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    JL659A HPE Aruba 6300M 48-Port SR 1/2.5/5GbE PoE and 4-Port SFP56 Managed Switch

    £2,431.17£2,917.40 Incl. VAT

    ## Product Overview Of HPE JL659A ? Model: JL659A - 48-port HPE Smart Rate 1/2.5/5GbE Class 6 PoE+ ? 4-port SFP56 Uplink Ports ? Power Supply: No PSU included, minimum 1 required, maximum 2 ## Key Specifications ### Device Configuration ? Switch Type: Layer 3 Managed, Stackable ? Enclosure: Rack-mountable, 1U ? Port Configuration: 48x 100/1000/2.5G/5G (PoE+) with 4x SFP56 Uplink ### Power Over Ethernet (PoE) ? PoE Type: PoE+ with a budget of 2880W ? Maximum PoE power output of 60W per port ### Performance & Throughput ? Switching Capacity: 880 Gbps ? Forwarding Rate: 654 Mpps ? Latency: 1 Gbps: 4.24 ?s 10 Gbps: 1.5 ?s 25 Gbps: 2.91 ?s 50 Gbps: 3.49 ?s ? 1 Gbps: 4.24 ?s ? 10 Gbps: 1.5 ?s ? 25 Gbps: 2.91 ?s ? 50 Gbps: 3.49 ?s ? Stacking Bandwidth: 200 Gbps ### Capacity ? SVIs: Up to 1000 ? IPv4 Host Table: 32,000 entries ? IPv6 Host Table: 32,000 entries ? IPv4/IPv6 Routing: Unicast IPv4: 64,000 Unicast IPv6: 32,000 Multicast IPv4: 8,000 Multicast IPv6: 8,000 ? Unicast IPv4: 64,000 ? Unicast IPv6: 32,000 ? Multicast IPv4: 8,000 ? Multicast IPv6: 8,000 ? ACLs: Ingress: 5000 IPv4, 1250 IPv6, 5000 MAC Egress: 2000 IPv4, 500 IPv6, 2000 MAC ? Ingress: 5000 IPv4, 1250 IPv6, 5000 MAC ? Egress: 2000 IPv4, 500 IPv6, 2000 MAC ### Management and Security ? Remote Management Protocols: RMON, Telnet, SNMP v2c/v3, HTTPS, TFTP, SSH, CLI, XRMON, SFTP ? Authentication: SSH, RADIUS, TACACS+ ? Management Features: DHCP support, VLANs, QoS, Jumbo Frames (up to 9198 bytes) ## Supported Features ### Network Protocols ? Routing: EGP, BGP-4, OSPF, IGMP, MSDP, ECMP ? Link and Spanning Tree: PVST, MSTP, RSTP ? High Availability and Storm Protection: Deficit Weighted Round Robin (DWRR), Broadcast/Multicast/Unicast Storm Protection ? Virtual LAN: VXLAN, MVRP ### Advanced Layer 3 Capabilities ? IGMP Snooping, MLD Snooping ? Zero-Touch Provisioning (ZTP) for rapid setup ? Protocol Independent Multicast (PIM) support ### Environmental and Standards Compliance ? Compliant Standards: IEEE 802.1d, 802.1q, 802.1p, 802.3af 802.1w, 802.1x, 802.3ae, 802.1s, 802.3bt ? IEEE 802.1d, 802.1q, 802.1p, 802.3af ? 802.1w, 802.1x, 802.3ae, 802.1s, 802.3bt ? Energy Star and 80 Plus Silver Certifications ## Hardware Specifications ### Processor and Memory ? Processor: ARM Cortex-A72, 1.78 GHz ? Memory: 8 GB DDR4 SDRAM, 32 GB Flash ### Interfaces and Expansion ? 48x RJ-45 Ports (PoE+ up to 60W) ? 4x SFP56 Ports for 1G/10G/25G/50G connectivity ? Console Ports: 1x USB-C, 1x USB Type A ### Power and Energy Management ? Power Supply: Internal, requires at least one PSU, maximum of two ? Compatible Power Supply Models: JL086A, JL087A, JL670A ? Max PoE Power: 2880W HPE Aruba 6300M JL659A 48-Port SR 1/2.5/5GbE Cl6 PoE and 4-Port SFP56 Managed Switch ## Ports The HPE Aruba 6300M JL659A Managed Switch is equipped with a total of 52 ports, making it a powerful networking solution for businesses of all sizes. The ports on this switch are arranged in an array configuration, providing users with flexibility and scalability to meet their specific networking requirements. ### Increased Connectivity With 52 ports, the Aruba 6300M Managed Switch offers extensive connectivity options. These ports can be used to connect a variety of devices, including computers, servers, printers, IP phones, and wireless access points. With such a large number of ports available, businesses can easily expand their network infrastructure without worrying about running out of connectivity options. ### Improved Network Performance The array configuration of the ports on the Aruba 6300M Managed Switch ensures efficient data transfer and improved network performance. Each port is capable of delivering high-speed data transfers, allowing for seamless communication and collaboration between devices connected to the switch. This is particularly important for businesses that rely heavily on data-intensive applications or require real-time access to information. #### Enhanced Flexibility The array arrangement of the ports also offers enhanced flexibility in network design. Businesses can choose to configure their network in different setups, such as utilizing all ports for end devices or allocating specific ports for uplinks or link aggregation. This flexibility allows network administrators to optimize the network infrastructure based on their unique requirements, ensuring maximum efficiency and reliability. #### Scalability The 52-port configuration of the Aruba 6300M Managed Switch provides businesses with scalability options. As the business grows or network demands increase, additional devices can be easily integrated into the existing network infrastructure without the need for significant hardware upgrades or reconfigurations. This scalability feature is especially beneficial for businesses that anticipate future expansion or have dynamic networking needs. ##### Improved Network Management Managing a network with multiple devices can be a challenging task. However, with the Aruba 6300M Managed Switch's 52 ports, network management becomes more streamlined. Each port can be individually configured and monitored, allowing for efficient troubleshooting and optimization. Additionally, the switch supports advanced management features, such as VLANs, QoS, and SNMP, further enhancing network management capabilities. ##### Redundancy and High Availability The array configuration of the ports on the Aruba 6300M Managed Switch also enables redundancy and high availability in the network infrastructure. By utilizing link aggregation or redundant links, businesses can ensure continuous network connectivity even in the event of a port failure or link outage. This redundancy feature minimizes downtime and provides uninterrupted access to critical resources, resulting in enhanced productivity and customer satisfaction. In conclusion, the HPE Aruba 6300M JL659A Managed Switch's 52-port array configuration offers numerous benefits to users. It provides increased connectivity options, improved network performance, enhanced flexibility, and scalability for future growth. Additionally, the switch's array configuration simplifies network management and enables redundancy for high availability. With these features, businesses can build a robust and reliable network infrastructure that meets their current needs while allowing room for expansion and adaptability in the future.
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    JL663A HPE Aruba 6300M 48x1GbE 4xSFP56 Managed Stackable Switch

