product description · huawei technologies co., ltd. ... (rssi) and signal-to-noise ratio (snr) are...

S9700 Core Routing Switch

Product Description

Issue 04

Date 2014-03-20

HUAWEI TECHNOLOGIES CO., LTD.

Copyright © Huawei Technologies Co., Ltd. 2014. All rights reserved.

No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions

and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and thecustomer. All or part of the products, services and features described in this document may not be within thepurchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,and recommendations in this document are provided "AS IS" without warranties, guarantees or representationsof any kind, either express or implied.

The information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but all statements, information, andrecommendations in this document do not constitute a warranty of any kind, express or implied.

Huawei Technologies Co., Ltd.Address: Huawei Industrial Base

Bantian, LonggangShenzhen 518129People's Republic of China

Website: http://enterprise.huawei.com

Issue 04 (2014-03-20) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.

i

http://enterprise.huawei.com

About This Document

Intended AudienceThis document describes the positioning, characteristics, architecture, link features, servicefeatures, application scenarios, operation and maintenance functions, and technicalspecifications of the switch.

This document helps you understand the characteristics and features of the switch.

This document is intended for:

l Network planning engineers

l Hardware installation engineers

l Commissioning engineers

l Data configuration engineers

l On-site maintenance engineers

l Network monitoring engineers

l System maintenance engineers

StatementThe device provides the mirroring function for network monitoring and fault management,during which communication data may be collected. Huawei alone is unable to collect or savethe content of users' communications. It is suggested that you activate the functions based onthe applicable laws and regulations in terms of purpose and scope of usage. You are obligatedto take considerable measures to ensure that the content of users' communications is fullyprotected when the content is being used and saved.

The device provides the NetStream function for network traffic statistics collection andadvertisement, during which data of users may be used. You are obligated to take considerablemeasures, in compliance with the laws of the countries concerned and the user privacy policiesof your company, to ensure that the data of users is fully protected.

Symbol ConventionsThe symbols that may be found in this document are defined as follows.

S9700 Core Routing SwitchProduct Description About This Document


ii

Symbol Description

Indicates an imminently hazardous situationwhich, if not avoided, will result in death orserious injury.

Indicates a potentially hazardous situationwhich, if not avoided, could result in death orserious injury.

Indicates a potentially hazardous situationwhich, if not avoided, may result in minor ormoderate injury.

Indicates a potentially hazardous situationwhich, if not avoided, could result inequipment damage, data loss, performancedeterioration, or unanticipated results.NOTICE is used to address practices notrelated to personal injury.

NOTE Calls attention to important information, bestpractices and tips.NOTE is used to address information notrelated to personal injury, equipment damage,and environment deterioration.

Change HistoryUpdates between document issues are cumulative. Therefore, the latest document versioncontains all updates made to previous versions.

Changes in Issue 04 (2014-03-20)

The fourth commercial release has the following updates:

The documentation is modified according to updates in product features.


The third commercial release has the following updates:

Some contents are optimized.


The second commercial release has the following updates:

The documentation is modified according to updates in product features.



iii

Changes in Issue 01 (2013-05-30)Initial commercial release.



iv

Contents

About This Document.....................................................................................................................ii

1 Mapping Between the S9700 Series Switches and Software Versions...............................1

2 Product Overview..........................................................................................................................22.1 System Overview............................................................................................................................................................32.2 Product Characteristics...................................................................................................................................................3

3 Application Scenarios...................................................................................................................63.1 Application of the S9700 on an Enterprise or Campus Network...................................................................................73.2 Application of the S9700 in a Data Center.....................................................................................................................8

4 Hardware Architecture...............................................................................................................104.1 Appearance and Structure.............................................................................................................................................114.1.1 S9700.........................................................................................................................................................................114.2 Hardware Module.........................................................................................................................................................214.2.1 Cards Types...............................................................................................................................................................224.2.2 Power Supply.............................................................................................................................................................33

5 Product Performance...................................................................................................................355.1 Product Features...........................................................................................................................................................365.2 Performance Specifications..........................................................................................................................................44

6 Technical Specifications.............................................................................................................506.1 Physical Specifications.................................................................................................................................................516.2 System Configuration...................................................................................................................................................526.3 Standards Compliance..................................................................................................................................................53

S9700 Core Routing SwitchProduct Description Contents


v

1 Mapping Between the S9700 Series Switchesand Software Versions

Figure 1-1 shows S9700 version evolution.

Figure 1-1 S9700 version evolution

V200R003

V200R001

V200R002

V200R005

Table 1-1 lists the mapping between S9700 series switches and software versions.

Table 1-1 Mapping between the S9700 series switches and software versions

Device Series Device Model Software Version

S9700 S9703 V200R001C00 and later versions

S9706 V200R001C00 and later versions

S9712 V200R001C00 and later versions

NOTE

Unless otherwise specified, this document describes matching hardware and software performance of theswitch in the latest version.

S9700 Core Routing SwitchProduct Description

1 Mapping Between the S9700 Series Switches and SoftwareVersions


1

2 Product Overview

About This Chapter

2.1 System Overview

2.2 Product Characteristics

S9700 Core Routing SwitchProduct Description 2 Product Overview


2

2.1 System OverviewThe S9700 Core Routing Switch (S9700 for short) is high-end switches designed for next-generation campus networks and data centers to provide service aggregation. Based on HuaweiVersatile Routing Platform (VRP), the S9700 provides high L2/L3 switching capabilities andintegrates diversified services such as MPLS VPN, hardware IPV6, desktop cloud, videoconferencing, wireless access. In addition, the S9700 also provides a variety of reliabilitytechnologies including in-service software upgrade, non-stop forwarding, hardware OAM/BFD,and ring network protection. These technologies improve customers' network efficiency andmaximize the normal operation time, which reduce customers' total cost of ownership (TCO).

The S9700 comes in three different models: S9703, S9706, and S9712. The S9703 supports amaximum of three line processing units (LPUs); the S9706 supports a maximum of six LPUs;the S9712 supports a maximum of 12 LPUs.

NOTE

The release in Russia does not provide IPSec VPN.

2.2 Product Characteristics

Advanced Architecture to Ensure Industry-Leading Performance

The S9700 supports:

l Line cards with high port densities, such as 8*40GE and 40*10GE line cards.

l A maximum of 96*40GE ports or 576*10GE ports, bringing enterprise campus networksand data centers into the era of the all-10GE core network.

l The 100G Ethernet standard to meet future requirements from bandwidth-intensiveapplications (such as multimedia conferencing and data access), eliminating the trouble offrequent upgrading.

Innovative CSS Technology

The S9700 supports switch fabric clustering and service port clustering through cluster switchingsystem (CSS) technology. CSS technology virtualizes two physical switches into one logicaldevice that has higher reliability, switching efficiency, flexibility and is easier to manage.

l High reliability: Through hot backup of routes, all control plane and data plane informationis backed up and forwarded continuously at Layer 3, which significantly improves devicereliability and performance.

l Switching efficiency: Inter-chassis link aggregation can be used to eliminate single-pointfailures and prevent service interruption.

l Flexibility: Service ports can be used as CSS ports so that CSS members can be connectedthrough optical fibers. This expands the distance between member switches substantially.

l Easy management: The member switches in a CSS are managed using the same IP address,which simplifies device management and topology management, improves operationefficiency, and reduces maintenance costs.



