4B(S),QSFP28,ETH

100GbE

QSFP-100G-ER4-Lite

100GBase-ER4-Lite Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,30km(FEC

OFF),40km(FEC ON),LC)

BIDI-SFP Optical Transceiver

SFP-FE-LX-SM1310-BIDIOptical Transceiver-eSFP-FE-BIDI Single-mode Module (TX1310/RX1550,15km,LC)

SFP-FE-LX-SM1550-BIDIOptical Transceiver-eSFP-FE-BIDI Single-mode Module (TX1550/RX1310,15km,LC)

SFP-GE-LX-SM1310-BIDIOptical Transceiver-eSFP-GE-BIDI Single-mode Module (TX1310/RX1490,10km,LC)

SFP-GE-LX-SM1490-BIDIOptical Transceiver-eSFP-GE-BIDI Single-mode Module (TX1490/RX1310,10km,LC)

SFP-GE-BXU1-SC1000Base,BIDI Optical Transceiver,SFP,GE,Single-mode Module(TX1490nm/RX1310nm,10km,SC)

LE2MGSC40ED0Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1490/RX1310,40km,LC)

LE2MGSC40DE0Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1310/RX1490,40km,LC)

SFP-GE-ZBXD1Optical Transceiver,eSFP,GE,BIDI Single-mode Module(1570nm(Tx)/1490nm(Rx),80km,LC)

SFP-GE-ZBXU1Optical Transceiver,eSFP,GE,BiDi Single-mode Module(1490nm(Tx)/1570nm(Rx),80km,LC)

Power Module

LE0MPSD161600W DC Power Module(Gray)

W2PSD22012200W DC Power Module(Gray)

LE0MPSA08800W AC Power Module(Gray)

W0PSA22002200W AC Power Module(Gray)

PAC-2200WA2200W AC Power Module

LE0W01DPDBDC Power Distribution Unit(Four 40A outputs,maximum 1600W per output,include power cable)

IN6W18L10AAC Power Distribution Unit(Eight 10A Outputs,maximum 1600W per output,include power cable)

IM1W24APDAC Power Distribution Unit(Four 16A outputs,maximum 2500W per output,include power cable)

EH1M00PDBS01DC Power Distribution Unit(Eight 60A Outputs,maximum 2200W per output,include power cable)

Software

LE1SMS289300S9300 Basic SW,V200R008

LE1SMS2A9300S9300 Basic SW,V200R010

LE1SMS2C9300S9300 Basic SW,V200R012

LE1SUPGR9300S9300 Rn To R(n+1) Software Enhanced Fee

LE0SMPLS9300MPLS Function License

LE0SNQAF9300NQA Function License

LE0SIPV69300IPV6 Function License

LE1SVXLAN000VXLAN enhanced function license(used in S9300 series)

LLE0SSP01Service Splitting Platform Function License

LE1SCSSLPU00CSSModeLPU Function license

LE1SFIB128K0X-series LPU FIB Resource License-128K

LIC-SG-CUS02Software Customized Development Fee(Man/Day)

12

13

Applications

Applications in Carriers' MANs

The S9300 provides carrier-class reliability, security, and manageability. By converging DSLAM, LAN, and enterprise access

services, the S9300 provides large-capacity switching and high-density 10G interfaces. At the convergence layer, the

interface rate can be smoothly upgraded from 10GE to 40GE/100GE, meeting the increasing bandwidth requirements

of ISP networks. The S9300 supports features such as RRPP, Ethernet OAM, VRRP, and MPLS L2/L3VPN, and satisfies the

requirements for IPTV, high speed Internet (HSI), and enterprise leased lines.

ME AccessME AggregationME Core

S5300

DSLAM

S9300

S5300

Access

Softx

Switch

S9300

SR

CPE

S5300

S9300

P

AG

S9300

DSLAM

SR

S9300

IPTV Server

Access

Switch

CPE

VOD Service

Applications in Large-Scale Data Centers

The S9300 switches function as high-density 10G core and aggregation nodes in large-scale data centers, helping

enterprises build highly reliable, non-blocking, and virtualized data center networks. The S9300 switches use various

technologies, including IP FRR, hardware-level BFD, NSF, VRRP, and E-Trunk, to ensure uninterrupted services. In addition,

the S9300 switches support the CSS function to improve network IT efficiency and reduce network maintenance costs.

Campus Core

S9300CSS Clustering

S5300iStackS5300iStack

S2300

Web & EmailApplicationApplicationDatabase

For more information, visit / or contact your local Huawei sales office.

Copyright © Huawei Technologies Co., Ltd. 2018. All rights reserved.

No part of this document may be reproduced or transmitted in any form or by any means without prior written consent

of Huawei Technologies Co., Ltd.

Trademark Notice

, HUAWEI, and are trademarks or registered trademarks of Huawei Technologies Co., Ltd.

Other trademarks, product, service and company names mentioned are the property of their respective owners.

General Disclaimer

The information in this document may contain predictive statements

including, without limitation, statements regarding the future financial and

operating results, future product portfolio, new technology, etc. There are a

number of factors that could cause actual results and developments to

differ materially from those expressed or implied in the predictive

statements. Therefore, such information is provided for reference purpose

only and constitutes neither an offer nor an acceptance. Huawei may

change the information at any time without notice.

