S9300 链路聚合特性介绍 V1[1].00-20090219-B

为了在交换机上实现VLAN 间通信，需要为每个VLANIF 接口配置一个IP 地址，以实现VLAN 间路由。

如果VLAN 很多，将占用许多IP 地址资源。

VLAN 聚合（VLANaggregation）可以解决多个VLAN 占用多个IP 地址的问题。

VLAN 聚合是将多个VLAN 集中在一起，形成一个Super-VLAN。

组成Super-VLAN 的VLAN 被称作Sub-VLAN。

可以创建一个VLANIF 接口，使其对应一个Super-VLAN，只在该接口上配置IP 地址，不必为每个Sub-VLAN 分配IP 地址，所有Sub-VLAN 共用IP 网段，从而解决IP 地址使用效率的问题。

【**配置VLAN聚合**】1 建立配置任务2 配置Sub-VLAN3 创建Super-VLAN4 配置VLANIF 接口的IP 地址5 （可选）配置Super-VLAN 的Proxy ARP6 检查配置结果【1 建立配置任务】应用环境：VLAN 聚合（VLAN aggregation）用于解决多个VLAN 占用多个IP 地址的问题。

如图3-3 所示，VLAN 聚合将多个VLAN 集中在一起，形成一个super-VLAN。

组成super-VLAN 的VLAN 被称作sub-VLAN，所有sub-VLAN 共用一个IP 网段。

图1 VLAN 聚合应用场景图【2 配置Sub-VLAN】步骤1 执行命令system-view，进入系统视图。

步骤2 执行命令vlan vlan-id，创建VLAN 并进入VLAN 视图。

步骤3 执行命令port interface-type { interface-number1 [ to interface-number2 ] } &<1-10>，配置VLAN 包含的端口。

【3 创建Super-VLAN】步骤1 执行命令system-view，进入系统视图。

步骤2 执行命令vlan vlan-id，创建VLAN 并进入VLAN 视图。

华为S9300核心交换机链路聚合配置实例配置静态LACP模式链路聚合示例组网需求如图1所示，在两台S9300设备上配置静态LACP模式链路聚合组，提高两设备之间的带宽与可靠性，具体要求如下：•2条活动链路具有负载分担的能力。

•两设备间的链路具有1条冗余备份链路，当活动链路出现故障链路时，备份链路替代故障链路，保持数据传输的可靠性。

图1 配置静态LACP模式链路聚合组网图配置思路采用如下的思路配置静态LACP模式链路聚合：1.在S9300设备上创建Eth-Trunk，配置Eth-Trunk为静态LACP模式。

2.将成员接口加入Eth-Trunk。

3.配置系统优先级确定主动端。

4.配置活动接口上限阈值。

5.配置接口优先级确定活动链路。

数据准备为完成此配置例，需准备如下的数据：•两端S9300设备链路聚合组编号。

•S9300-A系统优先级。

•活动接口上限阈值。

•活动接口LACP优先级。

操作步骤1.创建编号为1的Eth-Trunk，配置它的工作模式为静态LACP模式# 配置S9300-A。

<Quidway> system-view[Quidway] sysname S9300-A[S9300-A] interface eth-trunk 1[S9300-A-Eth-Trunk1] mode lacp-static[S9300-A-Eth-Trunk1] quit# 配置S9300-B。

<Quidway> system-view[Quidway] sysname S9300-B[S9300-B] interface eth-trunk 1[S9300-B-Eth-Trunk1] mode lacp-static[S9300-B-Eth-Trunk1] quit2.将成员接口加入Eth-Trunk# 配置S9300-A。

[S9300-A] interface gigabitethernet 1/0/1[S9300-A-Gigabitethernet1/0/1] eth-trunk 1[S9300-A-Gigabitethernet1/0/1] quit[S9300-A] interface gigabitethernet 1/0/2[S9300-A-Gigabitethernet1/0/2] eth-trunk 1[S9300-A-Gigabitethernet1/0/2] quit[S9300-A] interface gigabitethernet 1/0/3[S9300-A-Gigabitethernet1/0/3] eth-trunk 1[S9300-A-Gigabitethernet1/0/3] quit# 配置S9300-B。

