This code forms a set of C++ libraries for multimedia streaming,
using open standard protocols (RTP/RTCP and RTSP). These libraries
- which can be compiled for Unix (including Linux and Mac OS X),
Windows, and QNX(and other POSIX-compliant systems) - can be used
to build streaming applications. The libraries are already being
used to implement applications such as "liveCaster" and "playRTPMPEG"
(for streaming MP3 audio using RTP/RTCP). The libraries can also
be used to stream, receive, and process MPEG video, and can easily be
extended to support additional (audio and/or video) codecs. They can
also be used to build basic RTSP clients and servers, and have been
used to add streaming support to existing media player applications,
such as "mplayer".
The Multi-Generator (MGEN) is open source software by the Naval Research
Laboratory (NRL) PROTocol Engineering Advanced Networking (PROTEAN)
Research Group. MGEN provides the ability to perform IP network
performance tests and measurements using UDP/IP traffic (TCP is currently
being developed).
The toolset generates real-time traffic patterns so that the network can
be loaded in a variety of ways. The generated traffic can also be
received and logged for analyses. Script files are used to drive the
generated loading patterns over the course of time. These script files can
be used to emulate the traffic patterns of unicast and/or multicast UDP/IP
applications. The receive portion of this tool set can be scripted to
dynamically join and leave IP multicast groups. MGEN log data can be used
to calculate performance statistics on throughput, packet loss rates,
communication delay, and more.
Smb4K is an SMB share browser for KDE. Its features are inspired by Komba2
by Frank Schwanz. It uses the Samba software suite for an easy access
to the SMB shares of your local network neighborhood.
Features so far:
- Scanning for (active) workgroups, hosts, and shares
- Mounting and unmounting of SMB and CIFS shares, including unmounting
all shares at once
- Access to the files of a mounted SMB or CIFS share using Konqueror
- Auto-detection of external mounts/unmounts
- Remounting of recently used shares on program start
- Miscellaneous infos about the mounted SMB and CIFS shares
- Network search
- WINS server support
- Preview of shares
- Selectable look-up and search methods
- Default login
- Ability to execute mount and umount SUID root (using super or sudo)
- Special handling of homes shares
- Ability to bookmark favorite shares
- And many more :)
This is version 6.1 of Rdist from USC. It is based on rdist from
4.3BSD (classic). It includes all fixes for all bugs known to the
CSRG Berkeley folks. It has been running at USC and numerous other
sites for some time now on a wide variety of platforms.
This version of rdist is not directly compatible with rdist
distributed with 4.3BSD and subsequent vendor releases, but does
indirectly provide full backward compatibility.
This version of rdist does not need to be setuid "root" at all. Rdist
now uses the rsh(1c) [remote command] program to make connections to
remote hosts, instead of making the connection directly. This
eliminates the need to be run as "root". Many thanks to Chris
Siebenmann <cks@utcc.utoronto.ca> and John DiMarco
<jdd@cdf.toronto.edu> who came up with an rsh version of rcmd() that
makes this possible.
PySimpleSOAP (Python Simple SOAP) library for client and server webservices
interfaces, aimed to be as small and easy as possible, supporting most common
functionality. Initially it was inspired by PHP Soap Extension (mimicking it
functionality, simplicity and ease of use), with many advanced features added.
Goals:
- Simple: less than 200LOC client/server concrete implementation for easy
maintainability and enhancments.
- Flexible: adapted to several SOAP dialects (Java Axis, .Net, JBoss), with the
posibility of fine-tuning XML request and responses
- Pythonic: no artifacts, no class generation, no special types, RPC calls
parameters and return values are simple python structures (dicts, list, etc.)
- Dynamic: no definition (WSDL) required, dynamic generation and parsing
supported (cached in a pickle file for performance, supporting fixing broken
WSDL)
- Easy: simple xml manipulation, including basic serialization and raw
object-like access to SOAP messages
- Extensible: supports several HTTP wrappers (httplib2, pycurl, urllib2) for
special transport needs over SSL and proxy (ISA)
Netatalk is an OpenSource software package, that can be used to turn an
inexpensive *NIX machine into an extremely high-performance and reliable
file server for Macintosh computers.