HUAWEI TECHNOLOGIES CO.,LTD.

Huawei Industrial Base

Bantian Longgang

Shenzhen 518129,

Tel: +86 755 28780808

2024年10月26日发(作者：无鸿云)

Huawei S9300 Switch

Product Brochures

Realize Your Potential

Huawei S9300 Switch Product

Product Overview

Huawei S9300 series (S9300 for short) terabit routing switches are next-generation high-end smart switches

tailored for multiservice networks. The S9300 uses Huawei's intelligent multilayer switching concept to provide

high-performance L2/L3 switching services as well as rich network applications such as High-Definition (HD)

video, elastic cloud computing, hardware IPv6, unified security, and H-QoS. Secure, reliable, and scalable, and

providing converged, end-to-end routing and switching functions, the S9300 switches are widely used in Wide

Area Networks (WANs), Metropolitan Area Networks (MANs), and data centers to help carriers build application-

centric networks.

The S9300 is available in three models: S9303, S9306, and S9312. All S9300 models use interchangeable

modules and components for inexpensive switching capacity and port expansion. In addition, S9300 models use

innovative energy saving technologies that greatly reduce energy consumption and noise without compromising

performance or stability.

S9303 S9306 S9312

01

Product Features

Agile Switch, Enabling Networks to Be More Agile for

Services

• The high-speed ENP is tailored for Ethernet networks.

The ENP's flexible packet processing and traffic control

capabilities can meet current and future service

requirements and help build a highly scalable network.

The ENP has a fully programmable architecture, in which

customers can define their own forwarding models,

forwarding behaviors, and lookup algorithms. Microcode

programmability enables new services to be provisioned

within six months, without the need of replacing the

hardware. In contrast, with traditional ASIC chips, new

services cannot be provisioned until new hardware is

developed to support the services, which may take 1

to 3 years, because ASIC chips use a fixed forwarding

architecture and follow a fixed forwarding process.

• By using an ENP board, the S9300 supports the unified

user management function to authenticate both wired

and wireless users, ensuring a consistent user experience

regardless of whether they use wired or wireless access

devices to connect to the network. The unified user

management function supports various authentication

methods, including 802.1x, MAC, and Portal

authentications, and is capable of managing users based

on user groups, domains, and time ranges. This function

visualizes user and service management and enables the

transformation from device-centric management to user-

centric management.

• The ENP board supports the Packet Conservation

Algorithm for Internet (iPCA) function, which changes

the traditional method of using simulated traffic for fault

location. iPCA technology can monitor network quality

for any service flow at any network node, at any time,

and without extra costs. It can detect temporary service

interruptions in a very short time and precisely identify

faulty ports. This cutting-edge fault detection technology

turns "extensive management" to "fine granular

management."

• Huawei's IEEE 1588v2 and Synchronous Ethernet (SyncE)

solutions enable high-precision time synchronization

between network devices. Compared with the Global

Positioning System (GPS) time synchronization solution,

Huawei's solutions enhance security while reducing costs.

Innovative CSS Technology

• S9300 switches can set up a clustering switch system (CSS)

through cluster cards or service ports. The CSS provides

industry-leading 320 Gbps inter-chassis bandwidth due

to Huawei's novel approach of using the switching fabric

clustering technology in CSS. Member switches can be

connected through the service ports on LPUs. These

service ports can be configured as stack member ports

and added to a logical stack port to enable connection

through SFP+ optical modules and fibers, or direct

connection through SFP+ stack cables. Virtualization

technology improves link use efficiency and prevents

single-point failures through inter-chassis link aggregation.

• The S9300 uses route hot backup technology to back

up and uninterruptedly forward all data of the control

and data planes at Layer 3. This technology significantly

improves reliability and performance of the S9300. The

inter-chassis links in a CSS can be bundled to improve link

use efficiency and eliminate single-point failures.

• The S9300 can use common service ports as cluster ports,

and member switches can be connected through optical

fibers. This increases the permitted distance between

switches in the CSS.

• All member switches in a CSS are managed through a

single IP address, which simplifies network device and

topology management, improves network operation

efficiency, and reduces maintenance costs.

Carrier-Class Reliability

• The S9300's key components, such as MPUs, power

supplies, and fans trays, use a redundant design, and all

modules are hot swappable to ensure stable network

running.

• The S9300 supports 3.3 ms hardware-based BFD for static

routes and routing protocols such as RIP, OSPF, BGP, IS-IS,

VRRP, PIM, and MPLS. Hardware-based BFD significantly

improves network reliability.

• The S9300 supports High-speed Self Recovery (HSR)

technology. Using Huawei's ENP cards, the S9300 is the

industry's only switch that implements end-to-end IP

MPLS bearer network protection switchover within 50 ms,

improving network reliability.

• The S9300 supports hardware-based Ethernet OAM

in compliance with IEEE 802.3ah, 802.1ag, and ITU-Y.

1731. Hardware-based Ethernet OAM can collect precise

network parameters, such as transmission latency and

jitter, to help customers monitor network operating status

in real time and to realize fast fault detection, location,

and failover.

• The S9300 supports Graceful Restart (GR) technology to

implement nonstop forwarding (NSF) and ensure reliable

and high-speed operation of the entire network.