SOM-SM9300 核心板用户手册版本1.0–2016年10月版权声明：●SOM-SM9300核心板及其相关知识产权由深圳市英蓓特科技有限公司所有。

●本文档由深圳市英蓓特科技有限公司版权所有，并保留一切权利。

在未经英蓓特公司书面许可的情况下，不得以任何方式或形式来修改、分发或复制本文档的任何部分。

免责声明：●产品附带光盘所提供的程序源代码、软件、资料文档等，深圳市英蓓特有限公司不提供任何类型的担保；不论是明确的，还是隐含的，包括但不限于合适特定用途的保证，全部的风险，由使用者来承担。

版本更新记录：版本更新日期描述1.0 2016-10-18 初始版本目录第1章产品概述 (1)1.1产品简介 (1)1.1.1包装内容 (2)1.1.2产品特性 (2)1.2接口和按钮 ...................................................................... 错误！未定义书签。

1.3系统框图 (4)1.4产品尺寸(mm) (5)第2章硬件系统简介 (6)2.1SOM-SM9300简介 (6)2.2外围芯片介绍 (6)2.2.1MT41K128M16JT-125:K (6)2.2.2EMMC04G-S100 (6)2.2.3MMPF0100NPAEPR2 (7)2.2.4AR8035 (7)2.3接口详述 (7)2.3.1SAMRC接口 (7)技术支持和保修服务 (22)第1章产品概述1.1 产品简介SMARC标准是SGeT组织定义的一个面向低功耗、低成本、高性能的多用途小型计算机模块，设计符合SMARC标准的计算机模块的典型运用方案是ARM SOC或者是与之类似的架构方案如智能电话等。

SMARC标准的计算机模块典型设计功耗在6W以下，不过在一些极端的设计中，SMARC模块可以支持到最高15W的功率设计。

SOM-SM9300是英蓓特推出的基于NXP iMX6系列CPU的SMARC标准模块。

Realize Your Potential华为技术有限公司Huawei S9300系列交换机详版彩页01 Huawei S9300系列交换机Huawei S9300系列是华为公司面向融合多业务的网络架构而推出的新一代高端智能T比特核心路由交换机。

该产品基于华为公司智能多层交换的技术理念，在提供稳定、可靠、安全的高性能L2/L3层交换服务S9303 S9306 S9312S9310产品特点S9300敏捷交换机，让网络更敏捷地为业务服务• S9300 敏捷单板内置高速灵活的以太网络处理器ENP，针对以太网专属设计。

借其灵活的报文处理及流量控制能力，深入贴近业务，满足现在及未来的各种挑战，助力客户构建弹性扩展的网络。

ENP芯片采用全可编程架构，可以完全自定义流量的转发模式、转发行为和查找算法。

通过微码编程实现新业务，客户无需更换新的硬件，快速灵活，6个月即可上线，而传统AS I C 芯片采用固定的转发架构和转发流程，新业务无法快速部署，需要等待1～3年的硬件支持。

• 凭借敏捷单板，S9300支持统一用户管理功能，屏蔽了接入层设备能力和接入方式的差异，支持802.1X/ MAC/Portal等多种认证方式，支持对用户进行分组/分域/分时的管理，用户、业务可视可控，实现了从“以设备管理为中心”到“以用户管理为中心”的飞跃。

• 凭借敏捷单板，S9300支持iPCA网络包守恒算法，改变了传统利用模拟流量做故障定位的检测模型，可对任意业务流随时随地逐点检测网络质量，无需额外开销；可在短时间内立刻检测业务闪断性故障，检测直接精准到故障端口，实现从“粗放式运维”到“精准化运维”的大转变。

• 凭借敏捷单板，S9300支持1588v2和同步以太，满足网络设备间的高精度时间同步，相比GPS的时间不同方案，提升安全的同时降低成本。

创新的CSS集群技术• S9300可通过集群卡连接和业务口连接两种方式实现虚拟化。

CSS集群创新性采用交换网集群技术，提供业界主机间最大的320G集群带宽；业务口集群支持成员机通过LPU上的普通业务口连接，将LPU上的业务口配置为堆叠物理成员端口后加入逻辑堆叠端口，通过SFP+光模块和光纤或SFP+堆叠线缆将堆叠物理成员端口连接。