    £1,862.34£2,234.81 Incl. VAT

    ## Product Overview Of HPE JL663A Experience reliable, high-speed network switching with the HPE Aruba 6300m 48-port managed switch, optimized for advanced connectivity in rack-mounted setups. ### Device Specifications ? Device Type: Layer 3 Managed, Stackable Switch ? Rack Size: 1U Rack-Mountable ? Port Configuration: 48 x 10/100/1000 Mbps (PoE+) + 4 x Uplink/Stacking (1G, 10G, 25G, 50G SFP56) ### Power and Performance ? Power over Ethernet: PoE+ Support for optimal power delivery ? Switching Capacity: 496 Gbps ? Data Throughput: 369 Mpps ? Latency: 1.46 ?s (10 Gbps), 1.9 ?s (25 Gbps), 3.49 ?s (50 Gbps) ? Stacking Bandwidth: 200 Gbps ### High-Capacity Networking ? Virtual Interfaces: Supports up to 1,000 SVIs ? IPv4 & IPv6 Routing: Capacity for 32,000 IPv4 and IPv6 host tables and 64,000 IPv4 unicast routes ? ACL Entries: Ingress - 5,000 (IPv4), 1,250 (IPv6), MAC - 5,000 ? Multicast Groups: 8,000 for IGMP, 4,000 for MLD ? MAC Address Table: Capacity for 32,000 entries ### Data Transmission and Packet Handling ? Jumbo Frame Support: Up to 9,198 bytes ? Supported Protocols: BGP-4, OSPFv2/v3, VRRP, IGMP, EGP, PIM ### Remote and Secure Management ? Protocols: SNMP v2c/v3, HTTPS, SSH, CLI, RMON, XRMON ? Authentication Methods: SSH, Radius, TACACS+ for enhanced security ### Advanced Features for Network Reliability ? Supported VLANs: Comprehensive VLAN support including PVST, MSTP, and VLAN Tagging ? Quality of Service (QoS): Features like CoS, Deficit Weighted Round Robin (DWRR), and Strict Priority (SP) ? Network Protection: Packet storm protection, IGMP snooping, broadcast/multicast storm prevention ? Dual Firmware Images: Provides resilience with multiple firmware image support ? Zero-Touch Provisioning: Simplifies deployment and management ## Compliance Standards ? IEEE Standards: IEEE 802.1d, 802.1q, 802.3af, 802.3at, 802.1s, 802.1x, 802.3bt, and more ## Technical Specifications ### Processor and Memory ? Processor: ARM Cortex-A72 (1.78 GHz) ? RAM: 8 GB DDR4 SDRAM ? Flash Memory: 32 GB ### Expansion and Connectivity ? Primary Interfaces: 48 x 10/100/1000 Base-T (RJ-45) PoE+ Ports ? Additional Ports: 4 x SFP56 (1G/10G/25G/50G), USB-C Console, USB Type A, 1 Management Port HPE Aruba 6300M 48-ports 1GbE and 4-ports SFP56 Managed Stackable Switch - JL663A ## Number Of Ports The HPE Aruba 6300M Managed Stackable Switch is equipped with an impressive 52 ports, making it an ideal choice for medium to large-sized networks. This abundance of ports allows users to connect a wide range of devices, including computers, servers, printers, and other networking equipment. With such a high number of ports, users can easily expand their network infrastructure and accommodate the growing number of devices in their organization. ### Increased Connectivity One of the primary benefits of having 52 ports is the increased connectivity it provides. With more ports available, users can connect multiple devices simultaneously without the need for additional switches or hubs. This improves overall network performance and reduces bottlenecks that may occur when multiple devices compete for limited ports. #### Efficient Network Design The HPE Aruba 6300M Managed Stackable Switch's 52 ports allow for a more efficient network design. Users can strategically allocate ports based on device requirements and network traffic patterns. For example, critical devices or high-bandwidth applications can be connected to dedicated ports, ensuring optimal performance. This level of flexibility in network design helps organizations streamline their operations and achieve better network efficiency. ##### Future-Proofing In today's rapidly evolving digital landscape, having ample port capacity is crucial for future-proofing your network infrastructure. The 52 ports offered by the HPE Aruba 6300M Managed Stackable Switch provide scalability and room for expansion. As your organization grows and introduces more devices or applications to the network, you can easily accommodate them without investing in additional switches or costly upgrades. ## Port Types The HPE Aruba 6300M Managed Stackable Switch supports a variety of port types, including 1GbE and SFP56. This versatility allows users to connect devices with different network interfaces, ensuring compatibility and optimal performance. ### Flexible Connectivity Options By supporting 1GbE and SFP56 port types, the HPE Aruba 6300M Managed Stackable Switch offers flexible connectivity options for diverse networking needs. The 1GbE ports are suitable for connecting devices with standard Ethernet interfaces, such as computers, printers, and IP phones. On the other hand, the SFP56 ports are designed to accommodate high-speed fiber optic connections, enabling faster data transmission over longer distances. #### Scalability and Future-Proofing The inclusion of SFP56 ports in the HPE Aruba 6300M Managed Stackable Switch allows users to leverage the benefits of fiber optic technology. Fiber optics offer higher bandwidth and longer reach compared to traditional copper-based Ethernet connections. By incorporating SFP56 ports, organizations can future-proof their networks by preparing for the increasing demand for higher data speeds and longer distances. ##### Network Performance Optimization The availability of different port types enables users to optimize network performance based on specific requirements. For example, bandwidth-intensive applications or devices can be connected using SFP56 ports to take advantage of the higher speeds offered by fiber optics. Similarly, devices requiring standard Ethernet connectivity can be connected through 1GbE ports. This flexibility allows organizations to tailor their network infrastructure to meet the unique needs of their applications and devices. ## Management Interface The HPE Aruba 6300M Managed Stackable Switch features a user-friendly management interface, making it easy for network administrators to monitor and control the switch's operations. The inclusion of this management interface greatly enhances the switch's usability and simplifies network management tasks. ### Effortless Configuration and Monitoring With a management interface, users can easily configure various settings of the HPE Aruba 6300M Managed Stackable Switch. These settings include VLAN configuration, Quality of Service (QoS) policies, port mirroring, and security features. Administrators can conveniently access the switch's interface through a web browser, eliminating the need for complex command-line interfaces or specialized software. #### Centralized Management The management interface allows for centralized management of multiple switches within the network. Network administrators can access and manage all connected HPE Aruba 6300M switches from a single interface, simplifying network administration and reducing the time and effort required to maintain a large-scale network. This centralized approach enhances overall network efficiency and streamlines administrative tasks. ##### Real-Time Monitoring and Troubleshooting The management interface provides real-time monitoring capabilities, allowing administrators to keep a close eye on the switch's performance and network traffic. Detailed statistics and logs are readily available, enabling quick identification of potential bottlenecks or issues. Administrators can also perform troubleshooting tasks directly through the management interface, minimizing network downtime and ensuring smooth operation. ## Stackable The HPE Aruba 6300M Managed Stackable Switch offers stackable capabilities, providing users with enhanced scalability, simplified management, and improved resiliency. This stackable feature is particularly beneficial for organizations with growing networks or those that require high availability. ### Increased Scalability By allowing multiple switches to be stacked together, the HPE Aruba 6300M Managed Stackable Switch enables users to expand their network infrastructure seamlessly. Stacking switches eliminates the need for complex configurations or additional cabling. As more switches are added to the stack, users can enjoy increased port capacity without sacrificing performance or manageability. #### Simplified Management Stacking switches simplifies network management by treating the entire stack as a single logical unit. Network administrators can manage the entire stack through a single management interface, reducing complexity and minimizing the time required for configuration and monitoring tasks. This centralized management approach enhances network efficiency and reduces the likelihood of errors or misconfigurations. ##### Improved Resiliency The stackable feature of the HPE Aruba 6300M Managed Stackable Switch enhances network resiliency by providing built-in redundancy. With a stack of switches, if one switch fails, the remaining switches in the stack can automatically take over its functions, ensuring uninterrupted network connectivity. This increased resiliency is particularly critical for organizations that rely heavily on their network infrastructure to support critical applications or services. ## Model Number The HPE Aruba 6300M Managed Stackable Switch has a model number of JL663A. While the model number may seem like a simple identifier, it holds importance for users in terms of compatibility, support, and documentation. ### Compatibility and Interoperability The model number JL663A helps users ensure compatibility when integrating the HPE Aruba 6300M Managed Stackable Switch into their existing network infrastructure. When sourcing additional networking equipment or accessories, users can refer to the model number to ensure compatibility with their specific switch model. This simplifies the procurement process and minimizes the risk of purchasing incompatible components. #### Support and Documentation The model number is crucial when seeking support or accessing documentation related to the HPE Aruba 6300M Managed Stackable Switch. Users can easily refer to the model number when reaching out to technical support or searching for specific information in product manuals, datasheets, or online resources. This ensures that users have access to accurate and relevant information, enabling them to troubleshoot issues effectively or make informed decisions about their network configuration. ##### Product Differentiation In a product lineup with multiple similar switches, the model number serves as a key differentiating factor. The model number JL663A uniquely identifies the HPE Aruba 6300M Managed Stackable Switch, allowing users to distinguish it from other models or variants. This differentiation is essential when comparing features, specifications, and pricing to select the most suitable switch for their specific requirements.
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    R8S90A HPE Aruba 6300m L3 Managed 48 Ports Rack-mountable Switch.

