1- Overviews
- A full visual control of Data Acquisition device(2*10GE SFP+ plus 12*GE SFP ports)
- A full data network traffic scheduling management device(duplex Rx/Tx processing)
- A full network traffic pre-processing and re-distribution device(bidirectional bandwidth 32Gbps)
- Supported network traffic collection & reception of link data from different network element locations
- Supported L2-L7 network packet filtering and matching, such as SMAC, DMAC, SIP, DIP, Sport, Dport, TTL, SYN, ACK, FIN, Ethernet type field and value, IP protocol number, TOS, etc. also supported flexible combination of up to 2000 filtering rules.
- Supported the UDF matching of any key field in the first 128 bytes of a packet. The user can customize the UDF offset value and key field length and content, and determine the traffic output policy according to the user configuration.
- Supported realize irrelevant upper packaging of Ethernet traffic forwarding, supported all kinds of Ethernet packaging protocols, and aslo 802.1q/q-in-q, IPX/SPX, MPLS, PPPO, ISL, GRE, PPTP, etc protocol packaging
4- Intelligent Network Traffic Processing Abilities
ASIC Chip Plus TCAM CPU 32Gbps intelligent network traffic processing capabilities 
Network Traffic Replication Packet replicated from 1 port to multiple N ports, or multiple N ports aggregated, then replicated to multiple M ports 
Network Traffic Aggregation Packet replicated from 1 port to multiple N ports, or multiple N ports aggregated, then replicated to multiple M ports 
Network Traffic Distribution Classified the incoming metdata accurately and discarded or forwarded different data services to multiple interface outputs according to user’s predefined rules. 
Data/Packet Filtering Supported L2-L7 packet filtering matching, such as SMAC, DMAC, SIP, DIP, Sport, Dport, TTL, SYN, ACK, FIN, Ethernet type field and value, IP protocol number, TOS, etc. also supported flexible combination of up to 2000 filtering rules.
MAC Address Replacement Supported the replacement of the destination MAC address in the original data packet, which can be implemented according to the user's configuration 
UDF Matching Supported the matching of any key field in the first 128 bytes of a packet. Customized the Offset Value and Key Field Length and Content, and determining the traffic output policy according to the user configuration 1+1 Redundant Power System(RPS) Supported 1+1 Dual Redundant Power System
5.1 Mylinking™ Network Tap GE to 10GE Data Aggregation Application(as following)
5.2 Mylinking™ Network Tap 1/10GE Data Distribution Application(as following)
6- Specifications
10GE Traffic Capture 10GE 2 ports, Max 2*10GE plus 12*GE ports Rx/Tx duplex processing, up to 32Gbps Traffic Data Transceiver at same time, for network Data Acquisition, simple traffic or packet Pre-processing 
Load Balance Supported load balance Hash algorithm and session-based weight sharing algorithm according to L2-L7 layer characteristics to ensure that the port output traffic dynamic of load balancing 5.4 Mylinking™ Network Tap Customazition Traffic Monitoring Application(as following)
5.3 Mylinking™ Network Tap Hybrid Network Traffic Capture Application (as following)
7- Order Information
ML-TAP-1410
2- System Block Diagram
3- Operating Principle
5- Mylinking™ Network Tap Typical Application Structures
| Mylinking™ Network Tap NPB/TAP Functional Parameters | ||
| Network Interface | GE ports | 12*GE SFP slots |
| 10GE ports | 2*10GE SFP+ slots | |
| Deployment mode | SPAN monitoring input | support |
| In-line mode | support | |
| Total QTYs interface | 14 | |
| Traffic replication / aggregation / distribution | support | |
| Link QTYs supporting Mirror replication / aggregation | 1 -> N link traffic replication (N <14) | |
| N-> 1 link traffic aggregation (N <14) | ||
| G Group(M-> N Link) traffic replication and aggregation [G * (M + N) <14] | ||
| Functions | Distribution based on traffic identification | support |
| Distribution based on IP / protocol / port Five tuple traffic identification | support | |
| Distribution strategy based on protocol header the key labeled traffic identifies | support | |
| Strategic distribution based on deep message content identification | support | |
| Support Ethernet encapsulation independence | support | |
| CONSOLE Network Management | support | |
| IP/WEB Network Management | support | |
| SNMP V1/V2C Network Management | support | |
| TELNET/SSH Network Management | support | |
| SYSLOG Protocol | support | |
| User authentication function | Password authentication based on user name | |
| Electric(1+1 Redundant Power System-RPS) | Rated supply voltage | AC110-240V/DC-48V [Optional] |
| Rated power frequency | AC-50HZ | |
| Rated input current | AC-3A / DC-10A | |
| Rated power function | 150W(2401: 100W ) | |
| Environment | Operating Temperature | 0-50℃ |
| Storage Temperature | -20-70℃ | |
| Operating Humidity | 10%-95%, Non-condensing | |
| User Configuration | Console Configuration | RS232 Interface, 9600,8,N,1 |
| Password authentication | support | |
| Rack Height | Rack space (U) | 1U 460mm*45mm*440mm |
VLAN Untagged
VLAN Replaced 
Unified Control Platform Supported mylinking™ Visibility Control Platform Access 
3G/4G Mobile Protocol Recognition/Classification Supported to identify mobile network elements such as (Gb, Gn, IuPS, S1-MME, S1-U, X2-U, S3, S4, S5, S6a, S11, etc. interface). You can implement traffic output policies based on features such as GTPV1-C, GTPV1-U, GTPV2-C, SCTP, and S1-AP based on user configurations. 
Ports Healthy Detection Supported real-time detection of the service process health of the back-end monitoring and analysis equipment or tools connected to different output ports. When the service process fails, the faulty device will be automatically removed. After the faulty device is recovered, the system automatically returns to the load balancing group to ensure the reliability of multi-port load balancing.
VLAN, MPLS Untagged Supported the VLAN, MPLS header stripping in the original data packet for output.
Tunneling Protocol Identify Supported automatically identify various tunneling protocols, such as GTP / GRE / PPTP / L2TP / PPPOE. According to the user configuration, the traffic output strategy can be implemented based on the inner or outer layer of the tunnel