Content (1)Overview (2)Appearance (2)Nexus 9300 switches characteristics (3)Cisco NX-OS Software Overview (7)Specification of Nexus 9300 series switches (9)Base model ordering information (12)Sources (12)Email:***********************(SalesInquiries)******************************(CCIETechnicalSupport)ROUTER SWITCH LIMITED 1The Cisco Nexus® 9000 Series Switches include both modular and fixed-port switches that are designed to overcome these challenges with a flexible, agile, low-cost, application-centric infrastructure.The Cisco Nexus 9300 platform consists of fixed-port switches designed for top-of-rack (ToR) and middle-of-row (MoR) deployment in data centers that support enterprise applications, service provider hosting, and cloud computing environments. They are Layer 2 and 3 nonblocking 10 and 40 Gigabit Ethernet switches with up to 2.56 terabits per second (Tbps) of internal bandwidth. (Figure 1).Figure 1. Cisco Nexus 9300 Series SwitchesROUTER SWITCH LIMITED 2Table 1. Fixed-Port SwitchesROUTER SWITCH LIMITED 3ROUTER SWITCH LIMITED 4Table 2. Switches with Uplink Module SlotROUTER SWITCH LIMITED 5Table 3. Cisco Nexus 9300 Platform Switch FeaturesROUTER SWITCH LIMITED 6CISCO NX-OS SOFTWARE OVERVIEWNX-OS is a purpose-built data center operating system designed for performance, resiliency, scalability, manageability, and programmability at its foundation. It provides a robust and comprehensive feature set that meets the demanding requirements of virtualization and automation in present and future data centers.The Cisco Nexus 9000 Series uses an enhanced version of NX-OS with a single binary image that supports every switch in the series, simplifying image management. The operating system is modular, with a dedicated process for each routing protocol, a design that isolates faults while increasingROUTER SWITCH LIMITED7availability. In the event of a process failure, the process can be restarted without losing state. The operating system supports hot and cold patching and online diagnostics.Main features include the following:·Power-On Auto Provisioning (POAP) automates the process of upgrading software images and installing configuration files on Cisco Nexus switches that are being deployed in the network for the first time.·Intelligent API (iAPI) provides operators with a way to manage the switch through remote procedure calls (RPCs; JavaScript Object Notation [JSON] or XML) over HTTP/HTTPS infrastructure.·Patching allows NX-OS to be upgraded and patched without any interruption in switch operations.·Line-rate overlay support provides Virtual Extensible LAN (VXLAN) bridging and routing at full line rate, facilitating and accelerating communication between virtual and physical servers as well as between multiple data centers in a campus environment.·Network traffic monitoring with Cisco Nexus Data Broker builds simple, scalable, and cost-effective network taps or Cisco Switched Port Analyzer (SPAN) aggregation for network traffic monitoring and analysis.·Cisco Intelligent Traffic Director allows customers to build a highly scalable and flexible solution for hardware-based Layer 4 load balancing and traffic steering.The software packaging for the Cisco Nexus 9000 Series offers flexibility and a comprehensive feature set while being consistent with Cisco Nexus access switches. The default system software has a comprehensive Layer 2 security and management feature set. To enable additional functions including Layer 3 IP unicast and IP multicast routing and Cisco Nexus Data Broker, you must install additional licenses. The licensing guide illustrates the software packaging and licensing available to enable advanced features.ROUTER SWITCH LIMITED8ROUTER SWITCH LIMITED9ROUTER SWITCH LIMITED10ROUTER SWITCH LIMITED11SOURCEShttps:///c/en/us/products/collateral/switches/nexus-9000-series-switches/datasheet-c78-736967.htmlROUTER SWITCH LIMITED12。