    £6,220.78£7,464.94 Incl. VAT

    ## Product Overview Of HPE Aruba 6300m L3 Switch The HPE R8S90A Aruba 6300m is a next-generation Layer 3 managed network switch engineered for modern enterprise networks. Built with flexibility, scalability, and high performance in mind, this 48-port rack-mountable switch enables businesses to handle increasing data demands, cloud applications, and growing user traffic. Whether deployed in core, aggregation, or access layer environments, the Aruba 6300m switch delivers enterprise-grade features, dynamic security, and streamlined management for maximum efficiency. ## Key Technical Specifications ? Model: HPE R8S90A ? Ports: 48x 1GbE RJ45 ? Modular Uplinks: Optional 10G/25G/40G modules ? Layer Support: L2 and full L3 (static, RIP, OSPF, BGP, PBR) ? Switching Capacity: Up to 880 Gbps ? Forwarding Rate: Up to 660 Mpps ? Stacking: Supported (VSF and VSX) ? OS: ArubaOS-CX ? Security: 802.1X, MACsec, role-based access, ACLs ? Management: Aruba Central, Web GUI, CLI, REST API ? Mounting: 1U Rack-mountable ? Redundant Power: Supported with hot-swappable modules ### Optimized for High-Performance Networks The HPE R8S90A Aruba 6300M switch is a highly advanced Layer 3, stackable, rack-mountable managed network device designed for mission-critical environments. Featuring 48 versatile PoE++ RJ-45 ports supporting 100Mbps, 1Gbps, 2.5Gbps, and 5Gbps speeds, it ensures seamless data transmission across expansive infrastructures. ? Layer 3 switching with full management support ? 48 Multi-Gigabit PoE++ ports for high-speed device connectivity ? Dual expansion with 2x 1/10/25GbE SFP and 2x 10/25/50GbE SFP uplink/stacking ports ? 1U rack design supporting front and side-to-back airflow ## Exceptional Switching Throughput & Low Latency ### Top-Tier Bandwidth and Data Handling Engineered for speed, the Aruba 6300M delivers a switching capacity of up to 880 Gbps and a data throughput rate reaching 654 Mpps. Its ultra-low latency architecture ensures responsive network performance: ? 1 Gbps latency: 4.24 ?s ? 10 Gbps latency: 1.5 ?s ? 25 Gbps latency: 2.91 ?s ? 50 Gbps latency: 3.49 ?s ? Stacking bandwidth up to 200 Gbps ## High Scalability and Routing Flexibility ### Extensive Addressing and ACL Support Supporting up to 1024 Switched Virtual Interfaces (SVIs), this switch handles vast routing demands across both IPv4 and IPv6 protocols. With advanced ACL capacity, secure segmentation and traffic prioritization are effortless. ? IPv4/IPv6 host entries: 49,152 each ? Unicast routes: 61,000 for both IPv4 and IPv6 ? Multicast routes and group entries: 8,192 each ? Comprehensive ACL support for both ingress and egress traffic ## Advanced Network Protocols & Multicast Support ### Dynamic Routing and Multilayer Protocol Support The switch accommodates a broad range of protocols including OSPFv2/v3, BGP, IGMP, VRRP, PIM-SM/DM, MSDP, and ECMP. It also supports advanced mechanisms like Policy-Based Routing and Bidirectional Forwarding Detection. ? Layer 3 routing protocols: OSPF, BGP, PIM, IGMP, VRRP, GRE ? Redundancy and load balancing via ECMP and PBR ? Multicast optimization through IGMPv2/v3, MLD, and MSDP ? Network timing and synchronization using NTP ## Smart Remote Access and Secure Management ### Flexible Administrative Control Options The Aruba 6300M allows for secure and remote configuration through various management protocols. SNMP v2c/v3, CLI, Telnet, TFTP, and SSH provide extensive accessibility options. Integrated support for RADIUS and TACACS+ ensures secure authentication. ? CLI, SNMP, SSH, and Telnet management access ? Secure authentication via SSHv2, RADIUS, TACACS+ ? Syslog and MIB support for monitoring and automation ## Robust Security & Network Protection ### Advanced Threat Defense Features Built with enterprise security in mind, the device supports full Layer 2?4 ACLs, dynamic IPv6 lockdown, and multiple forms of storm control. Encryption is reinforced with FIPS 140-2 compliance for secure data handling. ? MAC, IPv4, and IPv6 ACL entries across ingress/egress ? Storm protection for broadcast, multicast, and unicast traffic ? RA Guard and DHCP protection for network integrity ? Support for Zero-Touch Provisioning (ZTP) for secure deployment ## Efficient Power Delivery & Redundancy ### High Availability with Hot-Swappable Power Options With internal hot-plug power modules and optional redundancy configurations, the Aruba 6300M ensures uninterrupted service during power anomalies. PoE++ capabilities deliver up to 90W per port for demanding endpoints like IP cameras or access points. ? Hot-pluggable internal PSU with optional 1+1 redundancy ? PoE++ on all 48 ports to support high-power devices ? Power efficiency for reduced operational costs ## Hardware Engineering & Expandability ### Built for Reliability and Modularity Powered by a 1.8 GHz ARM processor and 8 GB of DDR4 SDRAM, this switch delivers dependable performance even under intensive workloads. A 32 GB flash memory ensures quick firmware updates and configuration storage. ? Processor: 1.8GHz ARM for efficient operations ? Memory: 8GB RAM and 32GB flash for system responsiveness ? USB-C and USB-A console ports for versatile access ? RJ-45 console for traditional serial management ## Compliance and Industry Standards ### Wide Protocol and Standards Support Fully aligned with a comprehensive set of IEEE standards, the Aruba 6300M guarantees compatibility across numerous network designs and deployment scenarios. ? 802.3af/at/bt for PoE standards ? 802.1x, 802.1p, 802.1q VLAN tagging ? 802.1w, 802.1s, 802.1d STP/RSTP/MSTP protocols ? 802.3ad LACP for link aggregation ? 802.1ab LLDP and 802.1ak MVRP support ### Enterprise-Class Performance and Architecture Designed for high-throughput environments, the Aruba 6300m L3 switch utilizes advanced ASICs, enabling wire-speed performance across all 48 ports. With support for up to 880 Gbps of switching capacity and 660 Mpps of forwarding rate, it effortlessly handles large volumes of traffic while maintaining low latency and high reliability. This robust architecture ensures uninterrupted data flow in mission-critical deployments such as data centers, branch offices, or campus backbones. #### Scalable Switching with High Port Density The R8S90A model offers 48 fully managed ports, allowing seamless network expansion without sacrificing performance. Designed to meet dense edge requirements, it supports a mix of 1GbE, 10GbE, and even 25GbE interfaces via optional uplink modules, delivering versatility across diverse infrastructures. As bandwidth requirements increase, organizations can scale their networks with confidence using this switch. ##### Flexible Uplink Options One of the core strengths of the Aruba 6300m is its modular uplink design. Optional expansion modules include 10G, 25G, and 40G uplink options, providing flexibility for various deployment needs. This feature allows IT teams to future-proof their networks by upgrading uplinks without replacing the core switch. ## Advanced Layer 3 Switching Capabilities The HPE Aruba 6300m R8S90A comes with full Layer 3 support, including static routing, dynamic routing protocols such as OSPF and BGP, and policy-based routing (PBR). These features are essential for enterprises seeking to implement traffic segmentation, efficient path selection, and inter-VLAN routing. ### Dynamic Segmentation and Traffic Control With Aruba Dynamic Segmentation, the switch can automatically enforce access policies on wired ports, creating user- or device-based VLAN assignments with full traffic isolation. This granular control enhances security without complex configurations, reducing the administrative burden while improving network hygiene. #### VRF Support for Network Virtualization Virtual Routing and Forwarding (VRF) support enables the Aruba 6300m to segment network traffic within the same physical device. This allows multiple virtualized routing instances to coexist, making the switch ideal for multitenant environments or logically separated departmental infrastructures. ##### Multicast and QoS Optimization The R8S90A supports a rich suite of multicast protocols including IGMP v1/v2/v3, PIM, and MLD snooping, facilitating optimized video and voice delivery across networks. Coupled with enterprise-grade Quality of Service (QoS) mechanisms, it ensures latency-sensitive traffic like VoIP and video conferencing receives prioritized handling, enhancing user experience across the board. ## ArubaOS-CX: Intelligent and Unified Operating System Powering the HPE R8S90A is ArubaOS-CX, a cloud-native, fully programmable network operating system designed for automation, analytics, and resiliency. With a unified architecture, ArubaOS-CX provides consistent operations across the entire Aruba CX switching portfolio, simplifying management and improving operational efficiency. ### Event-Driven Automation and REST APIs ArubaOS-CX features a built-in Python interpreter and REST APIs, enabling event-driven automation. Network teams can develop scripts or integrate with third-party orchestration platforms to automate tasks like configuration management, firmware upgrades, and policy enforcement, thereby reducing human error and saving time. #### Network Insights with Aruba Network Analytics Engine (NAE) The integrated Network Analytics Engine (NAE) allows IT admins to monitor, diagnose, and troubleshoot network issues in real time. Using AI-driven insights and historical data, NAE helps predict potential problems before they impact users, significantly improving uptime and reliability. ## Robust Security and Zero Trust Architecture Security is a critical element of any enterprise network, and the HPE Aruba 6300m does not disappoint. With built-in support for secure network access, role-based policies, MACsec encryption, and Zero Trust segmentation, the switch protects data in transit and ensures only authorized users or devices gain network access. ### 802.1X and MAC Authentication The switch supports 802.1X network access control, MAC authentication, and downloadable user roles from Aruba ClearPass. These features allow dynamic enforcement of security policies based on user identity, device type, and role, supporting strong access control and endpoint profiling. #### Secure Management and MACsec Encryption Secure management protocols like SSH, HTTPS, and SNMPv3 are supported natively. Moreover, MACsec (IEEE 802.1AE) provides hardware-based link-level encryption, ensuring data confidentiality across Ethernet links without compromising performance. ## Energy Efficiency and Eco-Friendly Design The R8S90A is designed with energy efficiency in mind. It features advanced power management features including Energy Efficient Ethernet (EEE), intelligent fan control, and dynamic power allocation. These technologies reduce overall power consumption, making it suitable for eco-conscious organizations and green data centers. ### Smart Power Management Through intelligent PoE+ and optional redundant power supply configurations, the switch optimizes energy usage without compromising uptime. Administrators can configure port-level power policies and monitor power consumption in real-time for more efficient infrastructure planning. ## Deployment Versatility and Rack-Mount Design With its 1U form factor and rack-mountable chassis, the HPE R8S90A integrates seamlessly into standard 19-inch racks. This makes it suitable for both small-to-mid-size business deployments and large-scale enterprise infrastructures. ### Redundancy and High Availability The Aruba 6300m supports hot-swappable power supplies and fans, ensuring continuous operation even during component replacement. Optional stacking capabilities provide higher availability and centralized management, further reducing downtime during upgrades or failures. #### Virtual Switching Extension (VSX) for Resilient Networking Through Aruba?s VSX technology, two Aruba switches can operate as a single logical device, enabling active-active redundancy and load balancing. This not only increases fault tolerance but also ensures minimal disruption during maintenance windows or failovers. ## Integration with Aruba's Edge Services Platform (ESP) The HPE R8S90A Aruba 6300m integrates seamlessly with Aruba?s Edge Services Platform (ESP), empowering organizations with AI-driven operations, Zero Trust security, and a unified infrastructure. Whether managing campus, branch, or remote environments, ESP brings cloud-native intelligence to the edge. ### Cloud-Based and On-Premises Management Options Administrators can manage the switch through Aruba Central?a cloud-native platform?or through local Web GUI, CLI, and REST APIs. This flexibility supports organizations with hybrid or cloud-first strategies while ensuring consistent policy and configuration across locations. ## Common Use Cases and Deployment Scenarios The HPE R8S90A is ideal for a wide range of network environments. From high-density enterprise LANs to campus core/aggregation layers and midsize data centers, this switch delivers reliable performance and versatile deployment. ### Campus Access and Aggregation With its high port density, advanced routing, and flexible uplinks, the R8S90A excels in campus access or aggregation roles. It supports VoIP phones, wireless access points, surveillance systems, and more, all while maintaining network security and efficiency. ### Small-to-Medium Business (SMB) Networks For SMBs, the Aruba 6300m offers enterprise-class features at a scalable cost. Centralized management, role-based access, and built-in automation tools make it an accessible solution for organizations with limited IT resources. ### Data Center Top-of-Rack (ToR) Switching In data center environments, the R8S90A can function as a top-of-rack (ToR) switch, providing high-speed uplinks to aggregation layers. Its redundant architecture and advanced L3 capabilities ensure high availability and seamless data flow across racks.
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    R0X27C HPE Aruba Networking CX 6410 v2 Switch Chassis

    £7,896.10£9,475.32 Incl. VAT

    ## Advanced Networking Solution: HPE Aruba CX 6410 v2 Chassis Elevate your enterprise network infrastructure with the high-performance HPE R0X27C Aruba CX 6410 v2, a scalable and secure Layer 3 stackable switch designed for modern data demands. ### Core Specifications and Technical Attributes ? Manufacturer: HPE ? Model Identifier: R0X27C ? Device Classification: Enterprise-grade managed switch with Layer 3 capabilities ? Chassis Dimensions: 12U rack-optimized enclosure ? Power over Ethernet Support: Compliant with PoE+, delivering up to 30W per port #### Enhanced Security and Protocol Compliance ? Authentication Protocols: SSHv2, RADIUS, TACACS+ for secure access control ? Industry Standards: IEEE 802.3af/at/bt for PoE compatibility #### High-Performance Hardware Architecture ? Processing Unit: 1.8 GHz quad-core CPU for efficient traffic management ? Memory Capacity: 16 GB DDR4 RAM for high-speed data processing ? Storage: 32 GB flash memory for firmware and configuration storage ### Connectivity and Expansion Capabilities ##### Interface Options ? 1 ? USB-C console port for modern device connectivity ? 1 ? RJ-45 console port for legacy system access ? 1 ? USB Type-A port for peripheral connections ? 1 ? RJ-45 management port for out-of-band administration ##### Modular Flexibility ? Module Slots: 1 pre-installed with capacity for 12 total modules ### Power Configuration and Efficiency ? Power Supply: Hot-swappable internal PSU (not included by default) ? Supply Capacity: Supports up to 4 power modules for redundancy ? Electrical Requirements: 120/230V AC (50/60 Hz) auto-sensing input ? Energy Certification: 80 Plus Platinum rated for optimal power efficiency #### Redundancy and Reliability Features ? Optional N+N power redundancy configuration available ? Field-replaceable power modules minimize downtime ## R0X27C HPE Aruba 6410 V2 L3 Managed Switch Overview The R0X27C HPE Aruba 6410 V2 is a next-generation Layer 3 managed switch engineered to meet the demanding networking requirements of modern enterprise environments. Built with robust hardware specifications and designed for scalability, the switch supports high-speed data processing, Power over Ethernet Plus (PoE+), and resilient infrastructure integration. Its modular chassis and line card design allow for exceptional flexibility and investment protection as network demands evolve. ### High-Performance Quad-Core Architecture At the heart of the Aruba 6410 V2 lies a Quad Core ARM Cortex A72 processor clocked at 1.8GHz. This powerful CPU ensures low latency, fast routing, and efficient packet processing. Accompanied by 16GB DDR4 ECC memory, the switch delivers reliable performance with error correction capabilities that are essential for mission-critical networks. #### Advanced Packet Handling and Buffering To handle burst traffic and data spikes, the R0X27C is equipped with a sophisticated 8MB shared packet buffer memory on each line card. This shared architecture maximizes memory utilization and enhances buffering capacity for unpredictable traffic patterns, improving performance during congestion. ### Robust Storage and Memory Specifications The switch features 32GB of onboard eMMC flash memory, which supports fast firmware access and configuration recovery. This embedded storage plays a critical role in boot time, configuration backups, and logging data locally without relying heavily on external resources. #### ECC Memory: Ensuring Data Integrity The use of Error-Correcting Code (ECC) memory in the core system offers an added layer of protection against memory errors that can corrupt data or cause system crashes. This is vital for network stability in large-scale enterprise environments where uptime and consistency are paramount. ## Scalable Modular Architecture for Future-Proof Networking The Aruba 6410 V2 is designed with a modular approach, allowing organizations to tailor switch configurations according to their specific deployment needs. Expansion through line cards provides room for additional ports, higher capacity, and custom connectivity options. ### Line Card Processing Power Each line card is independently powered by a Dual Core ARM Cortex A72 1.8GHz processor and includes 4GB DDR4 memory. This localized processing significantly enhances distributed switching and offloads tasks from the central processor, improving performance across high-traffic environments. #### Dedicated Resources per Line Card The allocation of 8MB of shared packet buffer memory per line card ensures that each module can handle local traffic spikes efficiently without burdening the central system. This architectural choice supports network scalability and improves fault isolation. ## Layer 3 Switching and Network Intelligence As a full-featured Layer 3 managed switch, the R0X27C enables advanced routing protocols including OSPF, BGP, and static routing. This makes it ideal for complex enterprise environments requiring inter-VLAN routing, dynamic path optimization, and segmented network traffic management. ### Centralized Control with Aruba OS-CX Operating on the robust ArubaOS-CX platform, the switch benefits from a cloud-native microservices architecture that offers centralized management, deep telemetry, and network-wide automation capabilities. This simplifies operations and accelerates troubleshooting. #### Enhanced Routing Capabilities The Layer 3 capabilities of the switch support dynamic routing, equal-cost multi-path (ECMP), and policy-based routing (PBR), giving network administrators advanced tools to manage and optimize traffic patterns efficiently across enterprise networks. ## PoE+ Support for Powered Devices The Aruba 6410 V2 supports Power over Ethernet Plus (PoE+), which provides up to 30 watts per port. This allows seamless integration of powered devices such as wireless access points, IP phones, surveillance cameras, and more without requiring additional power infrastructure. ### Efficient Power Delivery Even though the switch chassis ships without power supplies, it allows flexible power configuration through separately ordered redundant power supply units. This design offers options for N+1 redundancy and load sharing, ensuring uninterrupted power delivery to all connected PoE+ devices. #### Ideal for Smart Building and IoT Deployments With PoE+ capabilities, the switch becomes an enabler of smart buildings and Internet of Things (IoT) applications. Enterprises can deploy sensors, cameras, and access control systems with simplified cabling and reduced deployment complexity. ## Rack-Mountable Design for Data Center and Enterprise Deployments The R0X27C switch is rack-mountable, making it a perfect fit for data centers, server rooms, and structured cabling environments. Its 19-inch rack compatibility ensures seamless integration with standard network cabinets and enclosures. ### Space-Efficient and Serviceable The chassis is engineered for both density and serviceability, with front-facing ports and hot-swappable modules that make installation and maintenance convenient. Its modular power and fan assemblies contribute to ease of servicing without needing to power down the switch. #### Cooling and Thermal Management Designed with efficient airflow, the Aruba 6410 V2 switch supports front-to-back and back-to-front cooling depending on the deployment configuration. It uses intelligent fan control to maintain optimal operating temperature and extend hardware life. ## Security, Compliance, and Management Enterprise-grade security is built into the core of the Aruba 6410 V2 switch. It includes role-based access control (RBAC), Secure Shell (SSH), SNMPv3, and integration with AAA services like RADIUS and TACACS+. These features ensure controlled administrative access and secure data transmission. ### Advanced Monitoring and Analytics With support for Aruba NetEdit, Aruba Central, and CLI-based management, network administrators can easily monitor traffic patterns, set alerts, and conduct deep diagnostics. Real-time visibility into performance metrics reduces downtime and improves user experience. #### Support for Automation and APIs Built-in REST APIs and Python scripting support allow for powerful automation workflows. This facilitates zero-touch provisioning and configuration-as-code, reducing manual errors and deployment times in dynamic network environments. ## Environmentally Conscious and Energy Efficient Designed with energy efficiency in mind, the Aruba 6410 V2 switch supports dynamic power scaling, advanced chipset optimization, and intelligent port activation. These features contribute to reduced operational costs and help meet green IT objectives. ### Energy Efficient Ethernet (EEE) Support By leveraging EEE standards, the switch dynamically adjusts power consumption based on network load, leading to significant energy savings over time. This makes it an ideal option for organizations looking to reduce their environmental footprint. #### RoHS and Environmental Compliance The R0X27C meets stringent RoHS and WEEE compliance regulations, confirming that it?s manufactured with reduced hazardous substances and designed for responsible end-of-life recycling. ## Flexible Deployment and Expansion Options Whether deployed as a standalone core switch or as part of a larger switching fabric, the Aruba 6410 V2 offers flexible deployment models that cater to enterprise campus, data center, and distributed office architectures. ### Chassis-Based Investment Protection Its modular chassis design allows organizations to grow their network by simply adding more line cards or upgrading existing ones. This protects initial investments while ensuring adaptability to future growth without full system replacement. #### Power Supply Options (Ordered Separately) To ensure full flexibility, power supplies are sold separately. This gives organizations the freedom to select AC, DC, or redundant power configurations based on their specific deployment environments and reliability requirements.
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    JL727A HPE Aruba 52-Port Managed Network Switch with PoE & 4 SFP+ Ports

