Description
Advanced Layer 3 Routing
Advanced Layer 3 Routing refers to the ability of a network switch to perform advanced routing functions at the third layer (network layer) of the OSI (Open Systems Interconnection) model. This provides the switch with the ability to forward network traffic between multiple subnets and networks, improving network performance and scalability.
Layer 3 routing involves the use of routing protocols, such as OSPF (Open Shortest Path First), BGP (Border Gateway Protocol), and EIGRP (Enhanced Interior Gateway Routing Protocol), to dynamically discover and exchange routing information between network devices. This allows the switch to determine the best path for forwarding network traffic based on factors such as network topology, traffic volume, and network congestion.
Advanced Layer 3 routing provides a number of benefits, including improved network performance, scalability, and security. It allows network administrators to segment large networks into smaller, more manageable subnets, improving network management and reducing the cost and complexity of network administration.
Stacking and Link Aggregation
Stacking: Stacking refers to the technology that allows multiple network switches to be interconnected and managed as a single logical unit. This allows for increased scalability and simplified management, as the stack of switches appears as a single entity to the network administrator. Stacking also provides redundancy and high availability, as if one switch fails, the other switches in the stack continue to function normally.
Link Aggregation: Link Aggregation (LAG) is a network technology that combines multiple physical network connections into a single logical connection. This results in increased bandwidth, redundancy, and improved network performance. LAG works by distributing network traffic across multiple physical links, providing increased bandwidth and increased fault tolerance in the event of a link failure. This helps ensure that network traffic is not interrupted and that network performance is optimized.
Remote Monitoring
Remote Monitoring refers to the ability to monitor and manage network devices, such as switches, routers, and servers, from a remote location. This allows network administrators to monitor and manage their networks from anywhere, without the need to be physically present at the network location.
Remote monitoring is achieved through various technologies, such as Simple Network Management Protocol (SNMP), Remote Management Interface (RMI), and Telnet. These technologies allow the network administrator to connect to the network devices from a remote location, view status and performance information, and make changes to the network configuration.
Remote monitoring provides a number of benefits, including improved network visibility and control, reduced downtime, and improved network security. It allows administrators to quickly respond to network issues and perform maintenance and upgrades, even when they are not physically present at the network location. This helps to improve network uptime, increase efficiency, and reduce the cost of network administration.
General Information about the HPE JL724A
- Manufacturer: HPE
- Part Number or SKU# JL724A
- Type: Networking
- Switch-Type: 28 Ports Switch
Technical Information
- Enclosure Type : Rack-mountable 1u
- Subtype : 10 Gigabit Ethernet
- Ports : 24 X 10/100/1000 (poe+) + 4 X 1 Gigabit / 10 Gigabit Sfp+
- Switching Capacity: 128 GBPS
- Throughput: 95.2 Mpps
- Latency (1 Gbps): 2.28 ?S
- Latency (10 Gbps): 1.46 ?s
- Processor : 1 X Arm Cortex-a72: 1.8 Ghz
Interfaces
- 24 X 10/100/1000 Base-t Rj-45
- 4 X 1/10gbit Lan Sfp+
Power
- Voltage Required : Ac 120/230 V
- Power Consumption Operational : 59 Watt