1 产品定位Quidway® S9300系列以太汇聚交换机（以下简称S9300）是基于新一代的硬件和华为公司统一的VRP®（Versatile Routing Platform）平台而推出的下一代以太网汇聚交换机，提供超大容量、高密度、模块化体系架构，提供二、三层线速转发能力，具有强大组播功能，VLAN交换功能，EPON接口，完善的QoS保障、有效的安全管理机制和传输级高可靠设计，满足城域网、企业园区网对Multi-Play业务承载和全光接入的组网需求，为运营商和企业网提供强大的网络交换和业务运营能力，支持IP专线、VPN、IPTV、IPv6等多种服务。

为了降低运营成本，满足节能减排需求，S9300作为新一代以太汇聚平台采用了多种绿色节能的创新技术，大幅降低设备能耗、减小噪声污染。

图1 Quidway S9300 系列以太汇聚交换机全家福S9300系列包括S9303、S9306、S9312三个产品形态，整个系列秉承模块与备件通用化、归一化的设计理念，最小化备板、备件成本，在保证设备扩展性的同时最大限度地保护用户投资。

同时，S9300整个系列均采用紧凑化设计，满足从城域边缘接入到核心汇聚、从企业高密汇聚到企业核心多种产品密度要求。

2 系统概述2.1 体系架构S9300在传统交换机的数据转发、管理控制双平面基础上进行了创新，在双平面的基础上增加了独立的环境监控平面，率先实现整机三平面设计。

业界首创的环境监控板，核心芯片采用华为自主知识产权的中控芯片，实现硬件级的按流量动态调整功率、风扇分区控制、风扇智能调速、端口休眠技术等多项节能控制技术，独立环境监控与网管联动，实现整机运营维护的全面可视化管理。

图2 创新的三平面设计2.2 产品特点S9300满足城域网以及企业园区网未来发展需求，能够实现交换容量、承载业务的全方位扩展，硬件级运维检测与设备安全防护，平滑升级保护用户投资。

●超大容量交换平台，弹性可扩展硬件架构作为新一代的以太汇聚平台，S9300单槽位支持12×10GE线速线卡，最大可以支持4.8T的背板容量和2T的交换能力，更好地满足IPTV等大带宽业务和IDC机房的接入需求。

CISCO 3560G交换机: 背板带宽32Gbps华为S9303交换机: 背板带宽3Tbps华为S9306交换机: 背板带宽6TbpsS9300支持的单板包括主控板（S9312和S9306为SRU，S9303为MCU）和接口板LPU。

LPU板分为S系列以太网接口板、E系列以太网接口板、F系列以太网接口板、EPON单板，各版本的支持情况如下：S9300V100R001版本：支持S系列和E系列S9300V100R002版本：支持S系列、E系列和EPON单板S9300V100R003版本：支持S系列、E系列、F系列和EPON单板其中：S系列LPU包含SA板。

例如：24端口百兆/千兆以太网光接口板（SA，SFP）-32K MACE系列LPU包括EA、EC和ED板。

例如：48端口百兆以太网光接口板（EA，SFP）-32K MACF系列LPU包括FA和FC板。

例如：48端口千兆以太网电接口板(FA, RJ45)-32K MACEPON单板即12端口千兆EPON光接口和12端口百兆/千兆光接口板（SFP）。

说明：S系列LPU板不支持MPLS，MPLS VPN，Netstream等业务。

S9300版本降级时要注意以下两点。

假如从版本A降级到版本B：∙查看设备是否有仅在版本A支持的单板，如果有，那么不能降级。

∙查看设备应用的特性中是否有仅在版本A支持的特性，如果有，那么不能降级。

说明：S9300的V100R001C02B125版本和其他版本的文件系统有差异。

V100R002版本以及V100R003版本向前兼容，支持V100R001C02B125格式化的文件格式系统。

但是V100R001C02B125版本不支持后面版本格式化的文件系统。

如果需要从更高版本降级到V100R001C02B125版本，先降级主控板的Bootrom和Bootload。

启动过程中，通过串口按Ctrl+B进入Bootrom菜单，Ctrl+Z进入隐藏菜单，格式化Cfcard。

产品手册思科公开信息思科 Catalyst 9300系列交换机目录专为安全性、物联网、移动性和云打造3产品概述：特性4平台详细信息7平台优势16软件要求22许可22规格25保修45思科环境可持续性46思科服务46订购信息47 Cisco Capital 54文档历史记录55专为安全性、物联网、移动性和云打造思科® Catalyst® 9300 系列交换机是思科专为安全性、物联网、移动性和云打造的卓越可堆叠企业交换平台，是业界部署最广泛的下一代交换平台。

