Product Details
Place of Origin: China
Brand Name: NetTAP®
Certification: CCC, CE, RoHS
Model Number: NT-VPP-4860G
Payment & Shipping Terms
Minimum Order Quantity: 1 SET
Price: Can Discuss
Packaging Details: Outer Carton plus Inner Foam
Delivery Time: 1-3 Working Days
Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 100 sets per month
VLAN Mark: |
Supported |
VLAN Replace: |
Supported |
VLAN Delete: |
Supported |
Management: |
NetTAP® Network Visibility Platform |
Applications:: |
Data Center Of Telecom, Broadcasting, Government, Finance, Energy, Power, Petroleum, Hospital, School, Enterprise And Other Industries |
Related Solutions:: |
Network Visibility, Network Monitor, Network Security, Network Analytics, Data Center, Traffic Management, Traffic Optimize |
VLAN Mark: |
Supported |
VLAN Replace: |
Supported |
VLAN Delete: |
Supported |
Management: |
NetTAP® Network Visibility Platform |
Applications:: |
Data Center Of Telecom, Broadcasting, Government, Finance, Energy, Power, Petroleum, Hospital, School, Enterprise And Other Industries |
Related Solutions:: |
Network Visibility, Network Monitor, Network Security, Network Analytics, Data Center, Traffic Management, Traffic Optimize |
VLAN Tagged VLAN Untagged VLAN Replace Network TAP for Network Traffic Monitor
1.Overviews
When discussing VLANs (Virtual Local Area Networks) and their relation to network monitoring, particularly in the context of using a Network TAP (Test Access Point), it’s important to understand the concepts of tagged and untagged VLANs. Here’s an overview of how these elements interact and how VLAN tagging can replace or enhance traditional network TAPs for traffic monitoring.
VLAN: A VLAN allows network administrators to create separate networks within a single physical network, enhancing security and improving traffic management.
Tagged VLAN: Frames in a tagged VLAN include a VLAN tag in their Ethernet frame header, indicating the VLAN to which the frame belongs. This is typically used in trunk ports that carry traffic from multiple VLANs.
Untagged VLAN: Frames in an untagged VLAN do not include a VLAN tag. This is common for access ports, which connect end devices to a single VLAN.
Cost-Effective: Utilizing VLANs can reduce the need for physical TAP devices, lowering hardware costs and simplifying the network infrastructure.
Flexibility: VLANs can be easily reconfigured through software, allowing for dynamic changes to monitoring setups without physical alterations.
Scalability: As networks grow, VLANs can be expanded by simply reconfiguring switches rather than adding new TAPs, making management easier.
Remote Monitoring: VLANs support remote monitoring capabilities, allowing for centralized management of traffic without needing local physical access.
Integration with Existing Infrastructure: VLANs can be integrated into existing network setups without significant changes, simplifying deployment.
Traffic Visibility: Ensure that the monitoring tools can handle VLAN tags correctly. Some tools might need configuration to recognize and filter tagged traffic.
Potential for Data Loss: Unlike TAPs, which create a duplicate of the traffic, VLAN monitoring can lead to missing packets if the monitoring configuration is not set up correctly.
Performance Impact: Overloading a switch with too many VLANs for monitoring could impact performance. Proper design is essential.
Security: VLANs can introduce security risks if not configured properly. Ensure that sensitive data is adequately protected.
2.Intelligent Traffic Processing Abilities
VLAN Tagged
Supported the matching of any key field in the first 128 bytes of a packet. The user can customize the offset value and key field length and content, and determine the traffic output policy according to the user configuration.
VLAN Untagged
Supported the matching of any key field in the first 128 bytes of a packet. The user can customize the offset value and key field length and content, and determine the traffic output policy according to the user configuration.
VLAN Replace
Supported the matching of any key field in the first 128 bytes of a packet. The user can customize the offset value and key field length and content, and determine the traffic output policy according to the user configuration.
NetTAP® Visibility Platform
Supported NetTAP® Matrix-SDN Visual Control Platform Access
1+1 Redundant Power System(RPS)
Supported 1+1 Dual Redundant Power System
NT-VPP-4860G Network TAP NPB.pdf
3.Typical Application Structures
4.Specifications
VLAN Tagged VLAN Untagged VLAN Replace Network TAP for Network Traffic Monitor | |||
Network Interface | 10GE |
48*SFP+ slots, support 10GE/GE; Support Single/Multiple mode fiber |
|
Out-of-Band MGT Interface |
1*10/100/1000M electrical port; | ||
Deployment Mode | Optical | support | |
Mirror Span | support | ||
Traffic Visibility Detection | Basic Analysis | Support summary statistical presentation of basic information such as Packet Count, Packet Class Distribution, Session Connection Number, Packet protocol Distribution, etc. | |
DPI Analysis |
Support transport layer protocol proportion analysis, unicast broadcast multicast proportion analysis, IP traffic proportion analysis, DPI application proportion analysis. Support data content based on sampling time of traffic size analysis rendering. Support data analysis and statistics based on session flow. |
||
Accurate Fault Analysis |
Support traffic data to provide different visual fault analysis and positioning, including: Message Transmission Behavior Analysis, Data Stream Level Fault Analysis, Packet Level Fault Analysis, Security Fault Analysis, Network Fault Analysis. |
||
User Configuration | Console configuration | RS232 interface, 115200,8,N,1 | |
Password authentication | support | ||
Height of Chassis | (U) | 1U 445mm*44mm*402mm |
5.Order Information
NT-VPP-4860G-SOFT-PEX NetTAP® Visual Control Processor Extend Ports Software