02

03

Powerful Service Processing Capabilities

• The S9300 provides high-density 10GE ports and provide 4 x

100GE line card, Each S9312 chassis can provide a maximum

of 576 x 10GE ports and 48 x 100GE ports, meeting the

requirements of bandwidth-consuming applications, such as

multimedia conferencing and data access.

• Based on a multi-service routing and switching platform,

the S9300 provides wireless access, voice, video, and data

services for network access, aggregation, and core layers,

helping customers build a highly reliable, low-latency, and

multi-service network.

• The S9300 supports distributed MPLS L2/L3VPN functions

including MPLS, virtual private LAN service (VPLS),

hierarchical VPLS (HVPLS), and virtual leased line (VLL), to

provide secure access for VPN users.

• The S9300 supports comprehensive Layer 2 and Layer

3 multicast protocols, including Protocol Independent

Multicast Sparse Mode (PIM SM), PIM Dense Mode (DM),

PIM Source-Specific Multicast (SSM), Multicast Listener

Discovery (MLD), and Internet Group Management

Protocol (IGMP) snooping, to ensure high-quality HD video

surveillance and video conferencing services.

• The Service Chain feature virtualizes the value-added

service processing capabilities, such as firewall, so that

campus networks can utilize these capabilities in an

undifferentiated manner. That is, these capabilities can be

used without location constraint.

• The software platform where the S9300 runs supports

various routing protocols (including IPv6) to meet carriers'

network requirements and allows carriers to smoothly

upgrade their networks to IPv6.

Various Network Traffic Analysis Functions

• The S9300 supports NetStream, including V5/V8/V9

versions. The NetStream features involve aggregation

traffic template, real-time traffic sampling, dynamic

report generation, traffic attribute analysis, and traffic

exception alarms. The S9300 sends traffic statistics logs to

master and backup servers simultaneously to avoid data

loss. NetStream helps monitor the operating status and

traffic model on the entire network. It also provides fault

pre-detection, effective fault rectification, fast problem

handling, and security monitoring capabilities to help

customers optimize network structure and adjust service

deployment.

Comprehensive Security Measures

• The S9300 supports MAC security (MACSec) that enables

hop-by-hop secure data transmission. The S9300 can be

applied to scenarios that pose high requirements on data

confidentiality, such as government and finance sectors.

• NGFW is a next-generation firewall card installed on an

S9300. In addition to the traditional defense functions,

such as identity authentication and Anti-DDoS, the NGFW

supports IPS, anti-spam, web security, and application

control functions.

• The S9300 provides comprehensive network admission

control (NAC) solutions, involving MAC, 802.1x, and Portal

authentications as well as authentication triggered by

DHCP snooping. These authentication methods ensure the

security of various access users, such as dumb terminals,

mobile users, and users allocated dynamic IP addresses.

Comprehensive IPv6 Solution

• The S9300 software and hardware platforms support IPv6.

The Ministry of Industry and Information Technology (MIIT)

has certified the S9300 as IPv6 network-access compliant

and has awarded IPv6 Ready Logo Phase 2 certification.

• The S9300 supports IPv6 routing protocols such as RIPng,

OSPFv3, IS-ISv6, as well as IPv6 static routes, and supports

BGP4+, MLD v1/v2, MLD snooping, PIM-SM/DMv6, and

PIM-SSMv6.

• The S9300 supports various IPv4-to-IPv6 technologies to

ensure seamless network migration. The technologies

include IPv6 manual tunnel, 6to4 tunnel, Intra-site

Automatic Tunnel Addressing Protocol (ISATAP) tunnel,

Generic Routing Encapsulation (GRE) tunnel, and IPv4-

compatible automatic tunnel.

Innovative Energy Saving Design

• The S9300 uses a rotating ventilation channel to improve

heat dissipation efficiency and a variable-current chip to

dynamically adjust power according to traffic volume.

These technologies reduce power consumption of the

entire chassis by 11%. The S9300 supports port sleeping.

Idle ports enter the sleeping state to reduce power

consumption.

• The S9300 supports intelligent fan-speed adjustment,

in which fans are grouped into multiple zones and fan

speed in each zone is adjusted individually based on

service loads. This technology lowers power consumption,

reduces noise, and extends the service life of fans.

• The S9300 supports Energy Efficient Ethernet (EEE) in

compliance with IEEE 802.3az. Transceivers on line cards

can quickly transition to the lower power idle state to

reduce power consumption when no traffic is being

transmitted.

VXLAN

• VXLAN is used to construct a Unified Virtual Fabric (UVF). As such, multiple service networks or tenant networks can be

deployed on the same physical network, and service and tenant networks are isolated from each other. This capability truly

achieves 'one network for multiple purposes'. The resulting benefits include enabling data transmission of different services

or customers, reducing the network construction costs, and improving network resource utilization. The S9300 series

switches are VXLAN-capable and allow centralized and distributed VXLAN gateway deployment modes. These switches also

support the BGP EVPN protocol for dynamically establishing VXLAN tunnels and can be configured using NETCONF/YANG.

OPS

• Open Programmability System (OPS) is an open programmable system based on the Python language. IT administrators

can program the O&M functions of a switch through Python scripts to quickly innovate functions and implement intelligent

O&M.