Catalyst 9300 系列交换机是软件定义接入 (SD-Access) 这一思科领先的企业架构的基本组件。

凭借最高 480 Gbps 的带宽，该系列交换机成为业界密度最高的堆叠带宽解决方案，具有无比灵活的上行链路架构。

Catalyst 9300 系列是首款专门针对高密度 Wi-Fi 6 和第二代 802.11ac 技术进行优化的平台，树立了网络规模的新标杆。

该系列交换机还为支持未来的技术做好了准备，凭借 x86 CPU 架构和更大的内存，它们能够承载容器并在交换机内部本地运行第三方应用和脚本。

Catalyst 9300 系列专为 Cisco StackWise®技术设计，提供灵活的部署，支持不间断转发和状态切换 (NSF/SSO)，从而在可堆叠（低于 50 微秒）解决方案中实现恢复能力极强的架构。

电源架构采用 Cisco StackPower®技术，具备极高的恢复能力和效率，可提供高密度以太网供电 Plus (PoE+)、60W 思科通用以太网供电（思科 UPOE）和 90W 思科 UPOE+©端口。

该系列交换机基于思科统一接入™数据平面 (UADP) 2.0 架构，不仅可以保护您的投资，还能扩大规模并提高吞吐量。

交换机采用具有可编程性的 Cisco IOS® XE，这款现代化操作系统可提供高级安全功能和物联网 (IoT) 融合。

目录一、产品图片 (2)1S9303 (2)2S9306 (3)3S9312 (5)二、产品概述 (7)1.产品特点 (8)2.产品规格 (10)三、成功案例 (11)1华为上海办事处10000人使用云计算高效工作 (12)2浙江移动搭建的中小企业信息化云 (13)3无锡云计算中心 (13)4上海健康云 (14)5华为部署全球最大的办公桌面云 (15)四、主要特性 (15)五、指标要求 (15)六、产品彩页 (18)华为S9300交换机标书模版一、产品图片1S93032S93063S9312S9312正面S9312背面二、产品概述华为凭借在电信领域的丰富经验，华为将充分利用云计算技术变革和商业模式创新带来的机会，实现客户数据中心、计算和存储资源共享、效率提升。

华为云计算解决方案包括SingleCLOUD云平台解决方案和电信应用云解决方案。

SingleCLOUD云平台，支持“百万级服务器集群、百万T的存储能力、百T级网络互连能力”，支撑海量信息的计算和存储，并通过“Zero-Touch的自动管控”，大大降低运维成本。

在华为云计算的大平台策略下，客户可以借助云平台产品和技术快速搭建基本的云计算数据中心，也可以通过标准接口开发定制化的ICT融合云应用。

华为的电信应用云解决方案包括云计算业务交付平台和BSS系统，帮助构建包括“客户、运营商、开发商”端到端的创新的商业模式。

运营商可以借助华为提供的可运营、可管理的云应用超市，提供丰富的云服务，实现快速上市和快速盈利；最终用户将可以体验更加丰富的一站式云服务；全球百万开发者则可以借助应用“创新工厂”，快速实现创新业务的孵化，低成本高效率地完成应用开发，以及精准的客户营销支撑。