3

Carrier-grade Reliability

All the key components of the S9700 (including MPUs, power modules, and fans) use aredundant design to ensure stable network operation. In addition, the S9700 provides thefollowing functions to enhance network reliability:

l Hardware-based BFD for protocols such as static routing, RIP, OSPF, BGP, ISIS, VRRP,PIM, and MPLS, which can detect link failures in a minimum of 3.3 ms.

l Hardware-based Ethernet OAM, including comprehensive IEEE 802.3ah, 802.1ag, andITU-Y. 1731 implementations. Hardware-based Ethernet OAM can collect accuratenetwork parameters, such as transmission latency and jitter, to help customers monitornetwork operating status in real time and to realize quick detection, location, and switchingwhen a network fault occurs.

l Graceful restart to realize nonstop forwarding and ensure reliable and high-speed operationof the entire network.

Multi-Service Switching Platform

The S9700 uses a multi-service routing and switching platform and can provide wireless, voice,video, and data services. It helps enterprises build a highly available, low-latency, and multi-service network through the following functions:

l Distributed Layer 2 and Layer 3 MPLS VPN functions, including Multiprotocol LabelSwitching (MPLS), virtual private LAN service (VPLS), hierarchical VPLS (HVPLS), andvirtual leased line (VLL), providing secure access for enterprise VPN users.

l Layer 2 and Layer 3 multicast protocols, including Protocol Independent Multicast SparseMode (PIM SM), PIM Dense Mode (DM), Multicast Listener Discovery (MLD), andInternet Group Management Protocol (IGMP) snooping. These multicast protocols ensurehigh-quality HD video surveillance and video conferencing services.

l Multiple routing protocols. The S9700 can provide routes for small, medium, and evensuper large enterprises. In addition, it supports IPv6, enabling enterprise networks toseamlessly migrate to IPv6.

Integrated AC Card to Provide Wireless Access

The S9700 wireless AC card supports radio frequency (RF) management and allows APs toautomatically select their radio channels and power. When signals of different APs conflict, APscan adjust their power and channels. The received signal strength indicator (RSSI) and signal-to-noise ratio (SNR) are updated in real time so that the AC can know the radio environment ofeach wireless user. The RF management function helps improve network availability. The ACcard supports 802.1x authentication, MAC address authentication, Portal authentication, andWLAN authentication and privacy infrastructure (WAPI), providing access authentication forterminals of different types and security levels.

Powerful Network Traffic Analysis

The S9700 supports NetStream and V5/V8/V9 packet formats. The NetStream feature supportsaggregation traffic template, real-time traffic sampling, dynamic report generation trafficattribute analysis, and traffic exception alarms. The S9700 sends traffic statistics logs to masterand backup servers simultaneously to avoid data loss. The NetStream function helps monitoroperating status and traffic model on the entire network. It also provides fault pre-detection,



4

effective fault rectification, fast problem handling, as well as security monitoring, to helpcustomers optimize network structure and adjust service deployment.

Excellent Security DesignThe S9700 can use an integrated firewall card to provide virtual firewall and NAT multi-instancefunctions, allowing multiple VPN customers to share the same firewall. The firewall card usesapplication-specific packet filter (ASPF) to check and filter application-layer packets based oncomplex rules. The S9700 provides the following functions:l Comprehensive network admission control (NAC) solutions for enterprise networks: The

S9700 supports MAC address authentication, portal authentication, 802.1x authentication,and DHCP snooping-triggered authentication. These authentication methods ensuresecurity of various access modes such as dumb terminal access, mobile access, andcentralized IP address allocation.

l Two-level CPU protection mechanism: The S9700 supports 1K CPU hardware queues,separates the data plane from the control plane. This helps defend against DoS attacks andunauthorized access, and prevents control plane overloading.

High-Performance IPv6 Service SupportBoth the hardware platform and software platform of the S9700 support IPv6. The S9700 hasearned the IPv6 Ready Phase 2 (Gold) designation. The S9700 helps in seamless migration toIPv6 through the following features:l IPv6 unicast routing protocols, including static routing, RIPng, OSPFv3, IS-ISv6, and

BGP4+l IPv6 multicast protocols, including MLD v1/v2, MLD snooping, PIM-SM/DMv6, and

PIM-SSMv6l Various IPv4-to-IPv6 technologies to ensure seamlessly migration from IPv4 to IPv6,

including IPv6 manual tunnel, 6-to-4 tunnel, Intra-site Automatic Tunnel AddressingProtocol (ISATAP) tunnel, Generic Routing Encapsulation (GRE) tunnel, and IPv4-compatible automatic tunnel

Innovative Energy Saving DesignThe S9700 uses a left-to-rear airflow design to improve heat dissipation efficiency. In addition,it uses a variable current chip to dynamically adjust the power according to traffic, reducingpower consumption of a chassis by 11%. The S9700 adopts the following energy-savingtechnologies:l Port sleeping: Idle ports enter the sleeping state to reduce power consumption.l Intelligent fan-speed adjustment: Fans are grouped into multiple zones and their fan speed

in each zone is adjusted individually based on service loads. This technology lowers powerconsumption, reduces noises, and extends the service life of fans.

l Energy Efficient Ethernet (IEEE 802.3az): Transceivers on line cards can quickly transitionto the lower power idle state to reduce power consumption when no traffic is beingtransmitted.



5

3 Application Scenarios

About This Chapter

3.1 Application of the S9700 on an Enterprise or Campus NetworkThis section describes the position of the S9700 on an enterprise or campus network.

3.2 Application of the S9700 in a Data CenterThis section describes the position of the S9700 in a data center.

S9700 Core Routing SwitchProduct Description 3 Application Scenarios


6

3.1 Application of the S9700 on an Enterprise or CampusNetwork

This section describes the position of the S9700 on an enterprise or campus network.

As shown in Figure 3-1, the S9700 is deployed at the core or aggregation layer of a campusnetwork to provide high performance, multi-service, and highly reliable enterprise network.

Figure 3-1 Position of the S9700 on an enterprise campus network

Internet

WebServer

E-mailServer

DNSServer

DMZ NMSS9700 S9700

WAN

BranchMobile Staff Partner

Aggregation Layer

ApplicationSecospace

TSM VoIPVideo

conference WLAN Camera

Access Layer

CSS link

Aggregation switch

SPU-VASP (firewall ) SPU-ACUCore switch

Access switch Router AP

The S9700 uses distributed forwarding architecture to build a high performance service platform,supporting long-term enterprise service development.

The S9700 supports wireless access, security, and network traffic modules, and can provideWLAN access while working as a core switch, reducing the network investment.

The S9700 supports hardware-based Ethernet OAM/BFD and hardware CPU queues to makenetwork more reliable and secure.



7

NOTE

S9700 V200R002 and earlier versions support ACU.

3.2 Application of the S9700 in a Data CenterThis section describes the position of the S9700 in a data center.

The S9700 functions as a high-density 10G core or aggregation node in a large-scale data center,helping an enterprise build a highly reliable, non-blocking, and green data center network.

Figure 3-2 Position of the S9700 in a data center

Egress router NE series

Core switch S9700

10 Gbit/s server

Aggregation switch S9700

Access switch S6700

WAN Internet

Firewall module

Load-balance Module

CSS link

Stack link

Aggregation link

As shown in Figure 3-2, on a data center network, NE routers function as the egress routers,S9700s function as core and aggregation switches to ensure network security and implementload balancing by using firewall and load balance service cards, and S6700s function as accessswitches to provide 10 Gbit/s access.

