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H3C S5580S-EIseries switches are a new generation of high-performance, high-port density, high-security Layer 3 Ethernet switches developed by H3C Technology Co., Ltd. (hereinafter referred to as H3C) using industry-leading ASIC technology, supporting IPv4/IPV6 Dual-stack management and forwarding, support static routing protocols and routing protocols such as RIP, OSPF, BGP, ISIS, etc., and support rich management and security features. It is a Gigabit Layer 3 Ethernet switch product for converged service networks.
In the campus network, H3C S5580S-EI series switches can be used as aggregation layer equipment, or as the core of small and medium-sized enterprises; downward can provide high-density GE tandem lower layer switches, upward through 10G/25G fiber or link aggregation is aggregated to the core switch to build a high-performance end-to-end IP network solution together with other H3C products.
H3C S5580S-EI switches series includes the following models:
S5580S-EI
H3C
New
1 Year
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Comware is a network operating system developed by H3C for use in network equipment. It includes rich networking functions and supports a full range of network equipment from campus to data center and from enterprise to carrier-grade.
Based on Comware V7, Comware V9 has been upgraded and adjusted in terms of openness, containerization, programmability, and visualization to better meet the current trends in network operating systems.
Advantages of Comware V9:
Comware V9 adopts a native Linux kernel, and all its functionalities are fully implemented in user space, making it easy to upgrade the kernel version.
Comware V9 supports containerization, allowing Comware to be deployed in the form of containers. It also supports the deployment of third-party applications in containers on devices running Comware V9, enhancing the openness of Comware.
Comware V9 deepens the modular design concept, making the business modules independent and allowing them to be deployed separately or released as independent software. This enables the Comware V9 platform to be more flexible and adaptable to different network environments. The modular design also makes it easier to upgrade or enhance individual functions without affecting the overall operation of the system.
Comware V9 has been designed to fully consider the needs of virtualization-based products. It features a lightweight support architecture, which enables faster and more flexible deployment of virtualized products.
SmartMC (Smart Management Center)
As the network scale increases, a large number of access devices are required at the network edge, which makes the management of these devices very 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 operation and maintenance tasks of small enterprises. SmartMC provides unified operation, maintenance, and management of the network by built-in graphical operation platform.
SmartMC simplifies the operation, maintenance, and management of Small and Medium-sized campuses:
Smart management: includes device role selection, FTP server configuration, global configuration, and network management port configuration, etc.
Intelligent operation and maintenance: include group management, equipment, or group upgrade backup, monitoring and equipment failure replacement, etc.
Visualization: includes networking topology visualization and management, device list display, device ports display, etc.
Smart business: includes user management, etc. After network access users are created and successfully activated, these users can access the SmartMC network through the one-key-armed port.
The H3C S5580X-EI&S5580S-EI series switches can be used as the management device of SmartMC. You can log in to the SmartMC network through the S5580X-EI&S5580S-EI to manage the entire network in a unified manner.
H3C S5580X-EI&S5580S-EI switch series support M-LAG, which enables links of multiple switches to aggregate into one to implement device-level link backup. M-LAG is applicable to servers dual-homed to a pair of access devices for node redundancy.
Streamlined topology: M-LAG simplifies the network topology and spanning tree configuration by virtualizing two physical devices into one logical device.
Independent upgrading: The DR member devices can be upgraded independently one by one to minimize the impact on traffic forwarding.
High availability: The DR system uses a keepalive link to detect multi-active collision to ensure that only one member device forwards traffic after a DR system splits.
Based on H3C's Open Service Architecture (OAA), H3C S5580X-EI&S5580S-EI series switches can not only provide the functions of traditional switches, but also integrate security module cards including FW, IPS, and load balancing, mini- iMC cards, and Eagle Vision cards. etc., making the S5580X-EI&S5580S-EI series switches a converged multi-service bearing platform.
H3C S5580X-EI&S5580S-EI series switches implement a hardware-based IPv4/IPv6 dual-stack platform, support multiple tunnel technologies, rich IPv4 and IPv6 Layer 3 routing protocols, multicast technologies and policy routing mechanisms, providing users with complete IPv4/IPv6 solution.
H3C S5580X-EI&S5580S-EI series switches support IRF2 (Second Generation Intelligent Resilient Architecture) technology, which is to connect multiple physical devices to each other to make it virtual as a logical device, users can regard these multiple devices as one Manage and use a single device. IRF can bring the following benefits to users:
Simplified management: IRF architecture is formed, it can be connected to any port of any device to log in to a unified logical device. By configuring a single device, it can manage the entire intelligent elastic system and all member devices in the system. There is no need to physically connect to each member device to configure and manage them individually.