    £2,394.81£2,873.77 Incl. VAT

    ## HPE Aruba JL727A: Overview of the 6200f Switch The HPE Aruba JL727A 6200f is a robust switch designed to meet the demands of modern networking environments. With a total of 52 ports and advanced management features, this device provides efficient connectivity for various applications. ### Key Characteristics of the HPE Aruba 6200f Switch ? Device Type: Managed Layer 3 Switch ? Total Ports: 52, enabling extensive network connectivity ? Stackable Configuration: Allows for scalability and flexibility in network design #### Physical Design and Specifications This switch is designed for rack-mount installation, occupying a single rack unit: ? Enclosure Style: Rack-mountable 1U ? Switch Type: 10 Gigabit Ethernet ### Port Distribution and Connectivity Offering a mix of Ethernet and SFP+ ports, the switch supports various networking needs: ? Ports: 48 x 10/100/1000 Mbps (PoE+) 4 x 1/10 Gbps SFP+ ? 48 x 10/100/1000 Mbps (PoE+) ? 4 x 1/10 Gbps SFP+ ? Power Over Ethernet (PoE): Supports PoE+ for powering devices directly through the network ? Power Budget: 370 Watts #### Performance Metrics The HPE Aruba JL727A excels in performance with impressive metrics: ? Switching Capacity: 176 Gbps ? Throughput: 130.9 Mpps ? Latency: 1 Gbps: 2.28 ?s 10 Gbps: 1.46 ?s ? 1 Gbps: 2.28 ?s ? 10 Gbps: 1.46 ?s ### Processor and Operational Requirements Equipped with a high-performance processor, the switch delivers efficient operation: ? Processor: 1 x Arm Cortex-A72 at 1.8 GHz ? Voltage Requirements: AC 100-120/200-240 V ? Power Consumption: 76 Watts during operation #### Connectivity Options The switch offers various interfaces to enhance connectivity: ? 48 x 10/100/1000 Base-T RJ-45 (PoE+) ? 4 x 1/10 Gbps LAN SFP+ ### Use Cases for the HPE Aruba 6200f Switch This switch is ideal for: ? Enterprise networks requiring robust performance and reliability ? Data centers needing high throughput and low latency ? Organizations implementing Power over Ethernet for efficient device management ##### The HPE Aruba JL727A The HPE Aruba JL727A 6200f switch is a powerful solution that combines performance, flexibility, and management capabilities. Its robust specifications make it an excellent choice for businesses looking to enhance their networking infrastructure. ## Ports The HPE Aruba JL727A Managed Network Switch is equipped with an impressive 52 ports, making it an ideal choice for businesses and organizations that require a high level of connectivity and scalability. These ports allow for the seamless integration of various devices and provide users with the flexibility to expand their network as needed. ### Increased Connectivity With 52 ports, this managed network switch offers an abundance of connectivity options. It provides users with the ability to connect multiple devices simultaneously, including computers, servers, printers, IP phones, and surveillance cameras. This versatility is particularly beneficial for businesses that rely on a wide array of devices to carry out their operations. #### Efficient Data Transfer The vast number of ports on the HPE Aruba JL727A ensures efficient data transfer within the network. With each port capable of transmitting data at high speeds, users can enjoy seamless and uninterrupted communication between devices. This feature is especially crucial in environments where real-time data transfer is essential, such as video conferencing or online gaming. #### Improved Scalability The 52 ports on this managed network switch allow for easy scalability. As businesses grow and expand, they often require additional devices and connections. The ample number of ports on the HPE Aruba JL727A ensures that users can easily accommodate new devices without the need for additional equipment or complex configuration. This scalability feature saves both time and money, making it an attractive option for businesses of all sizes. ##### Enhanced Network Performance The large number of ports on the HPE Aruba JL727A contributes to enhanced network performance. By distributing the network load across multiple ports, users can prevent bottlenecks and congestion. This results in faster data transfer rates and improved overall network efficiency. Whether it's a small office or a large enterprise, having 52 ports ensures that the network can handle the demands of multiple users and devices simultaneously. ## PoE The HPE Aruba JL727A Managed Network Switch features Power over Ethernet (PoE) capability, offering users a convenient and efficient solution for powering their network devices. With PoE, both power and data can be transmitted over a single Ethernet cable, eliminating the need for separate power cables and reducing clutter. ### Simplified Installation One of the primary benefits of PoE is its simplified installation process. Without the need for additional power cables, users can quickly and easily connect their PoE-enabled devices to the HPE Aruba JL727A Managed Network Switch. This feature is particularly advantageous in environments where running power cables may be challenging or impractical, such as in older buildings or outdoor installations. #### Cost Savings By utilizing PoE, businesses can save on installation and maintenance costs. The elimination of separate power cables means fewer materials and less labor required during installation. Additionally, PoE allows for centralized power management, reducing energy consumption and lowering electricity bills. This cost-saving feature makes the HPE Aruba JL727A an attractive option for businesses looking to optimize their infrastructure without breaking the bank. #### Flexibility and Mobility PoE enables greater flexibility and mobility within a network. With the ability to power devices remotely, users can deploy devices in locations where power outlets may be limited or inaccessible. This flexibility is particularly beneficial in environments such as warehouses or outdoor areas where devices need to be placed in various locations without compromising functionality. ##### Remote Device Management The HPE Aruba JL727A's PoE feature allows for remote device management. Users can monitor and control their powered devices from a central location, making it easier to troubleshoot issues and perform updates. This remote management capability saves time and resources, especially for businesses with multiple devices spread across different locations. ## SFP+ The HPE Aruba JL727A Managed Network Switch is equipped with four SFP+ (Small Form-factor Pluggable Plus) ports, providing users with high-speed connectivity options for their network infrastructure. These ports offer numerous benefits, including increased bandwidth, longer reach, and improved network performance. ### High-Speed Connectivity The SFP+ ports on the HPE Aruba JL727A support data transfer rates of up to 10 gigabits per second (Gbps). This high-speed connectivity is essential for bandwidth-intensive applications such as video streaming, data backup, and virtualization. Users can experience fast and reliable data transmission, ensuring smooth operation even in demanding network environments. #### Longer Reach SFP+ modules allow for extended reach compared to traditional copper Ethernet cables. With the use of optical fiber or copper cables, users can connect devices located at greater distances from the switch without compromising signal quality. This longer reach capability is particularly advantageous in large office spaces, data centers, or campus environments where devices may be spread across multiple floors or buildings. #### Improved Network Performance The HPE Aruba JL727A's SFP+ ports contribute to improved network performance by offering increased bandwidth and reduced latency. With higher data transfer rates and lower latency, users can enjoy faster response times and smoother operation of network applications. This enhanced performance is especially crucial in industries that rely heavily on real-time data processing, such as finance or healthcare. ##### Flexibility and Compatibility SFP+ ports provide users with flexibility and compatibility options. These ports support a wide range of SFP+ transceivers, allowing users to choose the most suitable type depending on their specific requirements. Whether it's a single-mode or multi-mode fiber connection or a copper-based solution, the HPE Aruba JL727A can accommodate various networking setups, ensuring compatibility with existing infrastructure and future expansion. In conclusion, the HPE Aruba JL727A Managed Network Switch offers an impressive array of features for businesses and organizations. With its 52 ports, users can enjoy increased connectivity, efficient data transfer, improved scalability, and enhanced network performance. The PoE capability simplifies installation, reduces costs, and provides flexibility and mobility. The four SFP+ ports offer high-speed connectivity, longer reach, improved network performance, and compatibility. Whether it's a small office or a large enterprise, the HPE Aruba JL727A delivers the performance and functionality required for modern networking needs.
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    R8Q71A HPE Aruba 6200m Poe 4sfp+ 48-Ports Manageable Rack-mountable Switch.