Big Data Security Collaboration

• Agile switches use NetStream to collect campus network data and then report such data to the Huawei Cybersecurity

Intelligence System (CIS). The purposes of doing so are to detect network security threats, display the security posture across

the entire network, and enable automated or manual response to security threats. The CIS delivers the security policies to the

Agile Controller. The Agile Controller then delivers such policies to agile switches that will handle security events accordingly.

All these ensure campus network security.

Intelligent Diagnosis

• Open Intelligent Diagnosis System (OIDS) integrates the device health monitoring and fault diagnosis functions – that are

typically deployed on a Network Management System (NMS) – into the switch software to implement intelligent diagnosis

on a single switch. After OIDS is deployed on a switch, the switch periodically collects and records the running information

and automatically determines whether a fault occurs. If a fault occurs, the switch automatically locates the fault or helps

locate the fault. All these merits increase fault locating efficiency of O&M staff while improving device maintainability.

04

05

Product Specifications

ItemS9303S9306 / S9306 PoES9312 / S9312 PoE

Switching capacity1.92Tbps3.84Tbps3.84Tbps

Packet forwarding rate1440Mpps2880Mpps2880Mpps

Service slot quantity3612

Unified user management

User management

802.1x, MAC, and Portal authentications

Charging based on traffic volume and online duration

User authorization based on user groups, domains, and time ranges

Access, trunk, and hybrid

Default VLAN

VLAN

VLAN switching

QinQ and selective QinQ

MAC-based VLAN assignment

VXLAN centralized gateway and distributed gateway

VXLANBGP EVPN

Configured through NETCONF protocol

MAC address learning and aging

MAC address

Static, dynamic, and blackhole MAC address entries

Packet filtering based on source MAC addresses

MAC address limiting based on ports and VLANs

STP (IEEE 802.1d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s)

STP/ERPS

BPDU protection, root protection, and loop protection

BPDU tunnel

G.8032 Ethernet Ring Protection Switching (ERPS)

IP routing

IPv4 dynamic routing protocols, such as RIP, OSPF, IS-IS, and BGP

IPv6 routing protocols, such as RIPng, OSPFv3, IS-ISv6, and BGP4+

IGMPv1/v2/v3 and IGMP v1/v2/v3 snooping

PIM-DM, PIM-SM, and PIM-SSM

MSDP and MBGP

Prompt leave

Multicast

Multicast traffic control

Multicast querier

Multicast protocol packet suppression

Multicast CAC

Multicast ACL

Basic MPLS functions

MPLS

MPLS OAM

MPLS TE

MPLS VPN/VLL/VPLS

Time synchronization

IEEE 1588v2

SyncE

ItemS9303S9306 / S9306 PoES9312 / S9312 PoE

LACP and inter-chassis E-Trunk

VRRP and BFD for VRRP

BFD for BGP/IS-IS/OSPF/static route

NSF and GR for BGP/IS-IS/OSPF/LDP

ReliabilityTE FRR and IP FRR

Ethernet OAM in compliance with IEEE 802.3ah and 802.1ag (hardware-level)

HSR

ITU-Y.1731

DLDP

Traffic classification based on Layer 2 headers, Layer 3 protocols, Layer 4 protocols, and 802.1p fields

ACL, CAR, and actions including Remark and Schedule

QoS

Queuing algorithms, such as SP, WRR, DRR, SP+WRR, and SP+DRR

Congestion avoidance mechanisms, including WRED and tail drop

H-QOS

Traffic shaping

iPCA, monitor network quality for any service flow at any network node, at any time, and without

extra costs

Terminal access services such as console port login, Telnet, and SSH

Network management protocols, such as SNMPv1/v2/v3

Configuration and

maintenance

File uploading and downloading through FTP and TFTP

BootROM upgrade and remote in-service upgrade

Hot patches

User operation logs

Open Programmability System (OPS)

802.1x authentication and Portal authentication

MACSec

NAC

RADIUS and HWTACACS authentication for login users

Security and user

management

Command line authority control based on user levels (unauthorized users cannot use commands)

Defense against DoS attacks, TCP SYN Flood attacks, UDP Flood attacks, broadcast storms, and traffic

flooding attacks

Ping and traceroute

RMON

Secure Boot(need to use MPU that supports Secure Boot)

Firewall

Network Address Translation (NAT)

Security protection IPSec, SSL VPN

Intrusion Protection System (IPS)

Load balancing Analog Digital Conversion (ADC)

Energy savingEnergy Efficient Ethernet (802.3az)

Dimensions (W x D x H)442 mm x 489 mm x 175 mm442 mm x 489mm x 442 mm442 mm x 489 mm x 664 mm

Weight (empty chassis)10 Kg15Kg25Kg

Operating temperature:

Operating

0 m to 1800 m: The long-term operating temperature is 0

o

environment

temperature is 0

o

C to 45

o

C and the short-term operating

1800 m to 4000 m: The operating temperature reduces by 1

C to 55

o

C.

o

Storage temperature: -40

o

C to +70

o

C every time the altitude increases by 220 m.

