The MultiSwitch 700 Device View

NOTES

NOTE

For older versions of MultiSwitch 700 firmware, if 802.1Q is to be utilized it is required that all modules in the chassis be configured to operate in 802.1Q mode. Distributed Chassis Management may not be supported for MultiSwitch 700 modules operating in 802.1Q mode. In such cases, it is recommended that all modules installed in the MultiSwitch 700 chassis be configured via Local Management to operate in Standalone mode. Contact the Global Technical Assistance Center for firmware upgrade information.

For current versions of MultiSwitch 700 firmware, DELHF-UA modules cannot be installed in a MultiSwitch 700 that is operating in 802.1Q mode. This will be corrected in a future version of firmware.

What Is A VLAN?

A Virtual Local Area Network (VLAN) is a logical group of devices that function as a single Local Area Network segment (broadcast domain). Devices comprising a VLAN may be (physically) widely separated, allowing users located in separate areas or connected to separate ports to belong to a single VLAN group. Users assigned to a VLAN can send and receive broadcast and multicast traffic as though they were all physically connected to a single network segment. VLAN-capable switches isolate broadcast and multicast traffic received from VLAN groups, and contain broadcasts and multicasts from members of a VLAN within that group.

What Is An 802.1Q Port-Based VLAN?

Switches that support the pre-standard IEEE 802.1Q draft specification for port-based VLANs act by classifying frames into VLAN membership. Usually, VLAN classification is based on tag headers (VLAN tags) in the headers of data frames. The tag header is inserted into the frame directly after the Source MAC address field. A four-byte field in the tag header is used as the VLAN identifier. These VLAN tags are added to data frames by the switch as the frames are transmitted and/or received by certain ports, and are later used to make forwarding decisions by the switch and other 802.1Q switches. In the absence of a VLAN tag, a frame is assigned VLAN membership according to the VLAN configuration of the switch port that receives the frame.

About 802.1Q VLAN Configuration and Operation

An 802.1Q VLAN is defined by assigning it a unique identification number (the VLAN ID) and an optional name. The VLAN ID is used to identify data frames that originate from, and are intended for, the ports assigned to the VLAN. Up to 64 VLANs may be created, with VLAN IDs ranging from 2-4094. VLAN ID 1 is reserved for the Default VLAN.

Managing the Module

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Enterasys Networks 700 What Is a VLAN?, What Is An 802.1Q Port-Based VLAN?, About 802.1Q Vlan Configuration and Operation

700 specifications

Enterasys Networks, a key player in the networking and security industry, offers an extensive range of solutions, among which is the Enterasys Networks 700 series. The Enterasys 700 series is designed to meet the demands of modern networking environments while providing a robust set of features, high performance, and scalability that appeals to organizations of various sizes.

One of the main features of the Enterasys 700 series is its ability to deliver high-speed connectivity, which supports multiple Gigabit Ethernet ports. This ensures that organizations can efficiently handle bandwidth-intensive applications and a growing number of connected devices. The series is designed to facilitate seamless and reliable data transmission, making it suitable for environments that require consistent uptime and performance.

The Enterasys 700 series is built around advanced security protocols that are essential for protecting organizational data. These security features include integrated firewalls, intrusion detection systems, and comprehensive access control policies. This ensures that sensitive information remains secure from internal and external threats while providing IT administrators with the tools needed to manage security policies effectively.

Another notable characteristic of the Enterasys 700 series is its intelligent networking capabilities. The integration of advanced Quality of Service (QoS) mechanisms allows network administrators to prioritize critical applications, ensuring optimal performance for mission-critical services. This capability is especially important in environments that host multiple applications, as it empowers organizations to manage bandwidth efficiently and maintain service quality.

The Enterasys 700 series also incorporates advanced network management solutions, enabling centralized control and monitoring. This feature simplifies the administration of network resources, allowing IT teams to quickly diagnose issues and deploy solutions as needed. The user-friendly interface and comprehensive reporting tools further enhance the management experience, providing insights into network performance and health.

Furthermore, the Enterasys Networks 700 series is designed with scalability in mind. Organizations can easily expand their network infrastructure without the need for significant overhauls, accommodating future growth and technological advancements. This flexibility not only saves costs but also ensures that organizations remain competitive in an ever-evolving digital landscape.

In summary, the Enterasys Networks 700 series offers a rich suite of features and technologies that cater to modern networking needs. Its high-speed connectivity, robust security measures, intelligent networking capabilities, comprehensive management tools, and scalability make it an excellent choice for organizations looking to enhance their network infrastructure. Whether for small businesses or large enterprises, the Enterasys 700 series stands out as a reliable and versatile networking solution.