Simplified service: IRF are also run as a single device. For example, the routing protocol will be calculated as a single device. With the application of the cross-device link aggregation technology, it can replace the original generation tree protocol, which saves the interaction of a large number of protocol packets between devices, simplifies network operation, and shortens the convergence time when the network is turbulent.
Elastic expansion:can realize elastic expansion according to user needs and ensure user investment. And new devices can be "hot-swapped" when they join or leave the IRF architecture, without affecting the normal operation of other devices.
High reliability : high reliability IRF is reflected in three aspects: link, equipment, and protocol. The physical ports between member devices support the aggregation function, and the physical connection between the IRF system and the upper and lower-layer devices also supports the aggregation function, which improves the reliability of the link through multi-link backup; the IRF system consists of multiple member devices. Once the master device fails, the system will quickly and automatically elect a new master to ensure uninterrupted services through the system, thus realizing device-level 1:N backup; the IRF system will have a real-time protocol hot backup function responsible for the configuration information of the protocol. Backup to all other member devices to achieve 1: N protocol reliability.
High performance : For high-end switches, the increase in performance and port density is limited by the hardware structure. The performance and port density of an IRF system is the sum of the performance and port numbers of all devices inside the IRF. Therefore, the IRF technology can easily expand the switching capability of the device and the density of user ports several times, thereby greatly improving the performance of the device.
H3C S5580X-EI&S5580S-EI series switches support the EAD ( terminal access control ) function, and cooperate with the background system to integrate terminal security measures such as terminal antivirus and patch repair with network security measures such as network access control and access authority control into a linked security The system, through the inspection, isolation, repair, management and monitoring of network access terminals, makes the entire network change from passive defense to active defense, from single-point defense to comprehensive defense, and from decentralized management to centralized policy management. , worms and other emerging security threats overall defense capabilities.
H3C S5580X-EI&S5580S-EI series switches support centralized MAC address authentication, 802.1x authentication, support dynamic or static binding of user identification elements such as user account, IP, MAC, VLAN, and port, and implement user policies (VLAN, QoS, ACL) dynamic distribution; support with H3C's iMC system for real-time management of online users, timely diagnosis, and disintegration of illegal network behavior.
H3C S5580X-EI&S5580S-EI series switches provide enhanced ACL control logic, support large-capacity ingress and egress port ACLs, and support VLAN-based ACL delivery, which simplifies the user configuration process and avoids waste of ACL resources. In addition, H3C S5580X-EI&S5580S-EI series switches will also support unicast reverse path finding technology (uRPF). The route between the interface and the source address specified in the packet is to verify its authenticity. If it does not exist, the packet is deleted, so that we can effectively prevent the source address spoofing that is increasingly flooding in the network.
H3C S5580X-EI&S5580S-EI switch series supports iNQA. iNQA provides the following benefits:
True measurement results: iNQA measures the service packets directly to calculate packet loss results, thus reflecting the real network quality.
Wide application range: Applicable to Layer 2 network and Layer 3 IP network. iNQA supports the network-level and direct link measurement flexibly.
Fast fault location: iNQA obtains the packet loss time, packet loss location, and number of lost packets in real time.
Applicable to different applications: You can apply iNQA to multiple scenarios, such as point-to-point, point-to-multipoint, and multipoint-to-multipoint.
H3C S5580X-EI&S5580S-EI series switches support Telemetry technology, which can send the switch's real-time resource information and alarm information to the O&M platform through the gRPC protocol.
The platform can realize network quality backtracking, troubleshooting, risk early warning, architecture optimization and other functions to accurately guarantee user experience by analyzing real-time data.
H3C S5580X-EI&S5580S-EI series switches use professional built-in lightning protection technology, supporting industry-leading 10KV lightning protection capability for its service ports. Even in harsh working environments, it can greatly reduce the equipment damage rate caused by lightning strikes.
