|Place of Origin:||China|
|Certification:||CCC, CE, RoHS|
|Model Number:||NT-CFTAP-24 26 28XG-D|
|Minimum Order Quantity:||1 SET|
|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|
|To Answer:||How Network Packets Work||Parts Of Packet:||Protocol, Header, Payload, TTL, Flags|
|Data Classify:||Classify Your Data Content For Network Business And Service||Applications:||Data Center, Cloud, Virtual Network|
|Offering:||Network Visibility, Monitor, Security, Analytics, Data Center, Traffic Management, Traffic Optimize|
network traffic management tools,
web traffic monitoring tools
Network Traffic Management of Packets Work in Network Packet Broker Device
What is packet of network?
- A packet is the unit of data that is routed between an origin and a destination on the Internet or any other packet-switched network.
- Network packets are small (around 1.5 KBS for Ethernet packets and 64 KBS for IP packet payloads) amounts of data passed over TCP/IPnetworks.
- As an example, e-mails and web pages will make use of network packets to send information back and forth to the user and recipients.
- The goal of a network packet is to send information reliably so data does not have to be sent as a single, large file.
- Each packet sent includes information such as the source and destination, the protocols or identifications.
How do the network packets work?
When any file (such as an e-mail message, HTML file, GIF file or URL request) is sent from one place to another on the Internet, the Transmission Control Protocol (TCP) layer of TCP/IP divides the file into "chunks" of an efficient size for routing. Each of these packets is separately numbered and includes the Internet address of the destination. The individual packets for a given file may travel different routes through the Internet. When they have all arrived, they are reassembled into the original file (by the TCP layer at the receiving end).
A packet-switching scheme is an efficient way to handle transmissions on a connection-less network such as the Internet. An alternative scheme, circuit-switched, is used for networks allocated for voice connections. In circuit-switching, lines in the network are shared among many users as with packet-switching, but each connection requires the dedication of a particular path for the duration of the connection.
"Packet" and "datagram" are similar in meaning. A protocol similar to TCP, the User Datagram Protocol (UDP), uses the term datagram.
Network Packet Broker NPB with Network Visibility for your Network Traffic Management
What's the Parts of a network packet in Network Packet Brokers?
The Network packets are made up of three different parts, the header, the payload and the trailer. Network packets can be thought of conceptually to postal packages. The header is the box/envelope, the payload is the box/envelope’s content, and the trailer is the signature.
Broken down even further, the header may consist of the following pieces:
· The internet protocol.
· The size of the header and payload.
· The source and destination address.
· A sixteen-bit identification number.
· Flags, which are used to let a router know if it can fragment a packet.
· Fragmentation offsets, which reconstructs fragmented packets.
· The time to live (TTL).
· A checksum, which detects errors.
· The number of hops a packet can make.
A payload is the actual data being sent. Trailers, also called the footer, are the bits which signify the end of a packet.
The Nework Packet Broker Typical Application Structures
GE to 10GE Data Aggregation Application 26/28XG-D only (as following)
The Network Packet Brokers Specifications
|Network Packet Broker NPB for Network Packet Sniffer for your Network Visibility|
SFP+ slots, support 10GE/GE；
Support Single/Multiple mode fiber
|1*10/100/1000M electrical port；|
|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.|
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 authentication||Based on user’s password authentication|
|Height of Chassis||(U)||1U 445mm*44mm*402mm|
Contact Person: Jerry
Network Security: Such as ISD, WAF, Firewall, virtual private network, load balancing equipment, etc.
More Data Acquisition Planning: With more flexible Data Acquisition and Data Capturing Capability
More Networ Monitoring: To avoid Network Monitoring Blind Spots
Traffic Distribution Based on Strategy: NPB Loading Balance to the WAF & DBM devices,NO need their Inline Connection