Relative humidity: 5% to 95% (noncondensing)

C

Operating voltageDC: 40 V to -72 V AC: 90 V to 290 V

Total power capacity2200 W4400 W4400 W

06

07

Product List

Basic Configuration

LE0BN66EDCN66E DC Assembly Rack (Four 40A outputs, maximum 1600W per output, 600X600X2200mm)

LE0BN66EACN66E AC Assembly Rack (Eight 10A Outputs, maximum 1600W per output, 600X600X2200mm)

LE2BN66EA000N66E AC Assembly Rack (Four 16A Outputs, maximum 2500W per output, 600X600X2200mm)

LE0KS9303S9303 Assembly Chassis

LE0KS9306S9306 Assembly Chassis

LE0KS9312S9312 Assembly Chassis

LE0BS9306P1S9306 POE Assembly Chassis

LE0BS9312P1S9312 POE Assembly Chassis

LE0M00FBXB00Wide Voltage 68 Fan Box

Monitoring Board

LE0DCMUA0000Centralized Monitoring Board

Main Control Unit

LE0MMCUAS9303 Main Control Unit A

LE0DMCUAS9303 Main Control Unit A(Optional Clock)

LE0MSRUAS9306/S9312 Main Control Unit A

LE0DSRUAS9306/S9312 Main Control Unit A(Optional Clock)

LE0D00SRUB00S9306/S9312 Main Control Unit B(Optional Clock)

LE1D2SRUE000S9306/S9312,Main Control Unit E

LE1D2SRUH000S9306/S9312,Main Control Unit H

LE1D2SRUH002S9306/S9312,Main Control Unit H(Support Secure Boot)

SRU Service Card

LE0MFSUAEnhanced Flexible Service Unit

LE0D0VSTSA00Cluster Switching System Service Unit

LE1D2VS040004-Port 10G Cluster Switching System Service Unit (SFP+)

LE0D00CKMA00Clock Pinch Board-1588

Agile Card

LE2D2L16QX2H16-Port 40GE QSFP+ Interface Card(X2H,QSFP+)

LE1D2L08QX2E8-Port 40GE QSFP+ Interface Card(X2E,QSFP+)

LE1D2X32SX2S32-Port 10GE SFP+ Interface Card(X2S,SFP+)

LE1D2X32SX2E32-Port 10GE SFP+ Interface Card(X2E,SFP+)

LE1D2S24SX2S24-Port 10GE SFP+ Interface and 8-Port GE SFP Interface Card(X2S,SFP+)

LE1D2S24SX2E24-Port 10GE SFP+ Interface and 8-Port GE SFP Interface Card(X2E,SFP+)

LE1D2S16SX2S16-Port 10GE SFP+ Interface and 16-Port GE SFP Interface Card(X2S,SFP+)

LE1D2S16SX2E16-Port 10GE SFP+ Interface and 16-Port GE SFP Interface Card(X2E,SFP+)

LE2D2C08HX2H8-Port 100GE QSFP28 Interface Card(X2H,QSFP28)

LE1D2C04HX2S4-Port 100GE QSFP28 Interface Card(X2S,QSFP28)

LE1D2C04HX2E4-Port 100GE QSFP28 Interface Card(X2E,QSFP28)

LE1D2H02QX2S2-Port 100GE QSFP28 Interface and 2-Port 40GE QSFP+ Interface Card(X2S,QSFP28)

LE1D2H02QX2E2-Port 100GE QSFP28 Interface and 2-Port 40GE QSFP+ Interface Card(X2E,QSFP28)

LE1D2X48SX2S48-Port 10GE SFP+ Interface Card(X2S,SFP+)

LE1D2G48TX1E48-Port 10/100/1000BASE-T Interface Card(X1E,RJ45)

LE1D2G48SX1E48-Port 100/1000BASE-X Interface Card(X1E,SFP)

LE1D2S04SX1E

4-Port 10GBASE-X and 24-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface

Card(X1E,RJ45/SFP/SFP+)

LE1D2S08SX1E

8-Port 10GBASE-X and 8-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface

Card(X1E,RJ45/SFP/SFP+)

10/100/1000BASE-T Interface Card

LE0DT24XEA0024-Port 10/100/1000BASE-T and 2-Port 10GBASE-X Interface Card (EA,RJ45/XFP)

LE0DG24TFA0024-Port 10/100/1000BASE-T Interface Card(FA,RJ45)

LE0DG48CEAT036-Port 10/100/1000BASE-T and 12-Port 100/1000BASE-X Interface Card(EA,RJ45/SFP)

LE0MG48TA48-Port 10/100/1000BASE-T Interface Card(EA,RJ45)

LE0DG48TFA0048-Port 10/100/1000BASE-T Interface Card(FA,RJ45)

LE0MG48TC48-Port 100/1000BASE-T Interface Card(EC,RJ45)

LE0MG48TD48-Port 100/1000BASE-T Interface Card(ED,RJ45)

100/1000BASE-X Interface Card

LE0MG24SA24-Port 100/1000BASE-X Interface Card(SA,SFP)

LE0MG24SC24-Port 100/1000BASE-X Interface Card(EC,SFP)

LE0MG24SD24-Port 100/1000BASE-X Interface Card(ED,SFP)