The S9700s use CSS technology to ensure high reliability. When a switch is faulty, the otherswitch takes over services on the faulty switch. The S9700s achieve link-level reliability byusing Eth-Trunk. Reliability protocols such as STP and VRRP are not required, configurationand maintenance are simplified, and configuration errors are reduced.



8

The S9700 employs various technologies including hardware-based OAM/BFD, VRRP, E-Trunk, ISSU, and IP FRR to ensure service continuity.

The S9700 supports 480 high-density 10GE ports and uses compact chassis and left-to-rear airchannels to increase cabling capability, reduce switch size, and reduce power consumption.



9

4 Hardware Architecture

About This Chapter

4.1 Appearance and Structure

4.2 Hardware Module

S9700 Core Routing SwitchProduct Description 4 Hardware Architecture


10

4.1 Appearance and Structure

4.1.1 S9700

NOTE

The figures in this document are for reference only.

AppearanceThe S9703 chassis is 4 U high (1 U = 44.45 mm). When the chassis has no cable managementframe installed, the dimensions are 442 mm x 489 mm x 175 mm (W x D x H). When the chassishas cable management frames installed, the dimensions are 442 mm x 585 mm x 175 mm (W xD x H). Figure 4-1 and Figure 4-2 show the S9703 chassis.

Figure 4-1 S9703 chassis (front view)

PWR1

PWR2

ON O

FF

RU

N

ALM FA

ULT

ON O

FF

RU

N

ALM FA

ULT

CLK1CLK2

MON CONSOLE ETHRST ACT RUN/ALM

RS485EH1D2MCUAC00

EH1D2MCUAC00

CLK1CLK2

MON CONSOLE ETHRST ACT RUN/ALM

RS485EH1D2MCUAC00

EH1D2MCUAC00

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

03

S9703

02

01

0405

≤25 kg（55 lb）

Figure 4-2 S9703 chassis (rear view)

≤25 kg（55 lb）

RUN/ALM

Hazardous moving parts, keeping fingers

and other body parts away.

Cle

an p

erio

dica

lly

NOTE

The S9703 chassis include FCC-certified chassis and common chassis.



11

The S9706 chassis is 10 U high (1 U = 44.45 mm). When the chassis has no cable managementframe installed, the dimensions are 442 mm x 489 mm x 441.7 mm (W x D x H). When thechassis has cable management frames installed, the dimensions are 442 mm x 585 mm x 441.7mm (W x D x H). Figure 4-3 and Figure 4-4 show the S9706 chassis.


04

03

02

01

08

07

06

05

1

CMUA

RS

485

MO

NA

CT

RU

N/A

LM

S9706

≤45 kg（99 lb）

2

CMUA

RS

485

MO

NA

CT

RU

N/A

LM

1

CMUA

RS

485

MO

NA

CT

RU

N/A

LM

PWR1PWR2

PWR3PWR4

CMU

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALMEH1D2G48TEA0

EH1D2G48TEA0

CLK2CON

ETH

RST

ACT RUN/ALMCLK1

SYNC

EH1D2SRUDC00

EH1D2SRUDC00

CLK2CON

ETH

RST

ACT RUN/ALMCLK1

SYNC

EH1D2SRUDC00

EH1D2SRUDC00

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF



12


≤75 kg（165 lb）

Cle

an p

erio

dica

lly

RUN/ALM



RUN/ALM



NOTE

S9706 chassis include FCC-certified chassis or common chassis.

The S9712 chassis is 15 U high (1 U = 44.45 mm). When the chassis has no cable managementframe installed, the dimensions are 442 mm x 489 mm x 663.95 mm (W x D x H). When thechassis has cable management frames installed, the dimensions are 442 mm x 585 mm x 663.95mm (W x D x H). Figure 4-5 and Figure 4-6 show the S9712 chassis.



13


S9712

≤75 kg（165 lb）

PWR1PWR2

PWR3PWR4

CMUPWR5

PWR6

12

11

10

09

08

07

06

05

04

03

02

01

14

13

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

2

CMUA

RS

485

MO

NA

CT

RU

N/A

LM

1

CMUA

RS

485

MO

NA

CT

RU

N/A

LM

CLK2CON

ETH

RST

ACT RUN/ALMCLK1

SYNC

EH1D2SRUDC00

EH1D2SRUDC00

CLK2CON

ETH

RST

ACT RUN/ALMCLK1

SYNC

EH1D2SRUDC00

EH1D2SRUDC00

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

12 3

4 56 7

8 910 11

12 1314 15

16 1718 19

20 2122 23

24 2526 27

28 2930 31

32 33

36 3734 35

38 3940 41

42 4344 45

4647

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFFONRUN

ALM

FAULT

OFF

ONRUN

ALM

FAULT

OFF



14


≤75 kg（165 lb）

RUN/ALM



RUN/ALM



RUN/ALM



Cle

an p

erio

dica

lly

RUN/ALM



NOTE

S9712 chassis include FCC-certified chassis or common chassis.

StructureFigure 4-7 shows the front structure of the S9703 chassis.



15

Figure 4-7 S9703 chassis structure (front view)

PWR1

S9703

PWR2

03

02

01

0405

RS485 MON CONSOLE ETHRST ACTSYNC RUN/ALM

CLK2CLK1

EH1D2MCUA00

EH1D2MCUA00

RS485 MON CONSOLE ETHRST ACTSYNC RUN/ALM

CLK2CLK1

EH1D2MCUA00

EH1D2MCUA00

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

1

2

3

8

273

ON

RU

N

ALM

FAU

LTO

FF

100-120V-;200-240V-;50/60Hz；15.5A

ON

RU

N

ALM

FAU

LTO

FF

100-120V-;200-240V-;50/60Hz；15.5A

4 6

Figure 4-8 shows the front structure of the S9706 chassis.


07

08

S9706

SYNC

CLK1 CLK2 CON ETH

RSTACT RUN/ALM

EH1D2SRUDC00

EH1D2SRUDC00

SYNC

CLK1 CLK2 CON ETH

RSTACT RUN/ALM

EH1D2SRUDC00

EH1D2SRUDC00

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

1

2

1

3

5 6

8

7

3

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

4

Figure 4-9 shows the front structure of the S9712 chassis.



16


SYNC

CLK1 CLK2 CON ETH

RSTACT RUN/ALM

EH1D2SRUDC00

EH1D2SRUDC00

SYNC

CLK1 CLK2 CON ETH

RSTACT RUN/ALM

EH1D2SRUDC00

EH1D2SRUDC00

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

RUN/ALM

EH1D2G48TEA0

EH1D2G48TEA0

1

1

3

2

5

8

7

3

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

ONRUN

ALM

FAULTOFF

100-120V-;200-240V-;50/60Hz；15.5A

4 4 6

1. Three/six/twelve servicecards, including:l Value-added service cardl Open Service Platform

Unit (OSPU)l 100M Interface Cardl 1000M Interface Cardl GE/10GE Interface Cardl 10GE Interface Cardl 40GE Interface Card

2. Two MPUs 3. A pair of mountingbracketsNOTE

The mounting brackets areused to secure the chassis in thecabinet.



17

4. Two/Four power modules 5. Two CMUs 6. Reserved slotNOTE

Install a filler panel in thereserved slot.

7. Front ESD jack

NOTEThe ground terminal of an ESDwrist strap can be inserted in thisjack. The ESD wrist strap canprovide ESD protection when thechassis is reliably grounded.

8. Cable management framesNOTE

Cable management frames areused to route cables.

-

Figure 4-10 shows the rear structure of the S9703 chassis.