Feature | S5580X-24T6Y-EI | S5580X-48T6Y-EI | S5580S-24T6X-EI | S5580S-48T6X-EI | |||||
CPU | Dual Core, 1.6GHz | ||||||||
Flash/SDRAM | 4G/2G | ||||||||
Port Switching Capacity | 348Gbps | 396Gbps | 168Gbps | 216Gbps | |||||
Packet Forwarding Rate | 259Mpps | 295Mpps | 125Mpps | 161Mpps | |||||
Dimensions (W×D×H) (unit: mm ) | 440×360×43.6 | ||||||||
Weight | ≤4.5kg | ≤4.5kg | ≤4.5kg | ≤4.5kg | |||||
Console Port | 1 | ||||||||
Ethernet Port for Management | 10/100/1000Base-T electrical port: 1 | ||||||||
USB Port | 1 | ||||||||
10/100/1000BASE-T auto-sensing Ethernet Port | 24 | 48 | 24 | 48 | |||||
Combo SFP port | 8 | - | 8 | - | |||||
10G SFP+ port | - | - | 6 | 6 | |||||
25G SFP28 port | 6 | 6 | - | - | |||||
Latency (64byte/µs) | GE: < 5µs 10G/25G< 3µs | ||||||||
Fan | 2 Modular Fans | 2 Modular Fans | 2 Embedded Fans | 2 Embedded Fans | |||||
Power supply | 2 Modular Power Supply | 2 Modular Power Supply | 2 Modular Power Supply | 2 Modular Power Supply | |||||
Input Voltage | AC: Rated voltage range: 100 to 240V AC: 50/60Hz Maximum voltage range: 90V~290V AC, 47~63Hz DC: Rated voltage range: -48V~-60V DC Maximum voltage range: -36V~-72V | ||||||||
Power Consumption | MIN: Single AC: 14W Single DC: 18W Dual AC: 16W Dual DC: 25W Typical Single AC: 26W Single DC: 29W Dual AC: 28W Dual DC: 36W MAX: Single AC: 53W Single DC: 54W Dual AC: 56W Dual DC: 61W | MIN: Single AC: 17W Single DC: 21W Dual AC: 19W Dual DC: 28W Typical Single AC: 41W Single DC: 43W Dual AC: 41W Dual DC: 48W MAX: Single AC: 62W Single DC: 61W Dual AC: 63W Dual DC: 67W | MIN: Single AC: 16W Single DC: 20W Dual AC: 18W Dual DC: 27W Typical Single AC: 26W Single DC: 29W Dual AC: 29W Dual DC: 36W MAX: Single AC: 51W Single DC: 52W Dual AC: 53W Dual DC: 68W | MIN: Single AC: 17W Single DC: 20W Dual AC: 19W Dual DC: 27W Typical Single AC: 39W Single DC: 41W Dual AC: 40W Dual DC: 47W MAX: Single AC: 54W Single DC: 49W Dual AC: 56W Dual DC: 61W | |||||
MTBF(Year) | 111.92 | 101.92 | 120.16 | 105.7 | |||||
MTTR(Hour) | 1 | 1 | 1 | 1 | |||||
Working Temperature | -5~50℃ | ||||||||
Relative Humidity of Working Environment | 5 % to 95 % (non-condensing) | ||||||||
Note:This content is applicable only to regions outside mainland China. H3C reserves the right to interpret the content.
Comware is a network operating system developed by H3C for use in network equipment. It includes rich networking functions and supports a full range of network equipment from campus to data center and from enterprise to carrier-grade.
Based on Comware V7, Comware V9 has been upgraded and adjusted in terms of openness, containerization, programmability, and visualization to better meet the current trends in network operating systems.
Advantages of Comware V9:
Comware V9 adopts a native Linux kernel, and all its functionalities are fully implemented in user space, making it easy to upgrade the kernel version.
Comware V9 supports containerization, allowing Comware to be deployed in the form of containers. It also supports the deployment of third-party applications in containers on devices running Comware V9, enhancing the openness of Comware.
Comware V9 deepens the modular design concept, making the business modules independent and allowing them to be deployed separately or released as independent software. This enables the Comware V9 platform to be more flexible and adaptable to different network environments. The modular design also makes it easier to upgrade or enhance individual functions without affecting the overall operation of the system.
Comware V9 has been designed to fully consider the needs of virtualization-based products. It features a lightweight support architecture, which enables faster and more flexible deployment of virtualized products.
SmartMC (Smart Management Center)
As the network scale increases, a large number of access devices are required at the network edge, which makes the management of these devices very 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 operation and maintenance tasks of small enterprises. SmartMC provides unified operation, maintenance, and management of the network by built-in graphical operation platform.
SmartMC simplifies the operation, maintenance, and management of Small and Medium-sized campuses:
Smart management: includes device role selection, FTP server configuration, global configuration, and network management port configuration, etc.
Intelligent operation and maintenance: include group management, equipment, or group upgrade backup, monitoring and equipment failure replacement, etc.
Visualization: includes networking topology visualization and management, device list display, device ports display, etc.
Smart business: includes user management, etc. After network access users are created and successfully activated, these users can access the SmartMC network through the one-key-armed port.