1.产品特点六项创新节能技术，省电30%首创的“变流”芯片，实现按流量动态调整功率，降低功耗8%。

独特的“旋转”风道设计，提高整机散热效率，降低功耗3%，同时整机出线能力提高6倍。

采用颗粒化、小功率的模块化设计思路，提高电源系统的转换效率，电源按需配置，保护用户投资。

Quidway S9300灵活QinQ配置指导内部公开Quidway S9300灵活QinQ配置指导(仅供内部使用）For internal use only拟制: Prepared by 维优项目组日期：Date2009-08-18审核: Reviewed by 日期：Date审核: Reviewed by 日期：Date批准: Granted by日期：Date华为技术有限公司Huawei Technologies Co., Ltd.版权所有侵权必究All rights reserved修订记录Revision record目录Catalog1 QinQ简介 (5)1.1 原理介绍 (5)1.2 QinQ实现方式 (5)2 S9300 QinQ配置 (7)2.1 普通QinQ配置 (7)2.2 基于ACL的灵活QinQ配置 (7)2.3 基于VLAN转换的灵活QinQ配置 (8)2.3.1 VLAN MAPPING (8)2.3.2 VLAN STACKING (9)3 S9300 灵活QinQ两种实现方式比较 (10)4 使用限制及常见问题 (11)4.1 配置注意事项 (11)4.2 使用及限制注意事项 (12)4.3 MAC学习 (12)5 应用场景配置举例 (13)5.1 S9300 VLAN STACKING灵活QinQ (13)5.1.1组网需求 (13)5.1.2配置过程和解释 (14)5.1.3完整配置 (15)5.2 S9300使用基于ACL的灵活QinQ (15)5.2.1组网需求 (16)5.2.2配置过程和解释 (16)5.2.3完整配置 (18)5.3 S9300灵活QinQ 802.1p值映射 (18)5.3.1组网需求 (19)5.3.2配置过程和解释 (19)5.3.3完整配置 (20)5.4 S9300全局灵活QinQ配置 (21)5.4.1组网需求 (21)5.4.2配置过程和解释 (21)5.4.3完整配置 (22)Quidway S9300灵活QinQ配置指导关键词Key words：MAC、VLAN、ACL、QinQ摘要Abstract：本文简单介绍QinQ的基本概念，然后给出在S9300系列交换机上部署灵活QinQ的配置指导及注意事项。

Huawei S9300 SwitchProduct BrochuresRealize Your Potential01 Huawei S9300 Switch Product S9303 S9306S9312 Product OverviewProduct FeaturesAgile 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, MA C, 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 providesindustry-leading 320 Gbps inter-chassis bandwidth dueto Huawei's novel approach of using the switching fabric clustering technology in CSS. Member switches can be connected through the service ports on LPUs. Theseservice ports can be configured as stack member portsand added to a logical stack port to enable connectionthrough SFP+ optical modules and fibers, or direct connection through SFP+ stack cables. Virtualization technology improves link use efficiency and preventssingle-point failures through inter-chassis link aggregation.• The S9300 uses route hot backup technology to backup and uninterruptedly forward all data of the controland data planes at Layer 3. This technology significantly improves reliability and performance of the S9300. Theinter-chassis links in a CSS can be bundled to improve linkuse efficiency and eliminate single-point failures.• The S9300 can use common service ports as cluster ports,and member switches can be connected through opticalfibers. This increases the permitted distance between switches in the CSS.• All member switches in a CSS are managed through asingle IP address, which simplifies network device and topology management, improves network operationefficiency, 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 staticroutes 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 IPMPLS bearer network protection switchover within 50 ms, improving network reliability.• The S9300 supports hardware-based Ethernet OA Min compliance with IEEE 802.3ah, 802.1ag, and ITU-Y.1731. Hardware-based Ethernet OAM can collect precise network parameters, such as transmission latency andjitter, to help customers monitor network operating statusin 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 reliableand high-speed operation of the entire network.02Powerful 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 LA N 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 beapplied 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.03VXLAN• 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 servicesor 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 alsosupport 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 administratorscan program the O&M functions of a switch through Python scripts to quickly innovate functions and implement intelligentO&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 acrossthe entire network, and enable automated or manual response to security threats. The CIS delivers the security policies to theAgile 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 diagnosison a single switch. After OIDS is deployed on a switch, the switch periodically collects and records the running informationand automatically determines whether a fault occurs. If a fault occurs, the switch automatically locates the fault or helpslocate the fault. All these merits increase fault locating efficiency of O&M staff while improving device maintainability.04Product Specifications0506Product List07080910111213 Applications Applications in Carriers' MANs Applications in Large-Scale Data Centers 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.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.For more information, visit / or contact your local Huawei sales office.Web & Email Application Application Database S2300Copyright © Huawei Technologies Co., Ltd. 2018. All rights reserved.Trademark NoticeGeneral Disclaimer, 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.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 maychange the information at any time without notice. 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.HUAWEI TECHNOLOGIES CO.,LTD.Huawei Industrial Base Bantian Longgang Shenzhen 518129,P.R.China Tel: +86 755 。