Figure 4-10 S9703 chassis structure (rear view)

RUN/ALM



2

4

3

1




18


RUN/ALM



RUN/ALM



4

1

2

3

5




19


RUN/ALM



RUN/ALM



RUN/ALM



RUN/ALM



1

2

3

4

5

1. One/Two/Four fanmodules

2. Rear ESD jack

NOTEThe ground terminal of an ESDwrist strap can be inserted in thisjack. The ESD wrist strap canprovide ESD protection when thechassis is reliably grounded.

3. JG ground terminal

NOTEThe JG ground terminal is usedto ground the chassis.

4. Air filter

NOTE

The air filter prevents dust fromentering the chassis.

5. A pair of removable handles

NOTEYou can install these handles ontwo sides of the chassis to lift thechassis.

-



20

4.2 Hardware Module

This section describes the hardware module, including the backplane, MCU, SRU, LPU, CMUof the S9700.

Figure 4-13 shows the hardware logic structure of the S9703.

Figure 4-13 Hardware logic structure of the S9703

HighspeedSerdes

backplane

Materialinterfacemodule

Serviceprocessing

module

Main control module

Monitoringmodule

Clockmodule

LPUSystemclockmodule

Control plane communication module


Service layer softwareNMSManagement

layer softwareControl layer

software

System monitoring module

MCU

Figure 4-14 shows the hardware logic structure of the S9706 and S9712.



21

Figure 4-14 Hardware logic structure of the S9706 and S9712

HighspeedSerdes

backplane

Materialinterfacemodule

Serviceprocessing

module

Main control module

Monitoringmodule

Clockmodule

LPU

Switchingnetworkmodule

Systemclockmodule



Service layer softwareNMSManagement

layer softwareControl layer

software

System monitoring module

SRU

4.2.1 Cards Types

NOTE

l Interface cards consist of S series, E series, F series, B series, X1E series, and POS interface cards:

l The S series has SA interface cards, for example, 24-port 100M/1000M BASE-X optical interfacecard (SA, SFP)-32K MAC.

l The E series includes EA, EC, and ED interface cards, for example, 48-port 100M BASE-X opticalinterface card (EA, SFP)-32K MAC.

l The F series includes FA and FC interface cards, for example, 48-port 1000M BASE-T electricalinterface card (FA, RJ45)-32K MAC.

l The B series has BC interface cards, for example, 48-port 100M/1000M BASE-X optical interfacecard (BC, SFP)-128K MAC.

l The X1E series interface cards, for example, 48-Port 10/100/1000BASE-T Interface Card (X1E,RJ45).

l The POS interface cards include a WAN interface service processing card and its subcards P4CF,P4HF, and P1UF.

l All the S9700 cards have gained the FCC certificate except the EH1D2SRUDC00, EH1D2X02XEA0,EH1D2X02XEC0, EH1D2X04XEA0, EH1D2X04XEC0, EH1D2X04XED0, EH1D2X12SSA0, andEH1D2X08SED4.

l The FCC-certified cards must be used with the FCC-certified chassis.

l When a GE optical port is configured with a 100M/1000M optical module, the port works at 1000Mbit/s by default. When the GE optical port connects to a 100M optical port, run the speed auto-negotiation command to enable auto-negotiation on the GE optical port. The ports work at 100 Mbit/s after negotiation.

Table 4-1 lists the cards supported by the S9700.



22

Table 4-1 Cards supported by the S9700

Card Type Card Name CardDescription

MaximumPowerConsumption

Weight FCC-certified

MPU EH1D2SRUDC00

S9706/S9712 MainControl UnitD (OptionalClock)

180 W(includingthe clockdaughtercard)

2.90 kg No

EH1D2SRUC000

S9706/S9712 MainControl UnitC (OptionalClock)

132 W(includingthe clockdaughtercard and CSScard)

3.30 kg Yes

EH1D2SRUDC01

S9706/S9712 MainControl UnitD (OptionalClock) - FCC


2.90 kg Yes

EH1D2MCUAC00

MainControl UnitA (OptionalClock)


0.92 kg Yes

Subcard onthe MPU

LE0D00CKMA00

Clock PinchBoard

6 W 0.10 kg Yes

EH1D2VS08000

8-port 10GClusterSwitchingSystemService Unit(SFP+)

30 W 0.50 kg Yes

Value-addedservice card

LE0D0VAMPA00

Value-addedservice card

120 W 3.10 kg Yes

OSPU EH1D2PS00P00

OpenServicePlatformUnit

137.5 W 5.50 kg Yes

CMU EH1D200CMU00

CentralizedMonitoringUnit

1 W 0.22 kg Yes



23




LPU EH1D2F48SEA0

48-port100BASE-Xinterfacecard (EA,SFP)-32KMAC

64 W 2.54 kg Yes

EH1D2F48SEC0

48-port100BASE-Xinterfacecard (EC,SFP)-128KMAC

76 W 2.66 kg Yes

EH1D2F48TEA0

48-port10/100BASE-T interfacecard (EA,RJ45)-32KMAC

59 W 2.50 kg Yes

EH1D2F48TEC0

48-port10/100BASE-T interfacecard (EC,RJ45)-128KMAC

70 W 2.62 kg Yes

EH1D2G48SEA0

48-port100/1000BASE-Xinterfacecard (EA,SFP)-32KMAC

75 W 2.54 kg Yes

EH1D2G48SEC0

48-port100/1000BASE-Xinterfacecard (EC,SFP)-128KMAC

92 W 2.66 kg Yes



24




EH1D2G48SED0

48-port100/1000BASE-Xinterfacecard (ED,SFP)-512KMAC

110 W 2.66 kg Yes

EH1D2G48SFA0

48-port100/1000BASE-Xinterfacecard (FA,SFP)-32KMAC

65 W 2.60 kg Yes

EH1D2G48TEA0

48-port10/100/1000BASE-Tinterfacecard (EA,RJ45)-32KMAC

62 W 2.50 kg Yes

EH1D2G48TEC0

48-port10/100/1000BASE-Tinterfacecard (EC,RJ45)-128KMAC

68 W 2.62 kg Yes

EH1D2G48TED0

48-port10/100/1000BASE-Tinterfacecard (ED,RJ45)-512KMAC

98 W 2.62 kg Yes

EH1D2G48TFA0

48-port10/100/1000BASE-Tinterfacecard (FA,RJ45)-32KMAC

48 W 2.50 kg Yes



25




EH1D2T36SEA0

36-port10/100/1000BASE-T and12-port100/1000BASE-Xinterfacecard (EA,RJ45/SFP)-32KMAC

62 W 2.50 kg Yes

EH1D2X04XEA0

4-port10GBASE-X interfacecard (EA,XFP)-32KMAC

64 W 2.16 kg No

EH1D2X04XEC0

4-port10GBASE-X interfacecard (EC,XFP)-128KMAC

75 W 2.28 kg No

EH1D2X04XEC1

4-port10GBASE-X interfacecard (EC,XFP),FCC-128KMAC

75 W 2.28 kg Yes

EH1D2X04XED0

4-port10GBASE-X interfacecard (ED,XFP)-512KMAC

93 W 2.30 kg No

EH1D2X02XEA0

2-port10GBASE-X interfacecard (EA,XFP)-32KMAC

52 W 2.14 kg No



26




EH1D2X02XEC0

2-port10GBASE-X interfacecard (EC,XFP)-128KMAC

61 W 2.26 kg No

EH1D2X02XEC1

2-port10GBASE-X interfacecard (EC,XFP),FCC-128KMAC

61 W 2.26 kg Yes

EH1D2S24CEA0

24-port100/1000BASE-X and 8-port10/100/1000BASE-Tcombointerfacecard (EA,SFP/RJ45)-32KMAC