    £5,181.82£6,218.18 Incl. VAT

    ## Product Overview Of HPE Aruba 48-Ports Rack-mountable Switch The HPE R8Q71A Aruba 6200M is a robust and scalable Layer 3 switch engineered for modern enterprise networks. Featuring 48 high-density PoE access ports and 4 high-speed SFP+ uplink ports, this rack-mountable switch offers exceptional manageability, flexibility, and power efficiency. It is part of Aruba?s 6200M Series, renowned for enhancing access layer performance in campus and branch deployments. With advanced management capabilities and support for Aruba?s AOS-CX operating system, this switch enables secure, simplified, and highly available networking infrastructure. ## Technical Specifications Summary ? Product Number: R8Q71A ? Form Factor: 1U rack-mountable ? Ports: 48 x Gigabit Ethernet PoE+; 4 x SFP+ 10GbE ? Switching Capacity: 176 Gbps ? Forwarding Rate: 130.9 Mpps ? PoE Budget: Up to 740W ? Management: Web GUI, CLI, Aruba Central, REST API ? Routing: Layer 3 with OSPF, Static, VRRP ? Security: MACsec, 802.1X, ACLs, DHCP Snooping ? Stacking: VSX supported ? Power Supply: Modular, hot-swappable ? Cooling: Variable-speed fans, front-to-back airflow Exceptional Switching Power and Throughput ### Performance Highlights ? Robust switching capacity of 272 Gbps ensures smooth data transfers ? Delivers up to 130.9 Mpps for peak packet forwarding performance ? Low latency across speeds: 2.28?s (1G) and 1.46?s (10G) ? 8 MB packet buffer for handling traffic surges and large transfers ? 40 Gbps stacking bandwidth for seamless unit interconnection ## Comprehensive Power and PoE Distribution ### Smart Power Efficiency ? Maximum PoE budget of 1440W to support IP cameras, VoIP phones, and access points ? Power consumption ranges between 59W (idle) and 74W (operational) ? Dual internal power supply support (not pre-installed) ensures redundancy ? Accepts universal AC input: 100?240V at 50/60Hz ## Extensive Management and Security Suite ### Enterprise-Class Remote Access and Authentication ? Supports CLI, SNMP v1/v2c/v3 for simplified remote management ? Integrated web GUI for intuitive configuration and monitoring ? Advanced encryption using SSL, MD5, and FIPS 140-2 compliant algorithms ? AAA support via RADIUS and TACACS+ authentication ### Layer 2/3 Protocols and Multicast Features ? Supports OSPFv2/v3, RIP-2, ECMP for dynamic routing ? Handles 128 switched virtual interfaces (SVIs) ? Unicast routing for IPv4/IPv6 with 2000 route entries each ? Multicast management via IGMP and MLD with support for 1000 groups ## Smart Switching Technology and Traffic Optimization ### Advanced Switching Intelligence ? Layer 2 switching with ARP support, BPDU filtering, and VLAN segmentation ? DiffServ and ToS for traffic prioritization and QoS ? Equal-Cost Multi-Path routing (ECMP) for optimal path utilization ? Jumbo frame support up to 9220 bytes for large packet transfers ### Traffic Shaping and Multicast Optimization ? Deficit Weighted Round Robin (DWRR) queuing and Egress Queue Shaping (EQS) ? Source-Specific Multicast (SSM) and IGMP snooping for efficient broadcast control ? Unidirectional Link Detection (UDLD) enhances link failure detection ## Hardware Expandability and Interface Array ### Port and Connector Options ? RJ-45 console and management ports for local setup ? USB Type-A host interface and USB-C console port ? Hot-swappable modular power supply units supported ? Security slot compatible with Kensington locks for physical protection ## Protocol Standards and Compliance ### IEEE and Industry Standard Certifications ? Meets IEEE standards including 802.3af, 802.3at, 802.3bt for PoE ? Supports link aggregation with 802.3ad (LACP) ? Spanning Tree Protocols: 802.1D, 802.1W, and 802.1S ? LLDP (802.1AB) enabled for device discovery ## Capacity for Large Network Environments ### Table and Entry Limits ? Supports 16,000 MAC address entries for broad client management ? ACL entries per direction (Ingress/Egress): IPv4, IPv6, and MAC types ? Max stack size: Connect up to 8 switches in one logical group ## System Memory and Processing Power ### Embedded Hardware Specifications ? Powered by a 1.8 GHz ARM processor ? 8 GB DDR4 SDRAM for smooth system operations ? Onboard 16 GB flash storage for firmware and configuration files ##### Other Utility Features ? Automatic MDIX for simplified cabling ? Virtual Router Redundancy Protocol (VRRP) for network availability ? Built-in Trusted Platform Module (TPM) for hardware-based security ? Unsupported Transceiver Mode (UTM) alerts for non-compliant modules ? Integrated NTP support for precise time synchronization ### 48-Port Power over Ethernet (PoE) Capability Designed to power IP phones, wireless access points, surveillance cameras, and IoT devices, the switch?s PoE ports support IEEE 802.3af/at standards. These ports can deliver consistent and reliable power directly to connected devices without the need for additional power supplies. With intelligent power allocation, the switch dynamically manages the power budget to ensure optimal energy usage while maintaining full performance. #### Energy-Efficient Design The Aruba 6200M PoE switch incorporates Energy Efficient Ethernet (EEE) standards that help reduce operational costs by lowering energy consumption during periods of low data activity. Its smart fans, thermal sensors, and power-saving features contribute to lower total cost of ownership, making it an environmentally responsible solution. ## Advanced Networking with 4 SFP+ Uplinks Equipped with four 10GbE SFP+ uplink ports, the HPE R8Q71A ensures high-speed connectivity to core networks or aggregation switches. These uplinks offer seamless bandwidth scalability, facilitating aggregation of multiple access switches or direct connection to distribution or core layers. This makes the 6200M suitable for enterprise campus cores or high-density wiring closets. ### High Availability and Redundancy The uplinks support link aggregation and redundant connections, helping maintain network availability even in the event of link or port failure. With intelligent failover mechanisms, traffic is automatically rerouted, ensuring consistent connectivity and minimizing downtime. ## Aruba AOS-CX Operating System and Intelligent Management The switch runs on Aruba?s modern AOS-CX network operating system, which features a distributed architecture for fault isolation and resilience. With an intuitive web GUI, REST APIs, and CLI support, IT administrators gain flexible management options and real-time visibility into the network?s health. ### Aruba Network Analytics Engine (NAE) The integrated Network Analytics Engine (NAE) provides real-time monitoring and advanced analytics. By leveraging telemetry and automated event correlation, NAE helps rapidly identify and resolve issues before they impact business operations. The switch also supports dynamic and automated configuration through RESTful APIs and Python scripting. #### Configuration and Monitoring Administrators can manage configurations with cloud-based Aruba Central or locally via Command-Line Interface (CLI) and Web GUI. The switch supports SNMP, sFlow, NetFlow, and port mirroring for robust monitoring and traffic analysis. ## Layer 3 Switching and Routing Performance The HPE Aruba 6200M delivers enterprise-grade Layer 3 capabilities, including OSPF, static routing, policy-based routing, VRRP, and dynamic segmentation. These features enable the switch to operate efficiently in both large-scale LANs and distributed edge environments. ### Routing Protocol Support The switch includes support for RIP, OSPF, and static routing, enabling the creation of scalable and redundant routing paths. VRRP (Virtual Router Redundancy Protocol) adds failover capabilities by ensuring gateway availability. #### Security with Dynamic Segmentation Aruba?s Dynamic Segmentation technology allows IT teams to apply role-based access controls across wired and wireless networks. It automates traffic segmentation and security policies, ensuring appropriate access for users, devices, and applications regardless of their connection point. ## Robust Security Features The HPE R8Q71A switch enhances network security through 802.1X authentication, DHCP snooping, IP Source Guard, and dynamic ARP inspection. These features protect against spoofing and man-in-the-middle attacks. MACsec (IEEE 802.1AE) encryption provides layer 2 traffic security without compromising performance. ### Access Control and Threat Protection Integrated Access Control Lists (ACLs) and user-role policies help filter and restrict traffic based on security posture, ensuring that only authorized devices communicate across the network. Combined with Aruba ClearPass Policy Manager, IT teams can implement identity-based security measures. #### Secure Management Interfaces Secure access protocols such as SSH, HTTPS, and SNMPv3 ensure that management traffic is encrypted and authenticated. This prevents unauthorized users from gaining access to the switch configuration and data. ## Scalability and Stackable Architecture The Aruba 6200M supports Virtual Switching Extension (VSX), enabling high availability and simplified scalability through switch stacking. This architecture allows multiple switches to operate as a single virtual switch, offering ease of management and enhanced resilience. ### Redundancy Through Multi-Chassis Link Aggregation (MC-LAG) By enabling MC-LAG, the 6200M supports dual-homed topologies that provide seamless failover and link redundancy. This is critical in high-availability environments such as data centers and enterprise backbones. #### Modular Power Supply and Fans The switch?s modular design with hot-swappable power supplies and fans offers additional resilience. This allows for maintenance and hardware replacements without network downtime. ## Flexible Deployment Options Thanks to its 1U rack-mountable form factor, the Aruba 6200M fits seamlessly into standard server racks and network closets. It?s ideal for a wide range of deployments, including: ? Enterprise campus access layers ? Wiring closets in medium to large businesses ? Branch office infrastructure ? IoT and smart building implementations ### Silent Operation and Reduced Noise Levels Despite its high port density and PoE capabilities, the switch is optimized for quiet operation, making it suitable for sound-sensitive environments such as schools, retail locations, or open offices. ### Warranty and Support Services The Aruba 6200M series comes with limited lifetime warranty and optional support services including HPE Foundation Care and Proactive Care. These services offer software updates, expert-level technical support, and hardware replacement to ensure uptime and business continuity. #### Firmware and Software Updates Continuous innovation from Aruba ensures that firmware and OS updates are regularly released. Customers receive ongoing access to new features and bug fixes, helping them maintain peak performance and network security over time. ## Ideal Use Cases for HPE R8Q71A Aruba 6200M Switches The HPE R8Q71A Aruba 6200M switch is tailored for enterprise networks requiring scalable performance, superior PoE capabilities, and simplified management. It excels in: ? High-density access deployments in campuses and headquarters ? Branch office consolidation with simplified network management ? IoT convergence with integrated security and traffic segmentation ? Unified wired and wireless networks leveraging Aruba Central ### Integration with Aruba?s Ecosystem This switch integrates seamlessly with Aruba wireless access points, security gateways, and ClearPass Policy Manager. The end result is a unified wired and wireless solution with automated device onboarding, policy enforcement, and traffic visibility. #### IoT and Edge Readiness Built to support massive device density, the 6200M is future-proof for IoT scalability, device authentication, and automation. It helps enterprises move toward smart building solutions with secure and efficient infrastructure.
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    R9W86A HPE Aruba Networking Cx 8100 24x10g Sfp+ 24 Ports L3 Managed Switch.