The H3C S5580X-EI&S5580S-EI series switches can be used as the management device of SmartMC. You can log in to the SmartMC network through the S5580X-EI&S5580S-EI to manage the entire network in a unified manner.
H3C S5580X-EI&S5580S-EI switch series support M-LAG, which enables links of multiple switches to aggregate into one to implement device-level link backup. M-LAG is applicable to servers dual-homed to a pair of access devices for node redundancy.
Streamlined topology: M-LAG simplifies the network topology and spanning tree configuration by virtualizing two physical devices into one logical device.
Independent upgrading: The DR member devices can be upgraded independently one by one to minimize the impact on traffic forwarding.
High availability: The DR system uses a keepalive link to detect multi-active collision to ensure that only one member device forwards traffic after a DR system splits.
Based on H3C's Open Service Architecture (OAA), H3C S5580X-EI&S5580S-EI series switches can not only provide the functions of traditional switches, but also integrate security module cards including FW, IPS, and load balancing, mini- iMC cards, and Eagle Vision cards. etc., making the S5580X-EI&S5580S-EI series switches a converged multi-service bearing platform.
H3C S5580X-EI&S5580S-EI series switches implement a hardware-based IPv4/IPv6 dual-stack platform, support multiple tunnel technologies, rich IPv4 and IPv6 Layer 3 routing protocols, multicast technologies and policy routing mechanisms, providing users with complete IPv4/IPv6 solution.
H3C S5580X-EI&S5580S-EI series switches support IRF2 (Second Generation Intelligent Resilient Architecture) technology, which is to connect multiple physical devices to each other to make it virtual as a logical device, users can regard these multiple devices as one Manage and use a single device. IRF can bring the following benefits to users:
Simplified management: IRF architecture is formed, it can be connected to any port of any device to log in to a unified logical device. By configuring a single device, it can manage the entire intelligent elastic system and all member devices in the system. There is no need to physically connect to each member device to configure and manage them individually.
Simplified service: IRF are also run as a single device. For example, the routing protocol will be calculated as a single device. With the application of the cross-device link aggregation technology, it can replace the original generation tree protocol, which saves the interaction of a large number of protocol packets between devices, simplifies network operation, and shortens the convergence time when the network is turbulent.
Elastic expansion:can realize elastic expansion according to user needs and ensure user investment. And new devices can be "hot-swapped" when they join or leave the IRF architecture, without affecting the normal operation of other devices.
High reliability : high reliability IRF is reflected in three aspects: link, equipment, and protocol. The physical ports between member devices support the aggregation function, and the physical connection between the IRF system and the upper and lower-layer devices also supports the aggregation function, which improves the reliability of the link through multi-link backup; the IRF system consists of multiple member devices. Once the master device fails, the system will quickly and automatically elect a new master to ensure uninterrupted services through the system, thus realizing device-level 1:N backup; the IRF system will have a real-time protocol hot backup function responsible for the configuration information of the protocol. Backup to all other member devices to achieve 1: N protocol reliability.
High performance : For high-end switches, the increase in performance and port density is limited by the hardware structure. The performance and port density of an IRF system is the sum of the performance and port numbers of all devices inside the IRF. Therefore, the IRF technology can easily expand the switching capability of the device and the density of user ports several times, thereby greatly improving the performance of the device.
H3C S5580X-EI&S5580S-EI series switches support the EAD ( terminal access control ) function, and cooperate with the background system to integrate terminal security measures such as terminal antivirus and patch repair with network security measures such as network access control and access authority control into a linked security The system, through the inspection, isolation, repair, management and monitoring of network access terminals, makes the entire network change from passive defense to active defense, from single-point defense to comprehensive defense, and from decentralized management to centralized policy management. , worms and other emerging security threats overall defense capabilities.
H3C S5580X-EI&S5580S-EI series switches support centralized MAC address authentication, 802.1x authentication, support dynamic or static binding of user identification elements such as user account, IP, MAC, VLAN, and port, and implement user policies (VLAN, QoS, ACL) dynamic distribution; support with H3C's iMC system for real-time management of online users, timely diagnosis, and disintegration of illegal network behavior.
H3C S5580X-EI&S5580S-EI series switches provide enhanced ACL control logic, support large-capacity ingress and egress port ACLs, and support VLAN-based ACL delivery, which simplifies the user configuration process and avoids waste of ACL resources. In addition, H3C S5580X-EI&S5580S-EI series switches will also support unicast reverse path finding technology (uRPF). The route between the interface and the source address specified in the packet is to verify its authenticity. If it does not exist, the packet is deleted, so that we can effectively prevent the source address spoofing that is increasingly flooding in the network.