70 W 2.70 kg Yes

EH1D2G24SEC0

24-port100/1000BASE-Xinterfacecard (EC,SFP)-128KMAC

63 W 2.66 kg Yes

EH1D2G24SED0

24-port100/1000BASE-Xinterfacecard (ED,SFP)-512KMAC

75 W 2.66 kg Yes



27




EH1D2X12SSA0

12-port10GBASE-X interfacecard (SA,SFP+)-32KMAC

85 W 2.30 kg No

EH1D2T24XEA0

24-port10/100/1000BASE-T and2-port10GBASE-X interfacecard (EA,RJ45/XFP)-32KMAC

53 W 2.30 kg Yes

EH1D2S24XEA0

24-port100/1000BASE-X and 2-port10GBASE-X interfacecard (EA,SFP/XFP)-32KMAC

65 W 2.40 kg Yes

EH1D2S24XEC0

24-port100/1000BASE-X and 2-port10GBASE-X interfacecard (EC,SFP/XFP)-128KMAC

81 W 2.50 kg Yes

EH1D2G48SBC0

48-port100/1000BASE-Xinterfacecard (BC,SFP)-128KMAC

185 W 2.90 kg Yes



28




EH1D2G48TBC0

48-port10/100/1000BASE-Tinterfacecard (BC,RJ45)-128KMAC

160 W 2.90 kg Yes

EH1D2G24TFA0

24-port10/100/1000BASE-Tinterfacecard (FA,RJ45)-32KMAC

32 W 2.20 kg Yes

EH1D2X40SFC0

40-port10GBASE-X interfacecard (FC,SFP+)-128KMAC

183 W 2.90 kg Yes

EH1D2X16SFC0

16-port10GBASE-X interfacecard (FC,SFP+)-128KMAC

150 W 2.60 kg Yes

EH1D2X08SED4

8-port10GBASE-X interfacecard (ED,SFP+)-512KMAC

198.1 W 2.50 kg No

EH1D2X08SED5

8-port10GBASE-X interfacecard (ED,SFP+)-512KMAC

198.1 W 2.50 kg Yes



29




EH1D2L02QFC0

2-port40GBASE-X opticalinterfacecard (FC,QSFP+)-128KMAC

88 W 2.50 kg Yes

EH1D2L08QFC0

8-port40GBASE-X interfacecard (FC,QSFP+)-128KMAC

157.2 W 2.80 kg Yes

EH1D2G48TX1E

48-Port10/100/1000BASE-TInterfaceCard (X1E,RJ45)

120 W 2.92 kg Yes

EH1D2G48SX1E

48-Port100/1000BASE-XInterfaceCard (X1E,SFP)

140 W 3.04 kg Yes

EH1D2S04SX1E

4-Port10GBASE-X and 24-Port100/1000BASE-X and 8-Port10/100/1000BASE-TComboInterfaceCard (X1E,RJ45/SFP/SFP+)

130 W 2.88 kg Yes



30




EH1D2S08SX1E

8-Port10GBASE-X and 8-Port100/1000BASE-X and 8-Port10/100/1000BASE-TComboInterfaceCard (X1E,RJ45/SFP/SFP+)

130 W 2.84 kg Yes

EH1D2X48SEC0

48-Port10GBASE-X InterfaceCard (EC,SFP+)

300 W 3.42 kg Yes

ACU2 WLANACU2AccessControllerUnit (128 APControlResourceIncluded)NOTE

For details,see manualsof the ACU2card.

- - -

ET1D2FW00S00

NGFWModule A,with HWGeneralSecurityPlatformSoftwareNOTE

For details,see manualsof theNGFW card.

- - -



31




ET1D2FW00S01

NGFWModule B,with HWGeneralSecurityPlatformSoftwareNOTE


- - -

ET1D2FW00S02

NGFWModule C,with HWGeneralSecurityPlatformSoftwareNOTE


- - -

ET1D2IPS0S00

IPS ModuleA, with HWGeneralSecurityPlatformSoftwareNOTE

For details,see manualsof the IPScard.

- - -

POSinterfacecard

EH1D2WM00000

WANinterfaceserviceprocessingcard

l With twoP1UFs:84 W

l With twoP4HFs:91 W

l With twoP4CFs:86 W

3.80 kg (witha fireprotectionplate and twoP1UFs)

Yes



32




NOTESupportedonly inV200R001C00,V200R002C00, andV200R003C00

P4CF 4-portOC-3c/STM-1cPOS-SFPflexible card(installed onthe WANinterfaceserviceprocessingcard)

14 W 0.50 kg Yes

P4HF 4-portOC-12c/STM-4cPOS-SFPflexible card(installed onthe WANinterfaceserviceprocessingcard)

15 W 0.50 kg Yes

P1UF 1-portOC-48c/STM-16cPOS-SFPflexible card(installed onthe WANinterfaceserviceprocessingcard)

12 W 0.50 kg Yes

4.2.2 Power SupplyTable 4-2 lists power supplies supported by the S9700.



33

Table 4-2 Power supplies supported by the S9700

DeviceModel

SupportingPoE

1600 W DC 2200 W DC 800 W AC 2200 W AC

S9700 N N Y Y Y

For details about power supply configuration of the S9700, see S9700 Hardware Description -Chassis - Slot Configuration.



34

5 Product Performance

About This Chapter

5.1 Product Features

5.2 Performance Specifications

S9700 Core Routing SwitchProduct Description 5 Product Performance


35

5.1 Product FeaturesTable 5-1 lists features supported by the S9700.

Table 5-1 Features supported by the S9700

Feature Description

Ethernetfeatures

Ethernet Operating modes of full-duplex, half-duplex, and auto-negotiation

Rates of an Ethernet interface: 10 Mbit/s, 100 Mbit/s, 1000Mbit/s, 10 Gbit/s, 40 Gbit/s, and auto-negotiation

Flow control on interfaces

Jumbo frames

Link aggregation

Load balancing among links of a trunk

Transparent transmission of Layer 2 protocol packets

Device Link Detection Protocol (DLDP)

Link Layer Discovery Protocol (LLDP)

Link Layer Discovery Protocol-Media Endpoint Discovery(LLDP-MED)

Interface isolation and forwarding restriction

Broadcast storm suppression

VLAN Access modes of access, trunk, hybrid, QinQ, and LNP

Default VLAN

VLAN assignment based on interfaces, MAC addresses,protocols, and IP subnets

VLAN assignment based on the following policies:l MAC address + IP addressl MAC address + IP address + interface numberl DHCP policies

VLAN stacking for untagged packets

Super VLAN

VLAN mapping

Selective QinQ



36

Feature Description

MUX VLAN

Voice VLAN

Guest VLAN

GVRP Generic Attribute Registration Protocol (GARP)

GARP VLAN Registration Protocol (GVRP)

VCMP VLAN Central Management Protocol (VCMP)

MAC Automatic learning and aging of MAC addresses

Static, dynamic, and blackhole MAC address entries

Packet filtering based on source MAC addresses

Interface-based MAC learning limiting

Sticky MAC address entries

MAC address flapping detection

Configuring MAC address learning priorities for interfaces

Port bridge

ARP Static and dynamic ARP entries

RARP

ARP in a VLAN

Aging of ARP entries

Proxy ARP

Multi-port ARP for connecting to the NLB cluster server

Ethernetloopprotection

MSTP STP

RSTP

MSTP

BPDU protection, root protection, and loop protection

TC-BPDU attack defense

STP loop detection

VBST

Loopback-detect

Loop detection on an interface

SEP Smart Ethernet Protection (SEP)