    £6,967.53£8,361.04 Incl. VAT

    ## HPE R9W86A Aruba CX 8100 ? High-Performance 24x10G SFP/SFP+ with 4x40/100G QSFP28 Elevate spine-and-leaf, aggregation, or high-density access layers with the HPE R9W86A Aruba Networking CX 8100. This Layer 3, fully managed switch blends wire-speed 10GbE optics with flexible 40/100GbE uplinks, front-to-back airflow, and enterprise-class automation to keep modern data centers and core networks fast, resilient, and simple to operate. ? Manufacturer: HPE (Aruba Networking) ? Part Number / SKU: R9W86A ? Form Factor: 1U, rack-mountable, front-to-back cooling ? Port Mix: 24 ? 1/10GbE SFP/SFP+ + 4 ? 40/100GbE QSFP+/QSFP28 ? Switching Fabric: 1.28 Tbps ? Layer: L3 managed (advanced routing & automation) ### Main Attributes & Positioning Built for scale-out architectures, the CX 8100 provides deep buffers, rich ACL capacity, extensive routing, and standards-based interoperability. It?s ideal for enterprises standardizing on 10G optical access with high-bandwidth 100G uplinks to cores or spines. ? Optimized for leaf/aggregation roles with non-blocking performance. ? Designed for east-west traffic in virtualized and cloud-like environments. ? Front-to-back airflow aligns with hot-aisle/cold-aisle best practices. ? Dual hot-plug PSUs enhance business continuity. ## Hardware & Build ### Chassis & Cooling ? Enclosure Type: 1U rack-mountable ? Airflow: Front-to-back for predictable data-center thermals ### Processing & Memory ? CPU: 1 ? ARM Cortex-A72 at 1.8 GHz ? System RAM: 16 GB ? Flash Storage: 32 GB ### Port Density & Optics ? Access: 24 ? 1/10GbE SFP/SFP+ ? Uplinks: 4 ? 40/100GbE QSFP+/QSFP28 ? Management & Console: 1 ? USB-C console, 1 ? RJ-45 serial, 1 ? USB Type-A (aux) #### Throughput & Buffering ? Switching Capacity: 1.28 Tbps ? Packet Buffer: 32 MB ? Jumbo Frames: up to 9,000 bytes ## Layer 2 / Layer 3 Intelligence ### Routed Features ? Dynamic Routing: BGP-4, RIPv2, OSPF ? Multicast: IGMP, IGMPv2, IGMPv3, MLD, MLDv2 ? Overlay & EVPN: Dynamic VXLAN with BGP-EVPN for scalable multi-tenancy ? ECMP: Equal-Cost Multi-Path for scale-out designs ? Policy-Based Routing: Traffic steering based on policies ### Switching & Resiliency ? L2 Services: VLANs, QoS, port mirroring, sFlow telemetry ? Rapid Convergence: BFD, ERPS, RPVST+, UDLD ? Data Center Enhancements: DCB, RoCE / RoCEv2, GRE ? High Availability: Aruba VSX for distributed, hitless upgrades and no single point of failure ? BPDU Handling: Standards-compliant loop protection #### Tables, Groups & Scale ? MAC Address Table: 147,456 entries ? VLANs (max): 1,024 ? IGMP Groups: 4,000 ? MLD Groups: 4,000 ? IPv4 Multicast Routes: 4,096 ? IPv6 Multicast Routes: 4,096 ? Link Aggregation Groups: 54 #### ACL Resources (Ingress / Egress) ? IPv4: 16,384 ingress / 2,048 egress ? IPv6: 4,096 ingress / 512 egress ? MAC: 16,384 ingress / 2,048 egress ## Management, Security & Automation ### Remote Management Protocols ? SNMPv1/v2c/v3 and MIB support for monitoring & tooling integration ? NTP for time synchronization ? sFlow for network-wide visibility and capacity planning ### Authentication & Access Control ? Secure Shell (SSH/SSH2): encrypted CLI access ? RADIUS & TACACS+: centralized AAA and role-based administration ? Comprehensive ACLs: granular user, device, and application controls #### Quality of Service (QoS) ? Prioritize mission-critical flows with advanced queuing and scheduling ? Ensure predictable performance for storage, voice, and latency-sensitive apps #### Standards & Interoperability ? IEEE: 802.3z, 802.3ab, 802.3x, 802.3ae, 802.3an, 802.3ba, 802.3by ? Aggregation/Spanning: 802.3ad (LACP), 802.1ax, 802.1w, 802.1s, 802.1t ? VLAN & QoS: 802.1Q, 802.1p, 802.1v ? Discovery: 802.1AB (LLDP), 802.1AK ## Performance & Use Cases ### Where This Switch Excels ? Aggregation & Core: Non-blocking performance with 100G uplinks ? Leaf in Spine/Leaf: Predictable latency and EVPN-VXLAN scale ? Storage & HPC: RoCE/RoCEv2 and DCB for loss-sensitive traffic ? Campus Distribution: High-density 10G optical access with resilient L3 ### Scalability Highlights ? Abundant ACL space for micro-segmentation ? Large MAC/route tables to accommodate multi-tenant fabrics ? ECMP for active-active path utilization and growth ## Interfaces & Connectivity ### Front-Panel Ports ? 24 ? Gigabit/10GbE LAN SFP+ ? 4 ? 40/100GbE LAN QSFP28/QSFP+ uplinks #### Out-of-Band & Auxiliary ? 1 ? USB-C console ? 1 ? RJ-45 serial console ? 1 ? USB Type-A (auxiliary) ## Power, Cooling & Efficiency ### Power Subsystem ? PSU Type: Internal, hot-plug power supplies ? Installed: 2 (redundant) ? Maximum Supported: 2 ? Input: AC 100?127V / 200?240V, 50/60 Hz ? Standby Draw: ~120 W (typical) #### Thermal Direction ? Front-to-back airflow aligns with data-center cooling strategies ? Predictable ventilation for consistent intake and exhaust paths ## HPE R9W86A Aruba CX 8100 ? enterprise-grade 24x10G SFP+ with 4x40/100G QSFP28: overview for category shoppers The HPE R9W86A Aruba Networking CX 8100 switch family entry described here ? a 24x10G SFP+ plus 4x40/100G QSFP28 L3 managed, front-to-back airflow, rack-mountable platform ? is positioned for organizations that require high-density 10 Gigabit connectivity with native uplink options to 40 Gigabit and 100 Gigabit fabrics. This category page content explains what buyers, architects, and operations teams need to know when evaluating the Aruba CX 8100 model for top-of-rack, aggregation, or compact core deployments. The description emphasizes the product?s role in modern data center and campus fabrics, how its port mix accelerates server-to-switch connectivity and uplink consolidation, and why ArubaOS-CX software and modern management capabilities matter when you plan for automation, security, observability, and lifecycle simplicity. ### Purpose-built port configuration and who benefits The 24x10G SFP+ port density addresses the widespread need to migrate racks and server clusters from 1 Gigabit to 10 Gigabit server connectivity without over-provisioning physical space. The additional four QSFP28 ports that can operate as 40G or 100G uplinks let network teams consolidate uplinks to high-capacity aggregation or spine layers, reducing the number of discrete cables, transceivers, and intermediate devices. Customers running virtualized server farms, hyperconverged infrastructure, storage networks requiring predictable throughput, or east-west application traffic will find the 24x10G + 4xQSFP28 combination especially attractive because it balances high-port density at the access layer with upgrade paths to multi-hundred-gig fabrics. ### Form factor, airflow and rack readiness This model?s rack-mountable chassis and front-to-back airflow are designed for modern data center hot aisle / cold aisle cooling architectures and for environments where directional airflow is a requirement for thermal containment strategies. Front-to-back airflow minimizes impact on the data center?s chilled air management and simplifies integration into enclosed racks or containment systems. The chassis also supports standard rack rail mounting and is sized to fit common 19-inch racks, allowing easy replacement of older access switches or consolidation of multiple smaller switches into a single CX 8100 unit. For procurement and operations teams, this reduces rack footprint while preserving or increasing port count and power/thermal predictability. ## Software and programmability: ArubaOS-CX and modern automation One of the most important buying considerations for network architects is software capability. The Aruba CX operating system brings a programmable, modular network OS to the CX 8100 platform. ArubaOS-CX emphasizes modern automation, stable APIs, and operational features that reduce time-to-deploy and time-to-repair. For organizations adopting automation, the platform supports REST and streaming telemetry, configuration as code workflows, and integration with popular automation frameworks such as Ansible, Python scripting, and CI/CD pipelines. These programmable interfaces enable netops teams to treat the switch like an infrastructure resource that can be version-controlled, validated, and rolled out at scale. ### Lifecycle, observability and telemetry Observability is built into the platform in the form of enhanced telemetry streams, real-time statistics, and comprehensive counters that facilitate troubleshooting and capacity planning. Telemetry data can be exported to your chosen analytics or monitoring system for long-term trending or to feed machine learning models that detect anomalies. This capability shortens mean-time-to-innocence by enabling clearer root cause analysis of traffic patterns, microbursts, and host-level congestion issues. For teams transitioning from CLI-only operations, ArubaOS-CX provides both the traditional CLI and a rich API surface for automated monitoring and remediation. ### Network services and L3 feature set As an L3 managed switch, the CX 8100 supports a broad set of routing and Layer 3 services required in modern fabrics. It is designed to handle IPv4 and IPv6 routing scenarios, static and dynamic routing protocols, and routing features that matter at the access and aggregation layers. Expect support for OSPF and BGP for dynamic connectivity, VRF-based segmentation for multi-tenant or service separation, and ECMP for load-distribution across multiple paths. These routing capabilities let the device participate as a resilient aggregation point or a compact distribution node in larger campus or data center networks while preserving deterministic forwarding behavior. ## Performance, resilience and hardware design considerations Performance on this class of switch is tuned for low-latency, predictable forwarding behavior under mixed traffic loads. The architecture supports wire-speed forwarding on all ports while minimizing microburst impact through effective buffering strategies and hardware-based queuing. Resilience is achieved through redundant management and failover paths at the software level and through modular hardware elements like replaceable fans and serviceable power options at the chassis level. Network teams will value the predictable failover characteristics that support high-availability designs across hypervisor clusters and clustered storage arrays. ### Port optics, breakout and cabling strategies The 10G SFP+ ports are compatible with a wide range of SFP+ transceivers and DAC/active optical cable assemblies, giving you flexibility in choosing cost-effective copper or higher-performing fiber attachments. The QSFP28 uplinks provide flexible breakout options: you can run a QSFP28 as a single 100G link, as a 40G QSFP+ where supported, or use breakout cables to create multiple 10G/25G links when consolidation or staged migrations are required. This flexibility is crucial for phased data center upgrades because it allows gradual replacement of cabling and optics without disrupting live services. Choosing the right optics strategy ? mixing direct-attach copper for short, cost-sensitive connections and SR/LR optics for longer fiber runs ? helps control total cost of ownership while meeting performance goals. #### Planning for mixed-speed fabrics When deploying the CX 8100 in a mixed-speed fabric, careful planning of uplink consolidation and oversubscription ratios is required. The 24x10G access ports can be aggregated into the 40/100G uplinks using link aggregation and LACP or through routed uplinks with ECMP. Design decisions should factor in the expected east-west traffic, server-to-storage patterns, and whether storage fabrics or bursty east-west traffic will require larger buffers or additional uplink capacity. The switch?s flexible QSFP28 ports make it easy to add higher-capacity uplinks as traffic demands grow, which is ideal for organizations that want to avoid forklift upgrades when application use increases. ## Security, segmentation and compliance-ready features Security is a fundamental requirement for any modern network device. The Aruba CX 8100 supports a layered security model that includes access control lists, role-based access, and port-level security policies. In deployments where encryption and secure link-level protection are required, features such as MACsec can be leveraged where supported and licensed. Microsegmentation and VRF-based separation are key strategies supported by the platform to isolate tenant traffic, separate production from management planes, and enforce east-west traffic controls at the access layer. For compliance-driven environments, the ability to apply consistent policy across physical and virtual workloads simplifies audit readiness and reduces configuration drift. ### Identity, access and dynamic policies Modern campus and data center environments rely on identity and context-aware policies. Aruba platforms integrate with identity services and directory systems to enforce dynamic network access based on user, device, or workload identity. This means it?s possible to apply granular security and quality-of-service rules tied to workloads rather than only to IP or MAC addresses, improving both security posture and application performance. The device can also integrate with centralized policy controllers and orchestration tools to ensure consistent enforcement as workloads move or scale. ## Operational simplicity and day-2 management Operational simplicity is achieved through a combination of ArubaOS-CX?s automation, built-in health checks, and integration with Aruba Central or third-party orchestration systems. Zero-touch provisioning (ZTP) capabilities reduce the labor required to bring new switches into production, and configuration templates or device groups let administrators push consistent settings across multiple boxes in a single action. For day-2 operations, the platform supports advanced diagnostics and troubleshooting tools that shorten time-to-resolve by providing detailed visibility into cable status, transceiver diagnostics, CPU and memory health, and per-interface performance metrics. ### Maintenance windows and in-field servicing When planning maintenance windows, network teams should note the platform?s support for online software upgrades and rolling update patterns where applicable. Redundant design at the fabric level minimizes disruption during maintenance, and replaceable field parts such as fans simplify in-rack serviceability. Because the CX 8100 targets environments that need high uptime, it?s often deployed with redundant uplinks and paired for graceful failover. Documenting upgrade paths and testing in a non-production environment before wide-scale changes helps ensure that software revisions and feature toggles behave as expected. ## Use cases and deployment scenarios This switch is ideal for a range of common and evolving enterprise network patterns. In a data center top-of-rack (ToR) role it connects server blades, hyperconverged nodes, and storage arrays to high-capacity aggregation fabrics. In campus networks it can function as a compact distribution switch where multiple 10G links need to converge into fewer 40/100G uplinks. For service providers with edge compute requirements, the device offers a balance of density and uplink flexibility without consuming excessive rack units. In all these scenarios, its combination of SFP+ and QSFP28 ports simplifies migration from legacy 1G infrastructures to 10G and beyond. ### Examples of workload fits High-performance virtualized environments and container platforms benefit from the increased east-west bandwidth and low-latency forwarding. Database clusters and storage traffic especially appreciate the reduced oversubscription when uplinks are upgraded to 40G or 100G. Virtual desktop infrastructures, AI/ML training clusters, and media processing pipelines also see measurable benefits from a larger aggregate bandwidth and deterministic forwarding. For campuses, linking buildings or wiring closets with 40G/100G uplinks reduces the number of devices required and simplifies network topologies. ## Choosing optics and transceivers: a practical guide Choosing the correct optics is a critical planning detail. For short-reach connectivity inside a rack or between adjacent racks, direct-attach copper or short-range multimode optics are cost-effective choices. For longer runs that cross rooms or buildings, single-mode optics with appropriate reach are appropriate. The QSFP28 uplinks are versatile; they can operate as native 100G or be broken out to multiple 10G/25G links using breakout cables ? a useful capability for phased upgrades. When creating a procurement list, match transceiver types and distances to your cabling plant and reserve spares for common failure modes. #### Power considerations and cable management Although this model is not a PoE access switch, power provisioning and cable management still matter. A clean cable plant reduces airflow obstruction, supports easier inventory and maintenance, and improves cooling efficiency in containment designs. Power selection should consider the redundancy model you intend to use ? single or dual power inputs where available ? and the expected power draw under peak port utilization. Coordinating power and airflow planning with facilities avoids thermal throttling and supports predictable long-term operations. ## Integration with Aruba ecosystem and third-party tools Deploying the CX 8100 typically happens as part of a broader Aruba or mixed-vendor ecosystem. Integration with Aruba Central or on-premises management tools provides centralized visibility, role-based access, and lifecycle management across wired and wireless infrastructure. Open APIs and common standards ensure the switch can also integrate with third-party orchestration, security, and monitoring tools. This interoperability gives IT teams the flexibility to adopt cloud-based management or maintain traditional on-premises control without sacrificing feature parity in day-to-day operations. ### Licensing, support and warranty considerations Before purchase, review licensing models for advanced features such as encryption, advanced telemetry, and premium support services. Enterprise-grade support contracts can include enhanced SLAs, on-site spares, and access to feature-rich software releases. Warranty and support tiers vary by vendor and region; organizations should align their purchase with the level of operational assurance they require. For critical deployments, extended support and hardware replacement options can provide rapid recovery paths and predictable operational budgets.
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    JL864A HPE Flexfabric 5901AF 48 Ports L3 1U Managed Switch