H3C S5580X-EI&S5580S-EI switch series supports iNQA. iNQA provides the following benefits:
True measurement results: iNQA measures the service packets directly to calculate packet loss results, thus reflecting the real network quality.
Wide application range: Applicable to Layer 2 network and Layer 3 IP network. iNQA supports the network-level and direct link measurement flexibly.
Fast fault location: iNQA obtains the packet loss time, packet loss location, and number of lost packets in real time.
Applicable to different applications: You can apply iNQA to multiple scenarios, such as point-to-point, point-to-multipoint, and multipoint-to-multipoint.
H3C S5580X-EI&S5580S-EI series switches support Telemetry technology, which can send the switch's real-time resource information and alarm information to the O&M platform through the gRPC protocol.
The platform can realize network quality backtracking, troubleshooting, risk early warning, architecture optimization and other functions to accurately guarantee user experience by analyzing real-time data.
H3C S5580X-EI&S5580S-EI series switches use professional built-in lightning protection technology, supporting industry-leading 10KV lightning protection capability for its service ports. Even in harsh working environments, it can greatly reduce the equipment damage rate caused by lightning strikes.
Feature | S5580X-24T6Y-EI | S5580X-48T6Y-EI | S5580S-24T6X-EI | S5580S-48T6X-EI | |||||
CPU | Dual Core, 1.6GHz | ||||||||
Flash/SDRAM | 4G/2G | ||||||||
Port Switching Capacity | 348Gbps | 396Gbps | 168Gbps | 216Gbps | |||||
Packet Forwarding Rate | 259Mpps | 295Mpps | 125Mpps | 161Mpps | |||||
Dimensions (W×D×H) (unit: mm ) | 440×360×43.6 | ||||||||
Weight | ≤4.5kg | ≤4.5kg | ≤4.5kg | ≤4.5kg | |||||
Console Port | 1 | ||||||||
Ethernet Port for Management | 10/100/1000Base-T electrical port: 1 | ||||||||
USB Port | 1 | ||||||||
10/100/1000BASE-T auto-sensing Ethernet Port | 24 | 48 | 24 | 48 | |||||
Combo SFP port | 8 | - | 8 | - | |||||
10G SFP+ port | - | - | 6 | 6 | |||||
25G SFP28 port | 6 | 6 | - | - | |||||
Latency (64byte/µs) | GE: < 5µs 10G/25G< 3µs | ||||||||
Fan | 2 Modular Fans | 2 Modular Fans | 2 Embedded Fans | 2 Embedded Fans | |||||
Power supply | 2 Modular Power Supply | 2 Modular Power Supply | 2 Modular Power Supply | 2 Modular Power Supply | |||||
Input Voltage | AC: Rated voltage range: 100 to 240V AC: 50/60Hz Maximum voltage range: 90V~290V AC, 47~63Hz DC: Rated voltage range: -48V~-60V DC Maximum voltage range: -36V~-72V | ||||||||
Power Consumption | MIN: Single AC: 14W Single DC: 18W Dual AC: 16W Dual DC: 25W Typical Single AC: 26W Single DC: 29W Dual AC: 28W Dual DC: 36W MAX: Single AC: 53W Single DC: 54W Dual AC: 56W Dual DC: 61W | MIN: Single AC: 17W Single DC: 21W Dual AC: 19W Dual DC: 28W Typical Single AC: 41W Single DC: 43W Dual AC: 41W Dual DC: 48W MAX: Single AC: 62W Single DC: 61W Dual AC: 63W Dual DC: 67W | MIN: Single AC: 16W Single DC: 20W Dual AC: 18W Dual DC: 27W Typical Single AC: 26W Single DC: 29W Dual AC: 29W Dual DC: 36W MAX: Single AC: 51W Single DC: 52W Dual AC: 53W Dual DC: 68W | MIN: Single AC: 17W Single DC: 20W Dual AC: 19W Dual DC: 27W Typical Single AC: 39W Single DC: 41W Dual AC: 40W Dual DC: 47W MAX: Single AC: 54W Single DC: 49W Dual AC: 56W Dual DC: 61W | |||||
MTBF(Year) | 111.92 | 101.92 | 120.16 | 105.7 | |||||
MTTR(Hour) | 1 | 1 | 1 | 1 | |||||
Working Temperature | -5~50℃ | ||||||||
Relative Humidity of Working Environment | 5 % to 95 % (non-condensing) | ||||||||
Note:This content is applicable only to regions outside mainland China. H3C reserves the right to interpret the content.