37

Feature Description

Smart Link Smart Link

Smart Link multi-instance

Monitor Link

RRPP RRPP protective switchover

Single RRPP ring, tangent RRPP ring, and intersecting RRPPring

Hybrid networking of RRPP rings and other ring networks

ERPS G.8032 v1/v2

Single closed ring

Subring

IPv4/IPv6forwarding

IPv4 andunicast routes

Static IPv4 routes

VRF

DHCP client

DHCP server

DHCP relay

URPF check

Routing policies

RIPv1/RIPv2

OSPF

BGP

MBGP

IS-IS

PBR (redirection in a traffic policy)

Multicastroutingfeatures

IGMPv1/v2/v3

PIM-DM

PIM-SM

PIM-SSM

MSDP

Multicast routing policies

RPF



38

Feature Description

IPv6 features IPv6 protocol stack

ND and ND snooping

DHCPv6 snooping

RIPng

DHCPv6 server

DHCPv6 relay

OSPFv3

BGP4+ & ISIS for IPv6

VRRP6

MLDv1 and MLDv2

PIM-DM for IPv6

PIM-SM for IPv6

PIM-SSM for IPv6

Transitiontechnology

4 over 6 tunnel

6 over 4 tunnel

6PE

Layer 2multicastfeatures

- IGMPv1/v2/v3 snooping

Fast leave

IGMP snooping proxy

MLD snooping

Interface-based multicast traffic suppression

Inter-VLAN multicast replication

Controllable multicast

MPLS&VPN

Basic MPLSfunctions

LDP

Double MPLS labels

Mapping from DSCP to EXP priorities in MPLS packets

Mapping from 802.1p priorities to EXP priorities in MPLSpackets

MPLS TE MPLS TE tunnel

MPLS TE protection group



39

Feature Description

MPLS OAM LSP ping and LSP traceroute

Automatic detection of LSP faults

1+1 protection switchover of LSPs

VPN Multi-VPN-Instance CE (MCE)

VLL in SVC, Martini, CCC, and Kompella modes

VLL FRR

VPLS

MPLS L3VPN

HVPLS in LSP and QinQ modes

Devicereliability

BFD Basic BFD functions

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

BFD for PIM

BFD for VRRP

BFD for VLL FRR

CSS Cluster card supporting CSS

Service interface supporting CSS

Others VRRP

EthernetOAM

EFM OAM(802.3ah)

Automatic discovery

Link fault detection

Link fault troubleshooting

Remote loopback

CFM OAM(802.1ag)

Software-level CCM

MAC ping

MAC trace

OAMassociation

Association between 802.1ag and 802.1ah

Association between 802.1ah and 802.1ag

Y.1731 Delay and variation measurement

QoSfeatures

Trafficclassifier

Traffic classification based on ACLs



40

Feature Description

Traffic classification based on outer 802.1p priorities, innerVLAN IDs, outer VLAN IDs, source MAC addresses, andEthernet types

Traffic classification based on inner 802.1p priorities

Trafficbehavior

Access control after traffic classification

Traffic policing based on traffic classification

Re-marking based on traffic classification

Class-based packet queuing

Associating traffic classifiers with traffic behaviors

Trafficpolicing

Rate limit on inbound and outbound interfaces

Trafficshaping

Traffic shapping on interfaces and queues

Congestionavoidance

Weighted Random Early Detection (WRED)

Tail drop

Congestionmanagement

Queue mapping

Priority Queuing (PQ)

Deficit Round Robin (DRR)

PQ+DRR

Weighted Round Robin (WRR)

PQ+WRR

Configuration andmaintenance

Login andconfigurationmanagement

Command line configuration

Error message and help information in English and Chinese

Login through console and Telnet terminals

SSH1.5/SSH2

Send function and data communication between terminal users

Hierarchical user authority management and commands

SNMP-based NMS management (eSight)

Web page-based configuration and management

Easy-Deploy (client)

Easy-Deploy (commander)



41

Feature Description

Easy deployment and maintenance

File system File system

Directory and file management

File upload and download through FTP, TFTP, SFTP, SCP,and FTPS

Monitoringandmaintenance

Hardware monitoring

Reporting alarms on abnormal device temperature

Second-time fault detection to prevent detection errors causedby instant interference

Version matching check

Information center and unified management over logs, alarms,and debugging information

Electronic labels, and command line query and backup

Virtual cable test (VCT)

User operation logs

Detailed debugging information for network fault diagnosis

Network test tools such as traceroute and ping commands

Port mirroring, flow mirroring, and remote mirroring

Energy saving

Clock features (S9700 supports only Ethernet clocksynchronization)

Versionupgrade

Device software loading and online software loading

BootROM online upgrade

Remote in-service upgrade

In-service patching

Security AAA Local authentication and authorization

RADIUS authentication, authorization, and accounting

HWTACACS authentication, authorization, and accounting

Destination Address Accounting (DAA)

NAC 802.1x authentication

MAC address authentication



42

Feature Description

Portal authentication

MAC address bypass authentication

PPP over Ethernet (PPPoE)

ARP security ARP packet rate limiting based on source MAC addresses

ARP packet rate limiting based on source IP addresses,interfaces, and VLANs, and global ARP packet rate limiting

ARP anti-spoofing

Association between ARP and STP

ARP gateway anti-collision

Dynamic ARP Inspection (DAI) and Static ARP Inspection(SAI)

Egress ARP Inspection (EAI)

IP security TC-BPDU attack defense

IP source guard

CPU attackdefense

CPU attack defense

MFF MAC-Forced Forwarding (MFF)

DHCPsnooping

DHCP snooping

Option 82 function and dynamic rate limiting for DHCPpackets

Attack defense Defense against flood attacks without IP payloads, attacksfrom IGMP null payload packets, LAND attacks, Smurfattacks, and attacks from packets with invalid TCP flag bits

Defense against attacks from many fragments, attacks frommany packets with offsets, attacks from repeated packetfragments, Tear Drop attacks, Syndrop attacks, NewTearattacks, Bonk attacks, Nesta attacks Rose attacks, Fawxattacks, Ping of Death attacks, and Jolt attacks

Defense against TCP SYN flood attacks, UDP flood attacks(including Fraggle attacks and UDP diagnosis port attacks),and ICMP flood attacks

Networkmanagement

- Ping and traceroute

NQA

Network Time Protocol (NTP)



43

Feature Description

sFlow

NetStream

NAT (SPU)

Load Balance (SPU)

SNMP v1/v2c/v3

Standard MIB

HTTP

Hypertext Transfer Protocol Secure (HTTPS)

Remote network monitoring (RMON)

RMON2

WLAN - AP Management Specifications

Radio Management Specifications

WLAN Service Management Specifications

QOS

WLAN Security Specifications

WLAN user management specifications

5.2 Performance Specifications

Table 5-2 Performance specifications of the S9700

Attribute Service Feature Specifications

Ethernet Number of MAC addresses supportedby each LPU

l ED board: 512Kl EC/BC/FC board: 128K (288K

on EH1D2X48SEC0)l EA/SA/FA board: 32Kl X1E board: 1M

Number of VLANs 4K

Number of trunk groups and number ofinterfaces supported by each trunk group

A maximum of 512 trunk groups onthe entire equipment, each of whichsupports 32 interfaces