    £2,967.53£3,561.04 Incl. VAT

    ## HPE FlexFabric 5901af Switch Overview #### General Attributes ? Manufacturer: HPE ? Part Number: JL864A ? Form Factor: 1U rack-mountable chassis ? Device Type: Layer-3 managed Ethernet switch ## Performance Specifications ### Throughput & Latency #### Data Plane Metrics ? Switching capacity: 336 Gbps ? Line-rate forwarding: 250 Mpps ? 1 Gbps port latency: 5 ?s ? 40 Gbps port latency: 1.2 ?s ### Table Capacities #### Routing & MAC Entries ? IPv4 routes: 16 000 entries ? IPv6 routes: 8 000 entries ? MAC address table: 110 000 entries ? Jumbo frame support: up to 9 216 bytes ## Port Configuration & Expansion ### Ethernet Interfaces #### Downlink Connections ##### Gigabit Ports ? 48 ? 10/100/1000 Mbps RJ-45 ports #### Uplink Modules ##### SFP+ & QSFP+ Slots ? 4 ? 1/10 GbE SFP+ cages ? 2 ? 40 GbE QSFP+ cages ### Console & USB Access #### Management Connectors ? 1 ? RJ-45 console port ? 1 ? Mini-USB CLI port ? 1 ? USB Type-A for file transfers ## Power & Thermal Design ### Power Supply Options #### Redundant Architecture ? Internal hot-swappable PSU (optional) ? Up to two modules for 1+1 redundancy ### Airflow & Cooling #### Thermal Management ? Front-to-rear airflow optimized for data halls ? Energy-efficient cooling for continuous operation ## Software Features & Protocol Support ### Layer-3 Routing Protocols ? OSPFv2/v3, BGP-4, ISIS, RIP v1/v2, RIPng, VRRP ? Static IPv4/IPv6 routes ### Layer-2 Switching & Security ? VLAN tagging, Q-in-Q, MSTP, RSTP, STP loop guard ? IGMP snooping, broadcast-storm control ? Link aggregation (LACP), Device Link Detection Protocol ### Management & Access Control #### Remote Management ? SNMP v1/2c/3, Telnet, SSH v2 ? Syslog, NTP, TFTP support #### Authentication & Policies ? RADIUS, TACACS+/TACACS ? ACL enforcement, QoS, CoS ### Advanced Networking Capabilities ? OpenFlow-enabled for SDN integration ? In-service software upgrades (ISSU) ? Zero-Touch Provisioning (ZTP) ## Standards Compliance & Memory ### Protocol & Industry Standards ? IEEE 802.1D/w/s/p/q/ad, IEEE 802.3x/ad/ae/ah/ag ? LLDP (IEEE 802.1AB), Ethernet OAM ### System Memory #### DRAM & Flash ? 2 GB SDRAM for control-plane tasks ? 1 GB flash for firmware and configs ## JL864A FlexFabric 5901AF 48 Ports Switch Overview The JL864A HPE FlexFabric 5901AF 48 Ports 1GBase-T 4XG 2QSFP+ L3 1U Managed Rack-Mountable Switch sits in a category designed for high-density Gigabit Ethernet access with flexible uplink capacity and advanced Layer 3 capabilities. This class of switches is engineered for modern campus edge, aggregation for small to mid-size cores, and server access at the top of rack where a blend of copper 1G connectivity and high-throughput fiber uplinks is essential. With forty-eight RJ-45 1GBase-T access ports, a set of multi-gig or 10-gig?class ?XG? uplinks, and dedicated QSFP+ slots for higher-bandwidth interconnects, the platform enables seamless growth, deterministic performance, and simplified operations in consolidated 1U rack space. Buyers researching this category typically prioritize resilient Layer 2/Layer 3 switching, predictable low latency, comprehensive security controls, robust Quality of Service (QoS), and a management stack that supports both traditional CLI and modern API-driven automation. The JL864A designation within the HPE FlexFabric 5900-series lineage emphasizes balanced feature depth and investment protection?ideal for organizations standardizing on 1G copper user/device access while preparing for faster 10G and 40G links upstream. As a managed rack-mountable switch in a 1U form factor, it optimizes space while providing the power and intelligence demanded by contemporary wired networks. ## Hardware Architecture and Port Mix The central promise of a ?48 Ports 1GBase-T 4XG 2QSFP+? switch is its versatile port composition. Forty-eight copper RJ-45 interfaces provide ubiquitous device reach with PoE/PoE+ support models available in the broader category (buyers should confirm PoE budget needs for phones, access points, or cameras). Complementing these are uplink options typically intended for 10G-class fiber or DAC connections, allowing network designers to aggregate traffic cleanly and scale throughput. The two QSFP+ ports deliver additional headroom for stacking-style links, high-speed trunking, or connectivity to distribution or core layers where bandwidth consolidation matters most. By arranging all this in a 1U rack-mountable chassis, the JL864A category emphasizes high density without sacrificing airflow or access to cabling. The hardware form factor supports cable-management arms, front-to-back ventilation patterns common in data centers, and standardized rails. This ease of installation is crucial in closets and micro-data centers where every rack unit counts and where structured cabling needs to remain neat, labeled, and accessible. ## Layer 2 and Layer 3 Feature Depth A core reason to select the JL864A HPE FlexFabric 5901AF L3 managed switch category is its balance of Layer 2 switching and Layer 3 routing. Typical capabilities include VLAN segmentation with 802.1Q tagging, Spanning Tree variants for loop prevention, link aggregation for higher bandwidth and resiliency, and storm control to protect the fabric from broadcast or multicast bursts. Where the category differentiates itself is in routing functions that move traffic between VLANs at wire speed, enabling routed access designs that offload the core and simplify policy enforcement at the edge. #### Advanced Layer 2 Enhancements ? Multiple Spanning Tree (MSTP) or Rapid STP: Flexibly maps VLANs to spanning-tree instances for optimized path selection and fast recovery. ? Link Aggregation (LACP): Allows active/active bundles toward distribution and server NIC teaming for resilient throughput. ? Loop Protection & UDLD-style Functions: Protects against miswired patch panels or sudden loop conditions caused by unmanaged devices. ? IGMP Snooping & MLD Snooping: Efficiently forwards multicast streams for IPTV, conferencing, and surveillance networks. #### IPv4 and IPv6 Readiness Dual-stack campus designs remain common. A category anchored by the JL864A HPE FlexFabric 5901AF ensures that both IPv4 and IPv6 routing, ACLs, and neighbor discovery security are considered. This supports gradual migrations: devices and applications can adopt IPv6 at their own pace while policy maintains parity. Operations teams benefit from consistent show commands, API endpoints, and telemetry that treat IPv6 as a first-class citizen rather than an afterthought. ## Quality of Service (QoS) The JL864A HPE FlexFabric 5901AF 1U managed switch category provides the QoS scaffolding necessary to prioritize interactive and latency-sensitive traffic while protecting bulk data transfers from starving critical services. As enterprise applications distribute across cloud and on-premises, maintaining consistent markings and queueing behavior across the access, distribution, and core layers keeps user experience stable. ## Use Cases The JL864A HPE FlexFabric 5901AF 48-port 1GBase-T switch category is versatile across many verticals. Its port mix and L3 abilities suit both traditional office networks and specialized environments where deterministic performance, security, and manageability are non-negotiable. Below are representative scenarios where this category excels. ### Campus Access for Knowledge Workers In a typical enterprise building, each floor?s wiring closet must accommodate dozens to hundreds of endpoints. The JL864A category provides 48 copper access ports?the sweet spot for a single rack unit?to onboard PCs, docked laptops, VoIP phones, and printers. Where wireless is prevalent, the uplink capacity handles AP backhaul with headroom for growth. Dynamic VLANs and 802.1X ensure workers and guests are segmented correctly, while QoS maintains crystal-clear voice/video during peak hours. ### Healthcare and Clinical Networks Hospitals and clinics need reliable wired access for EHR terminals, imaging workstations, badge printers, and bedside devices. The L3 segmentation at the access layer allows clinical and guest traffic to remain separate, supporting privacy mandates. The redundant uplink design prevents outages from affecting critical floors, and deterministic QoS helps with real-time telemetry and voice communications used by clinical staff. Port security rules can enforce strict admission for authorized medical equipment. ### Higher Education and Research Universities often have diverse device populations and seasonal surges. Dorms, lecture halls, labs, and libraries all benefit from a 48-port 1G access density with fast uplinks. QoS templates can prioritize lecture capture streams and collaboration tools, while ACLs enforce isolation between student networks and administrative resources. With automation-friendly management, IT can scale consistent policies across dozens of buildings with minimal manual intervention. ### Retail and Branch Aggregation Retail stores and distributed branches frequently need PoS terminals, IP cameras, digital signage, IoT sensors, and corporate endpoints to share the same closet. The JL864A category?s L3 and ACL toolkit helps segment PCI-sensitive systems from general office traffic. Uplinks to SD-WAN or MPLS can be shaped and prioritized for transaction reliability. Multicast management enables synchronized digital signage feeds with minimal bandwidth overhead. ## Designing Networks Architects can leverage the port composition to create topologies that balance cost, simplicity, and performance. Below are practical design patterns for the JL864A class that avoid over-engineering while ensuring straightforward scalability. ### Collapsed Access?Distribution In small or moderate sites, combining access and distribution reduces hardware count and cabling complexity. Use the 4XG uplinks to build port-channels between two JL864A-class switches for redundancy, then use QSFP+ to connect to a core or to an upstream router pair if the site backhaul requires higher throughput. Inter-VLAN routing at the access switches simplifies ACL placement and speeds convergence. ### Traditional Three-Tier Campus For larger campuses, deploy multiple JL864A category switches at the access layer, each dual-homed via 10G-class uplinks to distributed pair(s) at the aggregation layer. The 2?QSFP+ ports provide higher-bandwidth trunks from aggregation to the core, allowing inter-building traffic to traverse oversubscribed links without bottlenecks. Leverage MSTP or link aggregation to ensure active paths and fast failover. ### Top-of-Rack (ToR) With Copper Servers Some server racks still rely on 1G copper NICs for legacy systems or management networks. A JL864A-class 48?1G switch in ToR can consolidate these servers while uplinking via 10G or QSFP+ to the aggregation switches. This keeps management planes segregated and simplifies change windows by isolating legacy applications from the production data plane.
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    R8S96A HPE Aruba 48-Ports Cx 10000-48y6c L3 Gigabit Ethernet Rack-mountable Switch

