This archive contains Perl 5 modules SNMP_Session.pm and BER.pm,
which, when used together, provide rudimentary access to remote SNMP
(v1 and v2) agents.
This module differs from existing SNMP packages in that it is
completely stand-alone, i.e. you don't need to have another SNMP
package such as CMU SNMP. It is also written entirely in Perl, so you
don't have to compile any C modules. It uses the Perl 5 Socket.pm
module and should therefore be very portable, even to non-Unix systems.
The SNMP operations currently supported are "get", "get-next", "get-bulk"
and "set", as well as trap generation and reception.
GUPnP is an elegant, object-oriented open source framework for creating UPnP
devices and control points, written in C using GObject and libsoup. The GUPnP
API is intended to be easy to use, efficient and flexible. It provides the same
set of features as libupnp, but shields the developer from most of UPnP's
internals.
GUPnP implements the UPnP specification: resource announcement and discovery,
description, control, event notification, and presentation (GUPnP includes basic
web server functionality through libsoup). GUPnP does not include helpers for
construction or control of specific standardized resources (e.g. MediaServer);
this is left for higher level libraries utilizing the GUPnP framework.
Bro is an open-source, Unix-based Network Intrusion Detection System (NIDS)
that passively monitors network traffic and looks for suspicious activity.
Bro detects intrusions by first parsing network traffic to extract its
application-level semantics and then executing event-oriented analyzers that
compare the activity with patterns deemed troublesome. Its analysis includes
detection of specific attacks (including those defined by signatures, but
also those defined in terms of events) and unusual activities (e.g., certain
hosts connecting to certain services, or patterns of failed connection
attempts).
Bro is documented in the USENIX 1998 Security Conference proceedings.
FreeDV is a Digital Voice mode for HF radio. FreeDV allows any SSB radio
to be used for low bit rate digital voice. Speech is compressed down to
700-1600 bit/s then modulated onto a 1.25 kHz wide signal comprised of
16 QPSK carriers which is sent to the Mic input of a SSB radio. The signal
is received by an SSB radio, then demodulated and decoded by FreeDV. FreeDV
700(B) rivals SSB in it's low SNR performance. At high SNRs FreeDV 1600
sounds like FM, with no annoying analog HF radio noise.
Fyre provides a rendering of the Peter de Jong map, with an interactive
GTK+ 2 frontend and a command line interface for easy and efficient
rendering of high-resolution, high quality images.
This program was previously known as 'de Jong Explorer', but has been
renamed to make way for supporting other chaotic functions.
All the images you can create with this program are based on the simple
Peter de Jong map equations:
x' = sin(a * y) - cos(b * x)
y' = sin(c * x) - cos(d * y)
F# is an open-source, strongly typed, multi-paradigm programming
language encompassing functional, imperative and object-oriented
programming techniques. F# is most often used as a cross-platform CLI
language, but can also be used to generate JavaScript and GPU code.
F# is developed by The F# Software Foundation and Microsoft. An open
source, cross-platform edition of F# is available from the F# Software
Foundation. F# is also a fully supported language in Visual Studio.
Other tools supporting F# development include Mono, MonoDevelop,
SharpDevelop and the WebSharper tools for JavaScript and HTML5 web
programming.
F# originated as a variant of ML and has been influenced by OCaml, C#,
Python, Haskell, Scala and Erlang.
LAPACK++ (Linear Algebra PACKage in C++) is a software library for numerical
linear algebra that solves systems of linear equations and eigenvalue
problems on high performance computer architectures.
Computational support is provided for supports various matrix classes for
vectors, non-symmetric matrices, SPD matrices, symmetric matrices, banded,
triangular, and tridiagonal matrices; however, it does not include all
of the capabilities of original f77 LAPACK. Emphasis is given to routines
for solving linear systems consisting of non-symmetric matrices,
symmetric positive definite systems, and solving linear least-square systems.
The wavelet denoise plugin is a tool to reduce noise in each channel
of an image separately.
The default colour space to do denoising is YCbCr which has the
advantage that chroma noise can be reduced without affecting image
details. Denoising in CIELAB (L*a*b*) or RGB is available as an
option.
The user interface allows colour mode and preview channel selection.
The denoising threshold can be set for each colour channel
independently.
The plugin can be found under "Filters > Enhance > Wavelet denoise"
Japanese 12 dot font named `kanamecho'.
kaname-latin1.pcf:-MNKANAME-Fixed-Medium-R-Normal--12-110-75-75-C-60-\
ISO8859-1
knmhn12x.pcf:-MNKANAME-Fixed-Medium-R-Normal--12-110-75-75-C-60-\
JISX0201.1976-0
knm12p.pcf:-MNKANAME-Fixed-Medium-R-Normal--12-110-75-75-P-120-\
JISX0208.1983-0
knm12pb.pcf:-MNKANAME-Fixed-Bold-R-Normal--12-110-75-75-P-120-\
JISX0208.1983-0
knmzn12x.pcf:-MNKANAME-Fixed-Medium-R-Normal--12-110-75-75-C-120-\
JISX0208.1983-0
knmzn12xb.pcf:-MNKANAME-Fixed-Bold-R-Normal--12-110-75-75-C-120-\
JISX0208.1983-0
You can also use 'k12' as an alias for knmzn12x.pcf, 'k12b' for knmzn12xb.pcf,
'r12' for knmhn12x.pcf, and 'a12' for kaname-latin1.pcf.
Simple usage:
% kterm -fn a12 -fk k12 -fl r12
% mule -fn r12
ParMETIS is an MPI-based parallel library that implements a variety
of algorithms for partitioning unstructured graphs and for computing
fill-reducing orderings of sparse matrices. ParMETIS extends the
functionality provided by METIS and includes routines that are
especially suited for parallel AMR computations and large scale
numerical simulations. The algorithms implemented in ParMETIS are
based on the parallel multilevel k-way graph-partitioning algorithms
described in [KK95d], [KK96], [KK97], and the adaptive repartitioning
algorithms described in [SKK97a], [SKK97b], [SK+98], and [SKK98].