H3C S5130S-HI is a new generation Gigabit Ethernet swi

H3C S5130S-HI series switches are H3C's self-developed Gigabit Ethernet switches, which are intelligent managed switches designed for high-performance, high-port density, and easy-to-install network environments.

The H3C S5130S-HI series Ethernet switches provide 10/100/1000Base-T adaptive Ethernet ports and 10G SFP+ optical ports. In the enterprise network, it can provide gigabit to desktop applications as access devices. In metro networks or industry users, it can provide gigabit access to end users or converge low-end switches downwards, and aggregate to large-capacity L3 switches through gigabit optical fiber or link aggregation upwards.

The H3C S5130S-HI series Ethernet switches support the innovative IRF (Intelligent ReEIlient Framework) technology, allowing users to connect up to 9 switches to form a logically independent entity to build a new intelligent network with high reliability, easy scalability, and easy management.

The H3C S5130S-HI series Ethernet switches have a richer port format, supporting dual pluggable power supplies, and some models support expansion slots.

SmartMC (Intelligent Management Center)

 As the scale of the network increases, the network edge requires a large number of access devices, which makes managing these devices cumbersome. The main purpose of SmartMC is to solve the problem of centralized management of a large number of scattered network devices. It is designed to solve the switch-based O&M tasks of small enterprises. SmartMC realizes unified network operation and management through built-in equipment and graphical operation

SmartMC's four major business segments simplify the operation and maintenance and management of small and medium-sized parks:

 Intelligent Management:

This mainly includes device role selection, FTP server configuration, global configuration, and network management port configuration

 Intelligent Operations and Maintenance:

Mainly includes group management, backup of equipment or group upgrades, monitoring, and device fault replacement

 Visualization:

Mainly includes network topology visualization and management, device list display, etc

 Smart Business:

Mainly includes user management: after creating and successfully activating network access users, these users can access the SmartMC network via one-click armed ports.

 The H3C S5130S-HI series switches have built-in SmartMC, enabling unified vertical virtualization management.

Highly scalable protection investments

The H3C S5130S-HI series switch hosts have 4-port 10Gbps ports, providing users with cost-effective 10Gbps uplink capabilities while achieving high-density gigabit access, protecting their investment, and flexibly expanding card insertion to offer abundant uplink ports to meet user needs in different scenarios.

The H3C S5130S-HI series switches support the IRF2 intelligent elasticity architecture, which can stack 9 devices together into a logical entity. This allows device capacity to be smoothly expanded according to network development, providing users with extremely high flexibility and scalability for network configuration.

Visualization capabilities

The H3C S5130S-HI series switches support Telemetry technology, which can upload real-time resource information and alarm information to the operation and maintenance platform via the GRPC protocol. The platform analyzes the real-time data to enable network quality traceability, fault troubleshooting, risk warning, architecture optimization, and other functions, precisely ensuring user experience.

Rich IPv6 functionality

The S5130S-HI series switches support IPv4/v6 dual-protocol stacks, enabling hardware-based full-line forwarding of IPv4/v6, as well as static routing and RIP functions for IPv4/v6. It also supports IPv6 ACL, QoS, multicast, and network management, fully meeting the smooth upgrade requirements from IPv4 to IPv6.

IRF2 (second-generation intelligent resilience architecture)

The H3C S5130S-HI series switches support IRF2 (Second Generation Intelligent Elastic Architecture) technology, connecting multiple physical devices to virtually treat them as a single logical device. In other words, users can manage and use these devices as a single single device. IRF can offer users the following benefits:

Simplified management Once the IRF architecture is formed, any port on any device can be connected to log into a unified logical device. By configuring a single device, it can manage the entire intelligent resilient system and all member devices within the system, without physically connecting to each member device to configure and manage them separately.

Simplifying operations The various control protocols running in logical devices formed by IRF are also unified as a single device. For example, routing protocols compute as a single device. With the application of cross-device link aggregation technology, it can replace the original spanning tree protocol, eliminating the need for extensive protocol message exchanges between devices, simplifying network operations, and shortening convergence time during network turbulence.

Elastic Scalability: Flexible scaling can be implemented according to user needs, ensuring user investment. Moreover, newly added devices can achieve "hot-swapping" when joining or leaving the IRF architecture, without affecting the normal operation of other devices.