    £7,142.86£8,571.43 Incl. VAT

    ## Product Overview Of HPE Aruba 48-Ports Rack-mountable Switch The HPE Aruba R8S96A 48-Port Cx 10000-48y6c L3 Managed Switch is a next-generation, enterprise-grade networking solution engineered for modern data centers, large-scale enterprises, and cloud-driven environments. It provides advanced routing capabilities, flexible deployment options, and cutting-edge connectivity speeds. With 48 SFP+/SFP28 ports supporting 1/10/25 Gigabit Ethernet and 6 QSFP+/QSFP28 uplinks for 40/100 Gigabit Ethernet, it delivers unmatched scalability and high-performance aggregation for businesses that demand speed, reliability, and flexibility. ## Technical Specifications #### Key Hardware Highlights ? 48 x SFP+/SFP28 ports (1/10/25GbE) ? 6 x QSFP+/QSFP28 uplink ports (40/100GbE) ? Rack-mountable 1U design ? Redundant hot-swappable power supplies ? Advanced cooling fans for thermal efficiency #### Software Features ? Layer 2 and Layer 3 advanced switching ? Dynamic routing protocols: OSPF, BGP, VRF ? QoS, multicast, and traffic shaping ? Security: ACLs, 802.1X, role-based policies ? Cloud management via Aruba Central High-Speed Port Architecture ? 48 ? 1/10/25 Gigabit Ethernet SFP, SFP+, and SFP28 ports ? 6 ? 40/100 Gigabit QSFP+ and QSFP28 uplinks ? Supports seamless integration with modern data centers and cloud-driven infrastructures ### Enclosure and Cooling Design ? Compact 1U rack-mountable chassis ? Front-to-back airflow system ensures optimal thermal management ? Energy-efficient construction designed for continuous operation ### Switching Power and Throughput ? Switching capacity: 3.6 Tbps ? Latency less than 1.30 microseconds ? Engineered to handle heavy traffic loads in large-scale environments #### Capacity Support ? IPv4 host entries: up to 120,000 ? IPv6 host entries: 52,000 ? Unicast routes: IPv4 (131,072) and IPv6 (32,732) ? Multicast routes: IPv4 (4,094) and IPv6 (4,094) ? IGMP and MLD group memberships: 4,094 each ? MAC address table: 98K entries #### Routing Protocol Compatibility ? Supports OSPF, OSPFv3, and RIP/RIPng ? Multiprotocol BGP and Policy-Based Routing (PBR) ? ECMP load balancing for optimized traffic flows ? Static IPv4 and IPv6 routing ? GRE tunneling support ### Management and Control Features ? Command-line interface (CLI) for direct configuration ? SNMP support for monitoring and automation ? RESTful API for modern network management integration ? Multiple console access options (RJ-45, USB, micro-USB) ? Dedicated RJ-45 LAN management port #### System Resources and Storage ? 32 GB of RAM for processing intensive workloads ? 64 MB flash memory for configurations and updates ? Built-in 64 GB SSD for enhanced performance ##### Expansion & Connectivity Options ? 1 ? Serial RJ-45 interface ? 1 ? USB console port ? 1 ? Micro-USB console port ? 1 ? LAN RJ-45 management interface ## Port Configuration and Connectivity ### 48 x 1/10/25 Gigabit SFP+/SFP28 Ports Designed for versatility, the Aruba R8S96A includes 48 small form-factor pluggable (SFP+/SFP28) slots supporting multiple speeds. These ports offer backward compatibility with older 1GbE optics while also enabling high-speed 25GbE connections. Such a configuration allows IT administrators to create hybrid environments, combining legacy infrastructure with high-bandwidth networks. ### 6 x 40/100 Gigabit QSFP+/QSFP28 Uplinks For backbone connectivity and data center aggregation, the switch includes six uplink ports that support 40GbE and 100GbE speeds. These uplinks make it ideal for large-scale data transfers, inter-switch communication, and seamless integration into high-performance server clusters. ## Performance and Scalability ### High-Bandwidth Architecture The switch?s architecture ensures low latency, non-blocking throughput, and wire-speed performance. With advanced ASIC technology, it can handle demanding workloads such as virtualization, cloud storage, and real-time applications. ### Flexible Scaling for Enterprises Whether deployed in campus core networks or data centers, the Aruba 10000-48y6c switch allows seamless scalability. Administrators can start with a modest deployment and easily expand capacity as requirements grow, without replacing the entire infrastructure. ## Security and Compliance ### Integrated Network Security Security is central to enterprise networking, and the R8S96A integrates multiple protective mechanisms. Features such as Access Control Lists (ACLs), port-based authentication (802.1X), and role-based access controls help prevent unauthorized usage. ### Data Protection Standards The switch is designed with industry-standard encryption and compliance support, enabling organizations to meet regulatory requirements while safeguarding sensitive enterprise and customer data. ## Management and Monitoring ### Intelligent Cloud-Based Management Aruba Central cloud management provides a centralized, intuitive interface for configuring and monitoring the switch. Administrators can gain end-to-end visibility, automate tasks, and apply policies consistently across multiple devices. ### On-Premise Management Options For organizations requiring local control, the switch can also be managed via Aruba AirWave or traditional CLI/GUI interfaces. This flexibility accommodates different IT strategies, from fully cloud-driven to on-premise-only models. ## Energy Efficiency and Sustainability ### Low Power Consumption The R8S96A is engineered with energy-efficient components and intelligent cooling mechanisms, minimizing overall power usage. It supports Energy Efficient Ethernet (EEE) standards to reduce operating costs. ### Eco-Friendly Design HPE Aruba emphasizes sustainability, ensuring the switch is manufactured using environmentally responsible practices. Its long lifecycle and reduced energy footprint contribute to greener IT operations. ## Deployment Scenarios ### Enterprise Campus Networks In large enterprises, the R8S96A can serve as a core or aggregation switch, supporting high-bandwidth connections across multiple floors and departments. Its strong security and routing features make it suitable for distributed teams. ### Data Center Environments With support for 25GbE access ports and 100GbE uplinks, the switch excels in data centers where high-speed east-west and north-south traffic are critical. It can seamlessly connect storage systems, virtualization hosts, and high-performance computing clusters. ### Cloud and Hybrid Workloads Organizations transitioning to hybrid cloud environments can benefit from the Aruba 10000-48y6c?s integration with cloud services. It simplifies multi-cloud connectivity while ensuring traffic is securely routed across platforms. ## Reliability and Uptime ### Redundant Hardware The Aruba R8S96A is equipped with dual power supplies and field-replaceable fan trays. These redundant components minimize downtime and ensure continuous operation, even in the event of hardware failures. ### High Availability Features Features such as link aggregation, hitless software upgrades, and fast failover mechanisms provide enterprises with a resilient network foundation, supporting mission-critical applications without interruption.