LE0MG24CA24-Port 100/1000BASE-X and 8-Port 10/100/1000BASE-T Combo Interface Card(SA,SFP/RJ45)

LE0DS24XEA0024-Port 100/1000BASE-X and 2-Port 10GBASE-X Interface Card(EA,SFP/XFP)

LE0D0S24XC0024-Port 100/1000BASE-X and 2-Port 10GBASE-X Interface Card(EC,SFP/XFP)

LE0MG48SA48-Port 100/1000BASE-X Interface Card(EA,SFP)

LE0DG48SFA0048-Port 100/1000BASE-X Interface Card(FA,SFP)

08

09

LE0MG48SC48-Port 100/1000BASE-X Interface Card(EC,SFP)

LE0MG48SD48-Port 100/1000BASE-X Interface Card(ED,SFP)

10GBASE-X Interface Card

LE0MX2UXA2-Port 10GBASE-X Interface Card(EA,XFP)

LE0MX2UXC2-Port 10GBASE X Interface Card(EC,XFP)

LE0MX4UXA4-Port 10GBASE-X Interface Card(EA,XFP)

LE0MX4UXC4-Port 10GBASE-X Interface Card(EC,XFP)

LE0DX4UXED004-Port 10GBASE-X Interface Card(ED,XFP)

LE2D2X08SED48-Port 10GBASE-X Interface Card(ED,SFP+)

LE0DX12XSA0012-Port 10GBASE-X Interface Card(SA,SFP+)

LE1D2X16SSC216-Port 10GBASE-X Interface Card(SC,SFP+)

LE1D2X32SSC032-Port 10GBASE-X Interface Card(SC,SFP+)

100GE BASE-X Interface Card

LE1D2C02FEE02-Port 100GBASE-X Interface Card(EE,CFP)

POE Interface Card

LE0DG48VEA0048-Port 10/100/1000BASE-T POE Interface Card(EA,RJ45,POE)

Service Processing Unit

LE1D2FW00S01NGFW Module B,with HW General Security Platform Software

Optical Transceiver

FE-SFP Optical Transceiver

S-SFP-FE-LH40-SM1310Optical Transceiver,eSFP,FE,Single-mode Module(1310nm,40km,LC)

S-SFP-FE-LH80-SM1550Optical Transceiver,eSFP,FE,Single-mode Module(1550nm,80km,LC)

SFP-FE-SX-MM1310Optical Transceiver,SFP,100M/155M,Multi-mode Module(1310nm,2km,LC)

eSFP-FE-LX-SM1310Optical Transceiver,eSFP,100M/155M,Single-mode Module(1310nm,15km,LC)

GE-SFP Module

SFP-1000BaseTElectrical transceiver-SFP-GE-Electrical Interface Module (100m,RJ45)

eSFP-GE-SX-MM850Optical Transceiver-eSFP-GE-Multi-mode Module (850nm,0.5km,LC)

SFP-GE-LX-SM1310Optical Transceiver-SFP-GE-Single-mode Module (1310nm,10km,LC)

S-SFP-GE-LH40-SM1310Optical Transceiver,eSFP,GE,Single-mode Module(1310nm,40km,LC)

S-SFP-GE-LH40-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,40km,LC)

S-SFP-GE-LH80-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,80km,LC)

eSFP-GE-ZX100-SM1550Optical Transceiver-eSFP-GE-Single-mode Module (1550nm,100km,LC)

10GE-XFP Optical Transceiver

XFP-SX-MM850Optical Transceiver-XFP-10G-Multi-mode Module (850nm,0.3km,LC)

XFP-STM64-LX-SM1310Optical Transceiver-XFP-10G-Single-mode Module (1310nm,10km,LC)

XFP-STM64-LH40-

SM1550

Optical Transceiver-XFP-10G-Single-mode Module (1550nm,40km,LC)

XFP-STM64-SM1550-

80km

Optical Transceiver-XFP-10G-Single-mode Module (1550nm,80km,LC)

10GE-SFP+ Optical Transceiver

OMXD30000Optical Transceiver-SFP+-10G-Multi-mode Module (850nm,0.3km,LC)

SFP-10G-iLROptical Transceiver,SFP+,9.8G,Single-mode Module(1310nm,1.4km,LC)

OSX010000Optical Transceiver-SFP+-10G-Single-mode Module (1310nm,10km,LC)

OSX040N01Optical Transceiver-SFP+-10G-Single-mode Module (1550nm,40km,LC)

OSXD22N00Optical module, SFP+, 10G, Multi-mode module (1310nm, 0.22km, LC, LRM)

LE2MXSC80FF0Optical Transceiver,SFP+,10G,Single-mode Module(1550nm,80km,LC)

SFP-10G-USROptical Transceiver,SFP+,10G,Multi-mode Module(850nm,0.1km,LC)

SFP-10G-ZROptical Transceiver,SFP+,10G,Single-mode Module(1550nm,80km,LC)

SFP-10G-BXU110GBase,BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1270nm/RX1330nm,10km,LC)

SFP-10G-BXD110GBase,BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1330nm/RX1270nm,10km,LC)

SFP-10G-BXU210GBase-BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1330nm/RX1270nm,20km,LC)

SFP-10G-BXD210GBase-BIDI Optical Transceiver,SFP,10G,Single-mode Module(TX1270nm/RX1330nm,20km,LC)