44


Number of ARP entries supported byeach LPU

l EA/EC/BC/ED board: 16K(44K on EH1D2X48SEC0)

l SA/FA/FC board: 8K (16K onEH1D2L02QFC0 andEH1D2L08QFC0)

l X1E board: 256K

QoS Number of QoS queues on a port 8

CAR l ED/EC/BC/EA/FA/FC/X1Eboard: 8 Kbit/s

l SA (EH1D2G24SSA0/EH1D2S24CSA0) board: 64Kbit/s

l SA (EH1D2X12SSA0) board: 8Kbit/s

l X1E board: 1K

ACL ACLv4 Number of IPv4 ACLs supportedby each LPU:l ED board: 70K for inbound

traffic; 1K for outbound trafficl EC/BC board: 38K for inbound

traffic; 1K for outbound traffic,in which EH1D2X48SEC0supports 3K for inbound trafficand 1K for outbound traffic

l EA board: 6K for inboundtraffic; 1K for outbound traffic

l FC board: 1K for inboundtraffic; 512 for outbound traffic

l FA board: 1.5K for inboundtraffic; 256 for outbound traffic

l SA (EH1D2G24SSA0/EH1D2S24CSA0) board: 3Kfor inbound traffic; 512 foroutbound traffic

l SA (EH1D2X12SSA0) board:1.5K for inbound traffic; 512 foroutbound traffic

l X1E board: 64K for inboundand outbound traffic

l OSP: 6K for inbound traffic; 1Kfor outbound traffic



45


ACLv6 Number of IPv6 ACLs supportedby each LPU:l ED board: 67K for inbound

traffic; 256 for outbound trafficl EC/BC board: 35K for inbound

traffic; 256 for outboundtraffic, in whichEH1D2X48SEC0 supports1.5K for inbound traffic and 256for outbound traffic

l EA board: 3K for inboundtraffic; 256 for outbound traffic

l FA board: 512 for inboundtraffic; 128 for outbound traffic

l FC board: 512 for inboundtraffic; 128 for outbound traffic

l SA (EH1D2G24SSA0/EH1D2S24CSA0) board: 1Kfor inbound traffic; 128 foroutbound traffic

l SA (EH1D2X12SSA0) board:512 for inbound traffic; 128 foroutbound traffic

l X1E board: 16K for inboundand outbound traffic

l OSP: 3K for inbound traffic;256 for outbound traffic

MPLS Number of LSPs l ED/EC/BC/EA board: 8Kl FC/FA board: 4Kl Others: not supported

Number of LDP neighbors l ED/EC/BC/EA/FC board: 512local neighbors, 1024 remoteneighbors

l FA board: 64 local neighbors,1024 remote neighbors

l Others: not supported

L2VPN Number of VLL entries l S9706/S9712: 4Kl S9703: 2K

Number of VSI entries 1K

L3VPN Number of VRFs 2K



46


Number of VPN routes l S9706/S9712: 500,000l S9703: 140,000

IP unicast Number of routing entries l S9706/S9712: 1000Kl S9703: 300K

IPv4 FIB l ED board: 512Kl EC/BC card: 128K, in which

EH1D2X48SEC0 supports 12Kl EA board: 16Kl SA/FA board: 12Kl FC board: 16Kl X1E board: 1M

IPv6 FIB l ED board: 256Kl EC/BC card: 64K, in which

EH1D2X48SEC0 supports 7Kl EA board: 8Kl SA/FA board: 6Kl FC board: 8Kl X1E board: 512K

Multicast Number of static multicast routes 256

Number of L2 multicast forwardingentries

4K

Number of L3 multicast forwardingentries

l ED/EC/BC/EA/FA board: 4Kl SA board: 2Kl X1E series board: (S9712/

S9706): 128K (PIM), 64K(IGMP)

l X1E series board: (S9703): 4K

Reliability BFD l BFD sessions: 2000l Minimum fault discovery

interval: less than 50 ms



47


Ethernet OAM l 802.1agUp to 64 MDs can be created onthe entire system.The number of MAs on theentire system is as follows:

– S9706/S9712: 4K

– S9703: 2KMinimum detection time: 3.3ms

l 802.3ahDetection time: 1s

l Y.1731: microsecond-levellatency measurement

RRPP l Maximum number of RRPPinstances: 64

l Rings supported by the entiresystem: 64

l Rings supported by each LPU:12 major rings, 18 subrings

l Maximum number of RRPPdomains: 64

VRRP l VRRP backup groups on theentire system: 256

l Virtual IP addresses in eachVRRP backup group: 16

l Switchover time: less than 50ms when BFD for VRRP isenabled

SmartLink l Maximum number of instanceson the entire system: 64

l Maximum number of SmartLink groups on the entiresystem: 16

l Switchover time: less than 50ms

MSTP l Maximum number of instanceson the entire system: 64

l Switchover time: second level



48


SEP l Maximum number of segmentson the entire system: 256

l Convergence time: less than 50ms



49

6 Technical Specifications

About This Chapter

6.1 Physical Specifications

6.2 System Configuration

6.3 Standards Compliance

S9700 Core Routing SwitchProduct Description 6 Technical Specifications


50

6.1 Physical Specifications

Table 6-1 Physical specifications of the S9700

Item S9712 S9706 S9703

Dimensions(W x D x H,excluding therack-mountingears)

l With cablemanagementframes: 442 mm x585 mm x 663.95mm (15 U high)

l Without cablemanagementframes: 442 mm x489 mm x 663.95mm (15 U high)

l With cablemanagementframes: 442 mm x585 mm x 441.7mm (10 U high)

l Without cablemanagementframes: 442 mm x489 mm x 441.7mm (10 U high)

l With cablemanagementframes: 442 mm x585 mm x 175 mm(4 U high)

l Without cablemanagementframes: 442 mm x489 mm x 175 mm(4 U high)

Cabinet N66E or N68E N66E or N68E N66E or N68E

Maximumpower (fullconfiguration)NOTE

The heatdissipationvalue of adevice equalsthe currentpowerconsumptionof the device.

4400W 2200W 1100W

Weight(empty/fullyloaded)

37 kg/70 kg 29 kg/45 kg 11 kg/25 kg

Noise atnormaltemperature

≤ 72 dBA

Powerspecifications

l DC input voltage

– Rated voltage: -48 V DC/-60 V DC

– Voltage range: -38.4 V DC to -72 V DCl AC input voltage

– Rated voltage: 110 V AC/220 V AC, 50/60 Hz

– Voltage range: 90 V AC to 290 V AC; 47 Hz to 63 Hz (The outputpower reduces to half of the maximum output when the input voltageis in the range of 90 V AC to 175 V AC.)



51

Item S9712 S9706 S9703

Environmentparameters

l Operating temperature and altitude:

– -60 m to +1800 m: 0°C to 45°C

– 1800 m to 4000 m: Temperature decreases by 1°C every time thealtitude increases 220 m.

– 4000 m: 0°C to 35°Cl Operating relative humidity: 5% RH to 95% RH (noncondensing)l Storage temperature: -40°C to +70°Cl Storage altitude: < 5000 ml Storage relative humidity: 5% RH to 95% RH (noncondensing)

NOTE

The temperature and humidity are measured 1.5 m above the floor and 0.4 m at the front of the cabinet.There should be no protection board at the front or back of the cabinet.

