Spanning Tree Port Configuration | Asante Technologies 65120

Forward Delay

After a recalculation of the spanning tree, the Forward Delay parameter regulates the delay before each port begins transmitting traffic. If a port begins forwarding traffic too soon (before a new root bridge has been selected), the network can be adversely affected. The default value for Forward Delay is 15 seconds.

Note: The above parameters (Hello Time, Maximum Age and Forward Delay) are constrained by the following formula:

(Hello Time + 1) <= Maximum Age <= 2 x (Forward Delay – 1)

In general, reducing the values of these timers will make the spanning tree react faster when the topology changes, but may cause temporary loops as the tree stabilizes in its new configuration. Increasing the values of these timers will make the tree react more slowly to changes in topology, but will make an unintended reconfiguration less likely. All of the bridges on the network will use the values set by the root bridge. It is only necessary to reconfigure that bridge if you wish to change the parameters.

6.1.3 Spanning Tree Port Configuration

To set the Port Priority and Port Path Cost values for STP, access the Spanning Tree/Port Settings screen (console or telnet), or the Spanning Tree/Port Settings page (in the web interface).

Port Priority

The port priority is a spanning tree parameter that ranks each port, so that if two or more ports have the same path cost, the STP selects the path with the highest priority (the lowest numerical value). By changing the priority of a port, you can make it more, or less, likely to become the root port. The default value is 128, and the value range is 0 – 255.

Port Path Cost

Port path cost is the spanning tree parameter that assigns a cost factor to each port. The lower the assigned port path cost is, the more likely that port will be accessed. The default port path cost for a 10 Mbps or 100 Mbps port is the result to the equation:

Path cost = 1000/LAN speed (in Mbps)

Therefore, for 10 Mbps ports, the default port path cost is 100. For 100Mbps ports, it is 10. To allow for faster networks, the port path cost for a 1000Mbps port is set by the standard at 4.

6.2 Full Duplex, Flow Control and Auto-negotiation

These switching concepts are all related to maintaining a high rate of data transmission necessary for an efficient network.

6.2.1 Full Duplex

Traditionally, Ethernet has operated in half duplex mode, meaning that a node or workstation could either send or receive data, but not both simultaneously. Now, with the use of structured wiring using Unshielded Twisted Pair cabling, and switched Ethernet, a workstation may operate in full duplex mode, sending and receiving data at the same time. The ability to use full duplex mode can potentially double the basic capacity of the channel, so that a Fast Ethernet connection may carry up to 200Mbps.

In order to use full duplex, an Ethernet station must have separate channels to send and receive data. UTP cabling provides this, whereas the older coaxial Ethernet did not. The station must also have a direct connection to a switched port. A station connected to only a repeater cannot operate in full duplex mode. Also, it is critical that both ends of the Ethernet link “agree” on whether the link will operate in full or half duplex. See 6.2.3 Auto-negotiationfor more details.

65120 specifications

Asante Technologies 65120 is a high-performance network switch specifically designed to meet the needs of modern business environments. It stands out for its advanced features that ensure efficient data management and robust network performance. One of the key characteristics of the 65120 is its ability to support Gigabit Ethernet, which allows for rapid data transfer rates, crucial for businesses that rely on high-speed internet for their operations.

Equipped with 24 ports, the 65120 provides ample connectivity options, allowing businesses to connect multiple devices, including computers, printers, and servers. This extensive port availability ensures that companies can expand their network effortlessly as they grow, without having to invest in additional switches. The switch also features a compact design, making it easy to install in various environments, whether in a server room or an office space.

The 65120 employs advanced technologies that enhance its operational efficiency. One notable feature is its support for VLAN (Virtual Local Area Network) capabilities. VLANs allow network administrators to segment the network into smaller, manageable pieces, improving performance and security by isolating sensitive data traffic from regular network communication. This is particularly beneficial for organizations that handle sensitive customer information or require separate environments for different departments.

Additionally, the switch supports quality of service (QoS) features, which prioritize network traffic to ensure that critical applications receive the bandwidth necessary for smooth operation. This capability is essential for businesses that utilize voice-over IP (VoIP) or video conferencing technologies, where latency can significantly affect communication quality.

Power over Ethernet (PoE) is another significant advantage of the Asante Technologies 65120. This feature allows devices such as IP cameras, wireless access points, and VoIP phones to receive power through the network cable, eliminating the need for additional power sources and simplifying installation processes.

Overall, the Asante Technologies 65120 is a versatile and robust network switch designed for the evolving demands of modern businesses. Its combination of extensive port availability, advanced networking technologies such as VLAN support and QoS, and the convenience of PoE makes it an ideal choice for organizations seeking to enhance their network infrastructure while ensuring scalability and improved performance. This switch not only simplifies network management but also empowers businesses to stay competitive in an increasingly digital landscape.