SFP-10G-ER-SM1330-

BIDI

Optical Transceiver,SFP+,10G,BIDI Single-mode Module(TX 1330nm/RX 1270nm,40km,LC)

SFP-10G-ER-SM1270-

BIDI

Optical Transceiver,SFP+,10G,BIDI Single-mode Module(TX 1270nm/RX 1330nm,40km,LC)

SFP-10G-AOC3MAOC Optical Transceiver,SFP+,850nm,1G~10G,0.003km

SFP-10G-AOC10MAOC Optical Transceiver,SFP+,850nm,1G~10G,0.01km

QSFP-4SFP10-AOC10MOptical transceiver,QSFP+,40G,(850nm,10m,AOC)(Connect to four SFP+ Optical Transceiver)

QSFP-H40G-AOC10MOptical transceiver,QSFP+,40G,(850nm,10m,AOC)

SFP-10G-ZCW1571Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1571nm,70km,LC)

SFP-10G-ZCW1591Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1591nm,70km,LC)

SFP-10G-ZCW1611Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1611nm,70km,LC)

10GE-SFP+ Optical Transceiver

QSFP-40G-LX4

40GBase-LX4 Optical Transceiver,QSFP+,40GE,Single-mode(1310nm,2km,LC),Multi-

mode(1310nm,0.15km,LC)

10

11

QSFP-40G-iSM4

40GBase-iSM4 Optical Transceiver, QSFP+, 40G, Single-mode Module (1310nm,1.4km,MPO)

(Connect to four SFP+ Optical Transceiver)

QSFP-40G-eSM4

40GBase-eSM4 Optical Transceiver, QSFP+, 40G, Single-mode Module (1310nm,10km,MPO)

(Connect to four SFP+ Optical Transceiver)

QSFP-40G-iSR4

40GBase-SR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm, 0.15km, MPO)(Connect to four

SFP+ Optical Transceiver)

QSFP-40G-LR440GBase-LR4 Optical Transceiver,QSFP+,40GE,Single-mode Module(1310nm,10km,LC)

QSFP-40G-eSM4

40GBase-eSM4 Optical Transceiver,QSFP+,40G,Single-mode Module (1310nm,10km,MPO)(Connect

to four SFP+ Optical Transceiver)

QSFP-40G-eiSR4

40GBase-eSR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm,0.3km,MPO)(Connect to four

SFP+ Optical Transceiver)

QSFP-40G-ER440GBase-ER4 Optical Transceiver,QSFP+,40G,Single-mode Module (1310nm,40km,LC)

CFP-40G-ZR4High Speed Transceiver,CFP,40G,Single-mode Module(1550nm band,41.25G,80km,straight LC)

CFP-40G-SR4High Speed Transceiver,CFP,40G,Multimode Module(850nm,4*10G,0.1km,MPO)

CFP-40G-LR4High Speed Transceiver,CFP,40G,Single-mode Module(1310nm band,41.25G,10km,straight LC)

CFP-40G-ER4High Speed Transceiver,CFP,40G,Single-mode Module(1310nm band,41.25G,40km,straight LC)

CFP-40G-ZR4High Speed Transceiver,CFP,40G,Single-mode Module(1550nm band,41.25G,80km,straight LC)

100GE-QSFP28 & CFP Optical Transceiver

QSFP-100G-SR4100GBase-SR4 Optical Transceiver,QSFP28,100G,Multi-mode (850nm,0.1km,MPO)

QSFP-100G-PSM4100GBase-PSM4 Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,0.5km,MPO)

QSFP-100G-CLR4High Speed Transceiver,QSFP28,1310nm,4*25GBase,-6.5dBm,2.5dBm,-10.7dBm,LC/PC,2km

QSFP-100G-CWDM4High Speed Transceiver,QSFP28,1310nm,4*25GBase,-6.5dBm,2.5dBm,-9.8dBm,LC/PC,2km

QSFP-100G-LR4100GBase-LR4 Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,10km,LC)

CFP-100G-SR10100GBase-SR4 Optical Transceiver,QSFP28,100G,Multi-mode (850nm,0.1km,MPO)

CFP-100G-LR4High Speed Transceiver,CFP,100G,Single-mode Module(1310nm band,4*25G,10km,straight LC)

CFP-100G-ER4High Speed Transceiver,CFP,100G,Single-mode Module(1310nm band,4*25G,40km,straight LC)

CFP-100GE-ZR4100GBase,CFP Module,100G,Single-mode Module(1310nm band,4*25G,80km,straight LC)

QSFP-100G-CU1M

High Speed Cable,100G QSFP28 Passive High Speed Cable,1m,QSFP28,CC8P0.254B(S),QSFP28,ETH

100GbE

QSFP-100G-CU3M

High Speed Cable,100G QSFP28 Passive High Speed Cable,3m,QSFP28,CC8P0.254B(S),QSFP28,ETH

100GbE

QSFP-100G-CU5M

High Speed Cable,100G QSFP28 Passive High Speed Cable,5m,QSFP28,CC8P0.4B(S),QSFP28,ETH

100GbE

QSFP-100G-ER4-Lite

100GBase-ER4-Lite Optical Transceiver,QSFP28,100G,Single-mode module (1310nm,30km(FEC