6.2 System Configuration

Table 6-2 System configuration of the S9700

Item S9712 S9706 S9703 Notes

Processor 1.2GHz(Dominantfrequency)

1.2GHz(Dominantfrequency)

500 MHz(Dominantfrequency)

-

DDR3SDRAM

2GB 2GB 512 MB -

FlashMemory

128MB 128MB Standard 64 MB,scalable to 128MB

-

CF card 512 MB 512 MB 512 MB The CF cardserves as amass storagedevice to savedata files andlogs.

Number ofLPU slots

12 6 3 LPU(Optional)

Number ofSRU/MCUslots

2 2 2 S9706/S9712:SRUS9703: fullmesh



52

Item S9712 S9706 S9703 Notes

Maximumportdensity

288xFE, 288xGE,288x10GE,48x40GE

576xFE, 576xGE,576x10GE,96x40GE

144xFE, 144xGE,144x10GE,24x40GE

-

6.3 Standards Compliance

Table 6-3 IEEE

Standard Description

802.1 802.1d Spanning Tree Protocol

802.1p IEEE Standards for Local and Metropolitan Area Networks: VirtualBridged Local Area Networks

802.1q Virtual Bridged Local Area Networks

802.1s Multiple Spanning Tree Protocol

802.1w Rapid Spanning Tree Protocol

802.1x Port based network access control protocol

802.3 802.3 Carrier Sense Multiple Access with Collision Detection (CSMA/CD)access method and physical layer specifications

802.3ad Aggregation of Multiple Link Segments

802.3ab Physical Layer Parameters and Specifications for 1000 Mb/s OperationOver 4 Pair of Category 5 Balanced Copper Cabling, Type 1000BASE-T

802.3ae 10GE WAN/LAN

802.3u 100Base-T

802.3x Full Duplex and flow control

802.3z Gigabit Ethernet Standard, 1000BASE-X

Table 6-4 RFC

Feature Standard Description

GeneralRoutingProtocols

RFC 768 User Datagram Protocol (UDP)

RFC 791 Internet Protocol (IP)

RFC 792 Internet Control Message Protocol (ICMP)



53


RFC 793 Transmission Control Protocol (TCP)

RFC 826 Address Resolution Protocol (ARP)

RFC 854 Telnet Protocol Specification

RFC 894 Standard for the transmission of IP datagrams over Ethernetnetworks. C. Hornig. Apr-01-1984. (Format: TXT=5697 bytes)(Also STD0041) (Status: STANDARD)

RFC 951 Bootstrap Protocol

RFC 1542 Clarifications and Extensions for the Bootstrap Protocol

RFC 1027 Using ARP to Implement Transparent Subnet Gateways

RFC 1122 Requirements for Internet Hosts - Communication Layers

RFC 1256 ICMP Router Discovery Messages

RFC 1519 Classless Inter-Domain Routing (CIDR): an AddressAssignment and Aggregation Strategy

RFC 1812 Requirements for IP Version 4 Routers

RFC 2131 Dynamic Host Configuration Protocol

RFC 2338 Virtual Router Redundancy Protocol (VRRP)

BGP RFC 1269 Definitions of Managed Objects for the Border GatewayProtocol: Version 3

RFC 1771 A Border Gateway Protocol 4 (BGP-4)

RFC 1965 Autonomous System Confederations for BGP

RFC 1966 BGP Route-Reflection

RFC 1997 BGP Community Attribute

RFC 2385 TCP MD5

RFC 2439 BGP Route Flap Damping

RFC 2796 BGP Route Reflection

RFC 2842 Capabilities Advertisement with BGP-4

IPMulticast

RFC 1112 Host extensions for IP multicasting

RFC 1122 Requirements for Internet Hosts - Communication Layers

RFC 2236 Internet Group Management Protocol, Version 2

RFC 2283 Multiprotocol Extensions for BGP-4



54


RFC 2362 Protocol Independent Multicast-Sparse Mode (PIM-SM):Protocol Specification

draft-ietf-pim-dm-new-v2-02

Protocol Independent Multicast - Dense Mode (PIM-DM)

IS-IS RFC 1195 Use of OSI IS-IS for Routing in TCP/IP and Dual Environments

RFC 2763 Dynamic Hostname Exchange Mechanism for IS-IS

RFC 2966 Domain-wide Prefix Distribution with Two-Level IS-IS

MPLS RFC 2211 Specification of the Controlled-Load Network Element Service

RFC 2702 Requirements for Traffic Engineering Over MPLS

RFC 2547 BGP/MPLS VPNs

RFC 2961 RSVP Refresh Overhead Reduction Extensions

RFC 3031 Multiprotocol Label Switching Architecture

RFC 3032 MPLS Label Stack Encoding

RFC 3036 LDP Specification

OSPF RFC 1583 OSPF Version 2 (obsoletes RFC 1247/obsoleted by RFC 2178)

RFC 1587 The OSPF NSSA Option

RFC 1765 OSPF Database Overflow

RFC 1850 OSPF Version 2 Management Information Base

RFC 1997 BGP Community Attribute

RFC 2178 OSPF Version 2 (obsoletes RFC 1583/obsoleted by RFC 2328)

RFC 2328 OSPF Version 2 (obsoletes RFC 2178)

RFC 2370 The OSPF Opaque LSA Option

RFC 2385 TCP MD5

RFC 2439 BGP Route Flap Damping

RFC 2842 Capabilities Advertisement with BGP-4

RFC 2918 Route Refresh Capability for BGP-4

RIP RFC 1058 Routing Information Protocol

RFC 2453 RIP Version 2



55


Denial-of-Service(DoS)Protection

RFC 2267 Network Ingress Filtering: Defeating Denial of Service Attackswhich employ IP Source Address Spoofing (Obsolete)

NetworkManagement

RFC 854 Telnet Protocol Specification

RFC 951 Bootstrap Protocol

RFC 1155 Structure and identification of management information for TCP/IP-based internets

RFC 1157 A Simple Network Management Protocol (SNMP)

RFC 1212 Concise MIB Definitions

RFC 1213 Management Information Base for Network Management ofTCP/IP-based internets: MIB-II

RFC 1215 A Convention for Defining Traps for use with the SNMP

RFC 1256 ICMP Router Discovery Messages

RFC 1493 Definitions of Managed Objects for Bridges

RFC 1573 Evolution of the Interfaces Group of MIB-II

RFC 1643 Definitions of Managed Objects for the Ethernet-like InterfaceTypes

RFC 1650 Definitions of Managed Objects for the Ethernet-like InterfaceTypes using SMIv2

RFC 1657 Basic BGP4 MIB

RFC 1724 RIP Version 2 MIB Extension

RFC 1757 Remote Network Monitoring Management Information Base

RFC 1850 OSPF Version 2 Management Information Base

RFC 1901 Introduction to Community-based SNMPv2

RFC 1907 Management Information Base for Version 2 of the SimpleNetwork Management Protocol (SNMPv2)

RFC 2021 Remote Network Monitoring Management Information BaseVersion 2 using SMIv2

RFC 2233 The Interfaces Group MIB using SMIv2

RFC 2668 Definitions of Managed Objects for IEEE 802.3 MediumAttachment Units (MAUs)

RFC 2787 Definitions of Managed Objects for the Virtual RouterRedundancy Protocol



56


RFC 2925 Definitions of Managed Objects for Remote Ping, Traceroute,and Lookup Operations

Security RFC 1492 An Access Control Protocol, Sometimes Called TACACS

draft-grant-tacacs-02

TACACS+

RFC 2138 Remote Authentication Dial In User Service (RADIUS)



57

product description · huawei technologies co., ltd. ... (rssi) and signal-to-noise ratio (snr) are...

Documents