VLAN Forwarding Configuration Screen

Screen Example

Figure 3-8 VLAN Forwarding Configuration Screen

 

6C105 LOCAL MANAGEMENT

 

 

VLAN Forwarding Configuration

 

Module Type: xxxxx-xx

 

 

Firmware Revision:

XX.XX.XX

Slot Number: xx

 

 

BOOTPROM Revision: XX.XX.XX

Current VLAN Ports

 

Port Type

Frame Format

Port 15

 

Etherent Frontpanel

Untagged

Port 17

 

Etherent Frontpanel

Untagged

Port 20

 

Etherent Frontpanel

Untagged

Port 23

 

Etherent Frontpanel

Untagged

Port 24

 

Etherent Frontpanel

Untagged

Port 25

 

Etherent Frontpanel

Untagged

Port 35

 

ATM ELAN Finance

Tagged

Port 30

 

ATM PVC VCI-1 VP!-23

Untagged

VLAN ID: [4094]

VLAN Name: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx

[DELETE]

Port: [30]

ATM PVC VCI-1 VPI-23

Frame Type: [Untagged]

SAVE

PREVIOUS

NEXT

EXIT

RETURN

25991-08

Field Definitions

Table 3-5 VLAN Forwarding Configuration Screen Field Definitions

Use this field …

To …

 

 

Current VLAN Ports

See the ports that are currently configured to transmit frames

(Read-Only)

classified to the selected VLAN.

 

 

Port Type

See the MIB2 interface description for the selected switch port.

(Read-Only)

 

 

 

Frame Format

See the frame format (Tagged or Untagged) for the frames of the

(Read-Only)

selected VLAN that the port will transmit.

 

 

VLAN ID (Selectable)

Select the identification of the VLAN under examination. This screen

 

displays the list of ports currently configured to transmit frames for

 

the VLAN ID in this field.

 

 

VLAN Configuration 3-21

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Image 43
Enterasys Networks 802.1Q manual Port Type

802.1Q specifications

Enterasys Networks, a subsidiary of the Siemens Group, is widely recognized for its comprehensive networking solutions, with a strong emphasis on security, reliability, and performance. One of the key technologies offered by Enterasys is 802.1Q, a critical component of Ethernet networking that establishes standards for VLAN (Virtual Local Area Network) tagging. This technology is essential for enhancing network performance and managing traffic efficiently.

The primary feature of 802.1Q is its ability to create VLANs, which segment a physical network into multiple logical networks. This segmentation improves network security by isolating sensitive data and restricting access to specific users or devices. With VLANs, organizations can reduce broadcast traffic, thereby enhancing overall network efficiency. Different departments within an organization can operate on their own VLAN, ensuring that their traffic is kept separate from others.

One significant technological aspect of 802.1Q is its tagging method. When a frame passes through a switch port configured for IEEE 802.1Q, the switch appends a VLAN tag to the frame. This tag contains important information, such as the VLAN ID, enabling switches and devices throughout the network to identify which VLAN the frame belongs to. This tagging is especially critical in environments where multiple VLANs share the same physical infrastructure.

Another characteristic of Enterasys Networks' implementation of 802.1Q is interoperability with existing network standards and protocols. This means that organizations can implement VLAN tagging without requiring major upgrades or replacements of their switch hardware. Enterasys ensures that its switches are compliant with various industry standards, making it easier for enterprises to integrate these solutions into their existing network settings.

Security is another vital feature of Enterasys Networks’ 802.1Q offering. By leveraging VLANs, organizations can enforce stricter access controls and policies, reducing the risk of unauthorized access to sensitive network segments. This is particularly beneficial for industries with stringent compliance requirements, such as finance and healthcare.

In summary, Enterasys Networks' 802.1Q technology plays a pivotal role in modern networking by facilitating VLAN creation, enabling efficient traffic management, ensuring interoperability, and bolstering network security. As organizations increasingly rely on connected devices and data-driven processes, technologies like 802.1Q are essential for building robust, scalable, and secure networking environments.