OFF),40km(FEC ON),LC)

BIDI-SFP Optical Transceiver

SFP-FE-LX-SM1310-BIDIOptical Transceiver-eSFP-FE-BIDI Single-mode Module (TX1310/RX1550,15km,LC)

SFP-FE-LX-SM1550-BIDIOptical Transceiver-eSFP-FE-BIDI Single-mode Module (TX1550/RX1310,15km,LC)

SFP-GE-LX-SM1310-BIDIOptical Transceiver-eSFP-GE-BIDI Single-mode Module (TX1310/RX1490,10km,LC)

SFP-GE-LX-SM1490-BIDIOptical Transceiver-eSFP-GE-BIDI Single-mode Module (TX1490/RX1310,10km,LC)

SFP-GE-BXU1-SC1000Base,BIDI Optical Transceiver,SFP,GE,Single-mode Module(TX1490nm/RX1310nm,10km,SC)

LE2MGSC40ED0Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1490/RX1310,40km,LC)

LE2MGSC40DE0Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1310/RX1490,40km,LC)

SFP-GE-ZBXD1Optical Transceiver,eSFP,GE,BIDI Single-mode Module(1570nm(Tx)/1490nm(Rx),80km,LC)

SFP-GE-ZBXU1Optical Transceiver,eSFP,GE,BiDi Single-mode Module(1490nm(Tx)/1570nm(Rx),80km,LC)

Power Module

LE0MPSD161600W DC Power Module(Gray)

W2PSD22012200W DC Power Module(Gray)

LE0MPSA08800W AC Power Module(Gray)

W0PSA22002200W AC Power Module(Gray)

PAC-2200WA2200W AC Power Module

LE0W01DPDBDC Power Distribution Unit(Four 40A outputs,maximum 1600W per output,include power cable)

IN6W18L10AAC Power Distribution Unit(Eight 10A Outputs,maximum 1600W per output,include power cable)

IM1W24APDAC Power Distribution Unit(Four 16A outputs,maximum 2500W per output,include power cable)

EH1M00PDBS01DC Power Distribution Unit(Eight 60A Outputs,maximum 2200W per output,include power cable)

Software

LE1SMS289300S9300 Basic SW,V200R008

LE1SMS2A9300S9300 Basic SW,V200R010

LE1SMS2C9300S9300 Basic SW,V200R012

LE1SUPGR9300S9300 Rn To R(n+1) Software Enhanced Fee

LE0SMPLS9300MPLS Function License

LE0SNQAF9300NQA Function License

LE0SIPV69300IPV6 Function License

LE1SVXLAN000VXLAN enhanced function license(used in S9300 series)

LLE0SSP01Service Splitting Platform Function License

LE1SCSSLPU00CSSModeLPU Function license

LE1SFIB128K0X-series LPU FIB Resource License-128K

LIC-SG-CUS02Software Customized Development Fee(Man/Day)

12

13

Applications

Applications in Carriers' MANs

The S9300 provides carrier-class reliability, security, and manageability. By converging DSLAM, LAN, and enterprise access

services, the S9300 provides large-capacity switching and high-density 10G interfaces. At the convergence layer, the

interface rate can be smoothly upgraded from 10GE to 40GE/100GE, meeting the increasing bandwidth requirements

of ISP networks. The S9300 supports features such as RRPP, Ethernet OAM, VRRP, and MPLS L2/L3VPN, and satisfies the

requirements for IPTV, high speed Internet (HSI), and enterprise leased lines.

ME AccessME AggregationME Core

S5300

DSLAM

S9300

S5300

Access

Softx

Switch

S9300

SR

CPE

S5300

S9300

P

AG

S9300

DSLAM

SR

S9300

IPTV Server

Access

Switch

CPE

VOD Service

Applications in Large-Scale Data Centers

The S9300 switches function as high-density 10G core and aggregation nodes in large-scale data centers, helping

enterprises build highly reliable, non-blocking, and virtualized data center networks. The S9300 switches use various

technologies, including IP FRR, hardware-level BFD, NSF, VRRP, and E-Trunk, to ensure uninterrupted services. In addition,

the S9300 switches support the CSS function to improve network IT efficiency and reduce network maintenance costs.

Campus Core

S9300CSS Clustering

S5300iStackS5300iStack

S2300

Web & EmailApplicationApplicationDatabase

For more information, visit / or contact your local Huawei sales office.

Copyright © Huawei Technologies Co., Ltd. 2018. All rights reserved.

No part of this document may be reproduced or transmitted in any form or by any means without prior written consent

of Huawei Technologies Co., Ltd.

Trademark Notice

, HUAWEI, and are trademarks or registered trademarks of Huawei Technologies Co., Ltd.

Other trademarks, product, service and company names mentioned are the property of their respective owners.

General Disclaimer

The information in this document may contain predictive statements

including, without limitation, statements regarding the future financial and

operating results, future product portfolio, new technology, etc. There are a

number of factors that could cause actual results and developments to

differ materially from those expressed or implied in the predictive

statements. Therefore, such information is provided for reference purpose

only and constitutes neither an offer nor an acceptance. Huawei may

change the information at any time without notice.

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