(A Unified Collaboratory for Analyzing
Networks) is an integrated, collaborative, extendable
network workbench tool for network engineers, researchers
and also network users. It is built over the Quanta
is an ongoing project developed by Naveen Krishnaprasad,
Brenda Lopez and Jason Leigh at the Electronic Visualization
you can do with UCAN
active tests like netperf between two machines on a network.
The results of the test can be analyzed in real time using
two dimensional graphical visualizers. Users can also
add their own tests to the UCAN framework.
SNMP queries (to routers, hosts and other network devices)
using an user interface from any machine on the network.
UCAN provides a proxy for SNMP queries, which is simply
a daemon running on one machine(which should be authorized
to query the required router or host)
performance of an application using a 3D visualization
tool. The visualization shows performance of all network
streams in an application and parameters like used network
bandwidth, end-end latency, jitter, burstiness, etc can
In the current version of this tool, applications have
to be written using Quanta, to stream performance
data in a specific format.
UCAN interfaces and visualization with a remote user.
Participants in a collaborative session log on to a joint
session, after which they can choose what user interfaces
to share with others.
Users can also control the tests from remote sites, if
authorized by the owner of the network operation (who
initiated it). A white board is also provided for exchanging
text messages in a collaborative session.
is different about UCAN
networking tools provide ways to run tests, SNMP queries,
instrument applications etc. But there doesn't exist a tool/package
that allows simultaneous analysis of these capabilities,
in the context of each other. Moreover, collaborating with
others for fixing problems with networks or sharing results
of network experiments with other researchers, often takes
a long time, with most time spent in communication lapses.
aims to target both issues simultaneously. The capabilities
can be listed as follows:
tests, SNMP queries and application performance visualization
are built into a unified framework. Network operations
are run as processes that are connected through a common
channel exchanging events amongst themselves.
For example, a ping test can be run at the same time as
an application and any interesting event in an application
(like a sudden spike in application latency) can be matched
with the result graph of the ping test at the same time
message passing interface is provided using which information
about application performance and current network performance
states can be exchanged
collaboration is possible, allowing multiple users to
look at the same user interfaces and performance graphs
in a group session (and also remotely control them)
does more than just bundling different tools for network
analysis. Extendable features are,
network operations can be added to UCAN. API's help to
reuse the collaborative(sharing and remote control) and
integrated features (like event passing to applications
and other tests)
test framework allows users to define their own network
tests using API's provided. The resulting test should
be written as a shared object file, which can be loaded
dynamically in a test session
shared widget API is provided over the FLTK user interface
library. So new interfaces built can also be shared by
other UCAN users.
more information contact email@example.com