Description
Comprehensive Network Monitoring
Comprehensive network monitoring refers to the practice of monitoring all aspects of a network’s performance and operation in real-time. This includes monitoring network traffic, performance metrics, device health, and security events. The goal of comprehensive network monitoring is to proactively identify and resolve potential problems before they have a significant impact on network operations.
Comprehensive network monitoring typically involves the use of specialized software tools and devices that are designed specifically for this purpose. These tools collect data from various network devices and provide network administrators with a centralized view of network performance and operation. This information can then be used to detect performance issues, identify trends, and make informed decisions about network configuration and optimization.
Comprehensive network monitoring is critical for ensuring the reliability and availability of a network. By monitoring the network in real-time, administrators can quickly identify and resolve issues before they cause disruptions to network operations. This helps to ensure that the network is running optimally, reduces downtime, and improves overall network performance and security.
Environmental considerations refer to the impact that a product or technology has on the environment. In the context of the HPE JL701A#ABA Aruba 8360-32y4c switch, environmental considerations include factors such as energy consumption, cooling requirements, recyclability, and material choice.
Energy consumption is a critical environmental consideration in network equipment as data centers and other network facilities consume a significant amount of energy. The HPE JL701A#ABA switch is designed to be energy-efficient, with features such as low power consumption, automatic power-down of inactive ports, and support for Energy Efficient Ethernet (EEE).
Cooling requirements are also important environmental considerations in network equipment. The HPE JL701A#ABA switch is designed for high-density installations and has a compact form factor that requires minimal cooling.
Recyclability and material choice are also critical considerations. The switch is designed to be recyclable and made of materials that are safe for the environment and for disposal.
Advanced Network Virtualization
Advanced network virtualization is a technique that enables the creation of multiple virtual networks on top of a physical network infrastructure. This allows for the isolation and independent operation of multiple virtual networks, each with its own network configuration, security policies, and network services. The virtual networks are created using virtualization software and can be used for different purposes, such as testing and development, production, or specific business use cases.
By using advanced network virtualization, organizations can simplify network management and reduce hardware costs, as multiple virtual networks can run on the same physical infrastructure. Additionally, virtual networks can be quickly created, modified, or deleted without affecting the underlying physical network, making it easier to respond to changing business requirements.
Advanced network virtualization also enables organizations to better manage and secure their networks, as virtual networks can be isolated from each other and configured with specific security policies.
General Information about this HPE JL701A
- Manufacturer: HPE
- Part Number or SKU# JL701A
- Device Type: Switch 32 Ports L3 Managed
Technical Information of HPE 32 Ports Switch
- Enclosure Type: Back To Front Airflow Rack-Mountable 1u
- Sub type: 100 Gigabit Ethernet
- Ports: 28 X 1/10/25 Gigabit SFP / SFP+ / SFP28 + 4 X 10 Gigabit / 25 Gigabit SFP28 + 4 X 40/100 Gigabit QSFP+ / QSFP28
- Jumbo Frame Support: 9kb
- Flash Memory: 32 GB
- Processor: 1: 1.8 GHz
- Ram: 16 GB
- Capacity: Virtual Interfaces (vlans) Per Port For 802.1q: 4094
- Routing Protocol: Ospf, Egp, Bgp-4, Bgp, Igmpv2, Igmp, Vrrp, Pim-sm, Static Ip Routing, Igmpv3, Gre, Ospfv3, Static Ipv4 Routing, Static Ipv6 Routing, Ecmp, Policy-based Routing (pbr), Mldv2, Mld, Mstp, Rstp, Stp
- Remote Management Protocol: Snmp, Rmon, Snmp 3, Snmp 2c, Tftp, Ssh, Ssh-2, Cli, Sftp, Ntp, Icmp, Ipv4, Ipv6, Rstp
- Encryption Algorithm: Fips 140-2
- Authentication Method: Secure Shell (ssh), Radius, Tacacs+, Secure Shell V.2 (ssh2)
- Features: Controlling flow, ip-routing, Support for Dhcp, Arp, VLAN, Igmp Snooping, Port Mirroring, and manageability Support for IPv6, Sflow, Support for Multiple Spanning Tree Protocol (mstp), Rapid Spanning Tree Protocol (rstp), Spanning Tree Protocol (stp), Access Control List (acl), and Quality of Service (qos), Support for jumbo frames, Snooping Mld. Ipv4 Support, Rapid Per-Vlan Spanning Tree Plus (pvrst+), Bidirectional Forwarding Detection (bfd), Uni-Directional Link Detection (udld), Fan Tray, Redundant Hot Swappable Fans, Link Aggregation Control Protocol (lacp), Deficit Weighted Round Robin (dwrr), Strict Priority, Packet Storm Protection, Congestion Control, and Loopback Support for Macsec, Vxlan Tunnel Endpoints (vtep), Explicit Congestion Notification (ecn), Bridge Protocol Data Unit (bpdu), Internet Control Message Protocol (icmp), 32MB, Multicast Source Discovery Protocol (msdp), Ethernet Ring Protection Switching (erps), and User Datagram Protocol (UDP), Virtual Extensible Lan (VXLAN), Link Aggregation, Fast Leave, and Protocol Independent Multicast (pim), Broadcast Mode, Virtual Switch Extension (vsx), Rapid Reconfiguration of Spanning Tree (rstp), Cisco IOS IP Service-level Agreements (ipsla), and Multicast Routing
- Compliant Standards: Ieee 802.3z, Ieee 802.1d, Ieee 802.1q, Ieee 802.1p, Ieee 802.3x, Ieee 802.3ad (lacp), Ieee 802.1w, Ieee 802.3ae, Ieee 802.1s, Ieee 802.1t, Ieee 802.1ab (lldp), Ieee 802.1ak, Ieee 802.3ba, Ieee 802.1ax
Expansion / Connectivity for this HPE Rack-Mountable Switch
- 28 X 1/10/25gbit Lan
- 1 X Serial (console)
- 1 X USB-c Console
- 1 X Lan Rj-45
- 1 X USB-c
- 4 X 100gbit/40gbit Lan QSFP28/QSFP+
- 4 X 10/25gbit Lan SFP28/SFP+
- Voltage Required: Ac 120/230 V (47 – 63 Hz)
- Power Consumption Operational: 550 Watt
