SwiftWing Traemon

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SwiftWing Traemon

SwiftWing Network Monitoring & Capturing Network Analysis

Real-time Network Analysis and Visualization (DPI)

 

20th Anniversary!

Originating from Ota, Tokyo, the SwiftWing Series has enjoyed great success since its introduction in 2003. We have a track record of 20 years of development, a worldwide customer base, and sustained operational performance.

SwiftWing Traemon is a system providing real-time analysis and visualization of network traffic. It excels at identifying unauthorized communication and isolating flaws in the network.

Not only does it support TCP/UDP flow analysis, it can perform more advanced analyses – such as visualization of service usage trends and detection of abnormalities - by measuring HTTP response time (TAT) and analyzing HTTP metadata.

Traemon examines network status extensively and comprehensively, employing over 60 charts to help users visualize data about service usage traffic, TCP connection quality, TCP transfer quality, HTTP response time, HTTP metadata, etc.

When deployed in coordination with Sirius NDR, the analysis results obtained from Traemon can be used as a filter to extract network packets (captured by Sirius NDR) that are of interest to users.

Advanced DPI Analysis

TCP connection quality and transfer quality analysis

  • 3-way handshake response time
  • Number of retransmissions during 3-way handshake
  • Round trip delay time (RTT)
  • Zero Window occurrences
  • Number of packet loss sessions
  • Number of retransmissions during TCP establishment

HTTP packet and metadata analysis

  • Request method
  • Request URI
  • Host
  • Referer
  • User-Agent
  • Response time (TAT)
Visualize Network Traffic through Graphs

Choose from a selection of over 60 types of graphs to be displayed on the dashboard. Each graph is updated in real time and can track data over a configurable period (1 hour / 6 hours / 1 - 30 days)

Communication Delay Time Validation

  • TAT by HTTP method and metadata
  • TCP 3-way handshake (SYN/ACK) TAT
  • TAT during TCP session establishment
  • TCP TAT by IP address prefix

Suspected location of packet loss is estimated from the number of TCP packet retransmissions and the direction of occurrence.

Count the number of RSTs and RTTs observed for each traffic direction to help identify the location of failure.

Model 2 Gbps 10 Gbps
TRE-1US-2XGi-2G-8T TRE-1US-2XGi-10G-8T
Supported Interfaces fbC2XGhh - 10M/100M/1G/10G I/F x2 ports

10Base-T
100Base-TX
1000BASE-SX/-LX/-T
10GBASE-SR/-LR/-T
Dimensions (W:H:D / mm) 437 x 43 x 650
Weight (kg) 17
CPU Dual Intel Xeon
Memory standard 128 GB
Storage 8 TB (SSD) (expandable)
Power Voltage: AC 100V - 240V
Wattage: ~250W		 Voltage: AC 100V - 240V
Wattage: ~250W
General Network Usage - Service Usage Analysis [Statistics] Throughput(Mpps) By Protocol
Throughput(Mbps) By Protocol
Opened Connections Per Second By Protocol
Concurrent Connections By Protocol
Opened Connections Per Second By IP
Concurrent Connections By IP
Share Of Transferred Volume
Transferred Octets ( GB )
Average Packet Size( byte )
TCP Concurrent Connections
TCP Concurrent Connections By IP
TCP Connection Status Rate
TCP Closing Status Rate
General Network Usage - Service Usage Analysis [Stream] Transferred Octets ( GByte ) Per Hour By Application <HTTP,TCP,UDP>
Transferred Packets ( MPacket ) Per Hour By Application <HTTP,TCP,UDP>
TCP Session CloseMode
Average Session Duration ( sec ) By Peer IPv4
Network Quality Monitor - Connection Quality [Statistics] TCP 3way Handshake TAT ( msec )
Average TCP 3way Handshake TAT ( msec ) By IP
Network Quality Monitor - Connection Quality [Stream] 3way Handshake Retransmit By Peer IPv4
Average TCP 3way Handshake TAT( msec ) By Peer IPv4
Network Quality Monitor - Transmission Quality [Statistics] Connection Reset Rate
Connection Fail Rate
TCP Segments Lost Rate
TCP Segments Reset Rate
TCP Octest Retrans Rate
TCP Octets Lost Rate
TCP Zerowindow Rate
TCP Error Rate ( % )
TCP Errors By IP
Average TCP RTT( msec ) By IP
Network Quality Monitor - Transmission Quality [Stream] Packet Loss Sessions By Peer IPv4
Retransmitted Octets By Peer IPv4
Retransmitted Segments By Peer IPv4
Zerowindow Segments By Peer IPv4
Retransmitted Segments By Peer IPv6
Zerowindow Segments By Peer IPv6
HTTP - HTTP TAT Analysis [Statistics] Average HTTP Method TAT ( msec )
Average HTTP Method TAT ( msec ) By IP
Average HTTP Response TAT ( msec )
Average HTTP Response TAT ( msec ) By IP
HTTP - HTTP TAT Analysis [Stream] Average HTTP TAT ( msec )
Average HTTP TAT ( msec ) By Request Host
Average HTTP TAT ( msec ) By Request Method
Average HTTP TAT ( msec ) By Response Code
HTTP - HTTP Analysis [Statistics] HTTP Method
HTTP Method By IP
HTTP Response Code
HTTP Response Code Count By IP
Average HTTP Method Size ( Bytes )
Average HTTP Method Size ( Bytes ) By IP
Average HTTP Response Size ( Bytes ) by Status Code
Average HTTP Response Size ( Bytes ) By IP
HTTP - HTTP Analysis [Stream] HTTP Request Count By Method
HTTP Response Count By Code
Average HTTP Message Size ( KByte ) By Request Method
HTTP 404 Response Count by Client -> Server
HTTP 404 Response Count by Client
HTTP 404 Response Count by Server
Other Transferred Octets ( MBytes ) By VLAN
Transferred Octets ( MBytes ) By Application ( Port Base )
Top HTTP Requested Server ( HTTP Request Count )
Top HTTP Requested Server By Transferred Octets ( MBytes )
Top HTTP Requested Server ( HTTP Traffic Share % )
Top IP Conversation By Transferred Octets ( MBytes )
Top IP Talker By Transferred Octets ( MBytes )
General Network Usage

Network Quality Monitor

HTTP Monitor

Other

SwiftWing Traemon can be used in conjunction with our network drive recorder, Sirius NDR.

With just a few mouse clicks, the analysis results produced by Traemon can be forwarded to Sirius and used to extract relevant packets captured and stored in the latter device.

Procedure

1. Select the conditions to be used for packet extraction from Traemon analysis results

2. Transfer filter conditions directly to Sirius NDR (synchronized with Traemon) and perform extraction (quick post-filter function)

3. Press the "Filter" button and download the extracted PCAP file