Using Netatalk's AFP 3.2 compliant file-server leads to significantly higher
transmission speeds compared with Macs accessing a server via SaMBa/NFS
while providing clients with the best possible user experience (full support
for Macintosh metadata, flawlessly supporting mixed environments of classic
MacOS and MacOS X clients)
Due to Netatalk speaking AppleTalk, the print-server task can provide
printing clients with full AppleTalk support as well as the server itself
with printing capabilities for AppleTalk-only printers. Starting with
version 2.0, Netatalk seamlessly interacts with CUPS on the server.
After all, Netatalk can be used to act as an AppleTalk router, providing
both segmentation and zone names in Macintosh networks.
The YAZ Proxy is highly configurable and can be used in a number of different
applications, ranging from debugging Z39.50-based applications and protecting
overworked servers, to improving the performance of stateless WWW/Z39.50
gateways. Among other features, it includes:
* SRW/SRU server function, to allow any Z39.50 server to also
support the ZiNG protocols
* Load balancing across multiple backend servers
* Session-sharing and pre-initialization to improve performance in
servers with expensive session initialization
* Configurable request filtering, to keep bad requests from reaching
the server
* XML support -- MARC records can be converted to MARCXML, and
XSLT-transformations allow the proxy to support arbitrary
retrieval schemas in XML
* Load governor function limits requests from aggressive batch-mode clients
* Configurable logging
* Efficient multiplexing software enables small memory footprint and
very high performance
foo2zjs is an open source printer driver for printers that use the Zenographics
ZjStream wire protocol for their print data, such as the Minolta/QMS magicolor
2300 DL or Konica Minolta magicolor 2430 DL. These printers are often
erroneously referred to as winprinters or GDI printers.
However, Microsoft GDI only mandates the API between an application and the
printer driver, not the protocol on the wire between the printer driver and the
printer. In fact, ZjStream printers are raster printers which happen to use a
very efficient wire protocol which was developed by Zenographics and licensed
by most major printer manufacturers for at least some of their product lines.
ZjStream is just one of many wire protocols that are in use today, such as
Postscript, PCL, Epson, etc.
Kst is a fast real-time large-dataset viewing and plotting tool
with basic data analysis functionality. Kst contains many powerful
built-in features and is expandable with plugins and extensions.
Features of Kst include:
- Robust plotting of live "streaming" data.
- Powerful keyboard and mouse plot manipulation.
- Large selection of built-in plotting and data manipulation functions,
such as histograms, equations, and power spectra.
- Color mapping and contour mapping capabilities for three-dimensional
data, as well as matrix and image support.
- Monitoring of events and notifications support.
- Built-in filtering and curve fitting capabilities.
- Convenient command-line interface.
- Powerful graphical user interface.
- Support for several popular data formats.
- Extended annotation objects similar to vector graphics applications.
This port provide Kst 2, which is based on Qt4. It still lacks scripting
support and backward compatibility with Kst 1.x series (you can't open
kst-1 files in Kst 2).
MPQC is the Massively Parallel Quantum Chemistry Program. It computes
properties of atoms and molecules from first principles using the time
independent Schrodinger equation. It runs on a wide range of architectures
ranging from individual workstations to symmetric multiprocessors to
massively parallel computers. Its design is object oriented, using C++.
Capabilities
o Closed shell and general restricted open shell Hartree-Fock energies and
gradients
o Second order open shell perturbation theory (OPT2[2]) and Z-averaged
perturbation theory (ZAPT2) energies.
o Second order closed shell Moller-Plesset perturbation theory energies and
gradients.
o Robust internal coordinate geometry optimizer that efficiently optimizes
molecules with many degrees of freedom.
You can also validate your mpqc binaries when you employ other settings by:
% make validate >& validate.log &
(it may take few days, though)
For details, please see file:///usr/local/share/doc/mpqc/hierarchy.html
or http://www.mpqc.org/mpqc-html/mpqcval.html