S9300系列T比特核心路由交换机S9303S9306S9300系列是华为公司面向融合多业务的网络架构而推出的新一代高端智能T 比特核心路由交换机。

该产品基于华为公司智能多层交换的技术理念，在提供稳定、可靠、安全的高性能L2/L3层交换服务基础上，实现高清视频流承载、大容量无线网络、弹性云计算、硬件IPv6、一体化安全等业务应用，同时具备强大扩展性和可靠性。

S9300系列交换机广泛适用于广域网、城域网、园区网络和数据中心，帮助企业构建面向应用的网络平台，提供交换路由一体化的端到端融合网络。

S9300系列提供S9303、S9306、S9312三种产品形态，支持不断扩展的交换能力和端口密度。

整个系列秉承模块通用化、部件归一化的设计理念，最小化备件成本，在保证设备扩展性的同时最大限度地保护用户投资。

此外，S9300作为新一代智能交换机采用了多种绿色节能创新技术，在不断提升性能及稳定性的同时，大幅降低设备能源消耗，减小噪声污染，为网络绿色可持续发展提供领先的解决方案。

S9300系列T 比特核心路由交换机产品概述先进交换架构提升网络扩展性• 背板具备良好的扩展性，可平滑扩展至更高带宽，支持单端口速率40G ，同时完美兼容现网板卡，保护初始投资。

• 超高万兆端口密度，单台设备支持480个万兆端口，助力企业园区和数据中心迎来全万兆核心时代。

运营级高可靠性设计，保障企业应用永续运行• S9300所有关键器件,如主控、电源、风扇等均采用冗余设计，所有模块均支持热插拔。

• CSS 集群创新性采用交换网集群技术，克服了业界普遍采用的线卡集群跨框多次交换，交换效率低下的架构难题，提供业界主机间最大的256G 集群带宽，同时可以通过跨框链路聚合提高链路的利用率，并消除单点故障。

产品特点S93121•支持完善的运维检测与性能管理802.3ah、802.1ag和ITU-Y.1731，能够对网络传输中的时延、抖动等参数进行精确统计，实时监测网络运行情况，并在设备故障发生时快速定位。

华为S9300交换机端口聚合配置华为S9300交换机端口聚合配置，可能多个端口进行聚合，增加带宽。

下面是店铺收集整理的华为S9300交换机端口聚合配置，希望对大家有帮助~~华为S9300交换机端口聚合配置方法/步骤TELNET设备，进入SYS模式;system-viewEnter system view, return user view with Ctrl+Z.[S9303]创建聚合组命令如下：[S9303]interface Eth-Trunk1 //聚合组名称为ETH-Trunk1[S9303-Eth-Trunk1]description To-S9303-2 //描述[S9303-Eth-Trunk1]undo port hybrid vlan 1 //去掉VLAN1的透传[S9303-Eth-Trunk1]port hybrid tagged vlan 100 to 200 //VLAN透传进入端口，将端口加入聚合组，命令如下:[S9303]interface GigabitEthernet1/1/16 //进入G1/1/16端口[S9303-GigabitEthernet1/1/16]description To-S7810-G7/0/31 //端口描述[S9303-GigabitEthernet1/1/16]eth-trunk 1 //加入聚合组1[S9303]interface GigabitEthernet1/1/17 //进入G1/1/17端口[S9303-GigabitEthernet1/1/17]description To-S7810-G7/0/30 //端口描述[S9303-GigabitEthernet1/1/17]eth-trunk 1 //加入聚合组1注意事项以后需要再透传VLAN时，进入ETH-1里面进行透传，不需要在端口下透传;聚合端口务必加好描述，描述能体现出对端设备及端口，方便故障处理;数据制作完成，记得保存配置，并定期备份设备配置。