High reliability The high reliability of IRF is reflected in three aspects: link, device and protocol. The physical ports between member devices support aggregation, and the physical connections between the IRF system and the upper- and lower-layer devices also support aggregation, which improves link reliability through multi-link backup. The IRF system is composed of multiple member devices, and once the master device fails, the system will quickly and automatically elect a new master to ensure that the service through the system is not interrupted, thus realizing 1:N backup at the device level. The IRF system has a real-time protocol hot backup function that is responsible for backing up the protocol configuration information to all other member devices, so as to achieve 1:N protocol reliability.

High performance For high-end switches, the improvement in performance and port density will be limited by the hardware structure. The performance and port density of the IRF system is the sum of all the device performance and number of ports inside the IRF. Therefore, IRF technology can easily expand the switching capacity of the device and the density of user ports several times, thereby greatly improving the performance of the device.

IRF3.1 (Vertical Virtualization)

The H3C S5130S-HI series switches support IRF3.1 (Intelligent Resilient Framework 3.1) vertical virtualization technology, which uses 802.1BR technology to add access devices as remote interface boards to the main equipment system, and virtualizes the core layer devices and access layer devices into a logical device in the vertical dimension to expand I/O port capabilities and centralized control and management. IRF3.1 technology can simplify management, greatly reduce network management nodes, simplify wiring, compress network layers, and finally realize data forwarding plane virtualization. IRF3.1 vertical virtualization technology can bring the following benefits to users:

 Unified management: IOnce the RF3.1 architecture is formed, it is connected to the master device to centrally configure and manage all members of the architecture, rather than physically connecting to each member device to configure it individually.

 Unified security policy: The security policy of the entire network only needs to be configured on the main device, avoiding potential policy conflicts caused by configuring the entire network device one by one, and greatly reducing the workload of security deployment.

 Simplified network layer: Support large-scale remote interface board expansion capabilities, and the traditional networking structure that requires a three-layer network architecture can be simplified to layer 2 networking through IRF3.1, which simplifies the physical and logical layers of the network and makes the wiring simpler.

 Simplify your business:The various service configurations in the IRF3.1 architecture are configured based on a single logical device, which greatly simplifies the planning considerations for VLANs, IPs, routes, and Mpls for the entire network.

 Convenient maintenance: The configuration and software version of all access devices are automatically assigned by the main device, and the new devices can be "hot-swapped" and zero-configured when they join or leave, without affecting the normal operation of other devices, and the troubleshooting of the whole network is also a single point.

Complete security control strategy

The H3C S5130S-HI series switches support innovative single-port multi-authentication Triple functionality. In network environments with diverse client formats, different clients support different access authentication methods. For example, some clients can only authenticate via MAC address (such as printer terminals), some user hosts use 802.1X authentication, and some only wish to authenticate via web access for Portal. To flexibly adapt to the multi-authentication needs of this network environment, the S5130S-HI series switches support a unified deployment method with multiple authentication on a single port, allowing users to choose any suitable authentication mechanism for authentication and access through only one authentication method. The client provides Guest VLAN functionality, allowing authorized access to only access specific resources and implementing corresponding policies, such as obtaining the 802.1x client, upgrading the client, or obtaining other upgrade programs. Supporting Secure Shell V2 (SSH V2) features provides secure information protection and strong authentication capabilities to protect Ethernet switches from attacks such as IP address fraud and plaintext password interception.

As ARP attacks and ARP viruses are the biggest threats to LAN security, the H3C S5130S-HI series switches support a wealth of ARP defense features, such as ARP Detection, user validity checks, ARP packet validity checks, ARP speed limiting, and preventing large numbers of ARP packets from affecting the CPU.

The H3C S5130S-HI series switches support EAD (Terminal Access Control) functionality. Together with the backend system, terminal security measures such as antivirus and patch repair can be integrated with network access control and access control into a coordinated security system. By inspecting, isolating, repairing, managing, and monitoring network access terminals, the entire network transforms from passive defense to active defense, single-point defense into comprehensive defense, and distributed management into centralized policy management, thereby enhancing the network's virus resistance , worms, and other emerging security threats.

Comprehensive QoS strategies

The H3C S5130S-HI series switches support L2 (Layer 2)~L4 (Layer 4) packet filtering functions, providing stream classification based on source MAC address, destination MAC address, source IP address, destination IP address, TCP/UDP port number, protocol type, and VLAN. Provides flexible row-to-column scheduling algorithms, allowing simultaneous port and queue configuration, supporting SP, WRR, and SP+WRR modes. It also supports bidirectional ACL in the in/out direction, traffic monitoring CAR function, and port/stream mirroring in the outbound/outbound directions, used to monitor messages on specified ports and copy packets from ports to the monitored port for network detection and troubleshooting. At the same time, the H3C S5130S-HI series switches support sFlow functionality, sampling data packets on the network and precisely monitoring network traffic on gigabit/ten-gigabit high-speed networks, for statistical analysis and control of network traffic.

SDN (Software Defined Networking)

Software Defined Network (SDN) is an innovative network architecture system. Its core technology, Openflow, integrates the control layer of the network with

The separation of the data forwarding layer greatly simplifies the difficulty of network management and maintenance, and more importantly, realizes the flexible control of network traffic, which provides innovation for core networks and applications

It provides a good network platform.

The S5130S-HI series switches support large-format flow tables, and with the H3C SDN controller, it can easily realize large-scale Layer 2 networking and provide the function of quickly adding users to existing networks. It greatly simplifies the difficulty of network management while significantly reducing the cost of network maintenance.

Excellent management

The H3C S5130S-HI series switches support SNMPv1/v2/v3 (Simple Network Management Protocol), which can support general network management platforms such as Open View and iMC intelligent management center. It supports CLI command line, web network management, TELNET, and HGMPv2 cluster management to make device management more convenient, and supports SSH2.0 and other encryption methods to make management more secure.

H3C S5130S-HI series switches support VLAN division based on MAC address, which solves the intelligent and flexible management of mobile office. Combined with the unique global and VLAN-based ACL issuance policy, it simplifies user configuration and greatly saves hardware resources.

The H3C S5130S-HI switch supports the BIMS protocol, automatically downloading configuration files and applications from the server, enabling zero-configuration startup and significantly reducing the initial configuration workload for large and complex networks.

High reliability

All H3C S5130S-HI series switches support modular redundant dual power supplies, enhancing device reliability. They also feature multiple reliability protections at both the device and link levels. Hardware supports overcurrent protection, overvoltage protection, and overheat protection technologies; It supports fault detection and alarms for power supplies and fans, automatically adjusting fan speed according to temperature changes, and these designs ensure high reliability.

In addition to device-level reliability, this product also supports a wide range of link-level reliability technologies, including protection protocols such as LACP, STP, RSTP, MSTP, and Smart Link. It supports IRF2 intelligent elastic architecture, 1:N redundant backup, ring stacking, and cross-device link aggregation, greatly improving network reliability. Even when the network is loaded with multiple services and heavy traffic, it does not affect network convergence time, ensuring normal business operations. Professional lightning protection features

Professional lightning protection features

The H3C S5130S-HI series switches use professional built-in lightning protection technology, supporting 10KV lightning protection, which greatly reduces the damage rate caused by lightning strikes even in harsh working environments.

PoE capability

The H3C S5130S-HI series switches support PoE power supply, allowing remote power supply to power to APs, cameras, and other power receiving devices (PD). Additionally, the H3C S5130S-HI series integrates AI capabilities into PoE technology, enabling PoE switches to support:

Fast PoE: Once powered on, PoE switches can supply power to receiving devices within seconds, without waiting for the switch to start up

Perpetual PoE: When the switch uses commands to perform a hot restart, it ensures that the power supply to the receiving device is not interrupted, maintaining normal operation

Green and energy saving

The H3C S5130S-HI series switches use the latest energy-saving chips and innovative architectural design solutions to achieve the lowest power consumption of gigabit switches

At the same time, the H3C S5130S-HI series switches adopt various green energy-saving designs, including auto-power-down (automatic power-saving at ports). If the interface status remains down for a period, the system automatically stops power supply to that interface and automatically enters power-saving mode; It supports EEE energy-saving functionality. If a port remains idle for a continuous period, the system sets it to power-saving mode. When messages are sent or received, the port is restored via scheduled listening streams to wake up the port, achieving energy-saving effects and meeting the EU RoHS standards for material environmental protection and safety.