A multi-channel MPEG encoder, using the ISO13818 standard and the dist10
source code. Multi-channel files may have up to 6 defined channels:
Left(L), Right(R), Center(C), Left Surround (LS), Right Surround (RS) and
a Low Frequency Enhancement channel (LFE).
ISO13818 defines 5 multi-channel modes (on top of the normal stereo mode),
each of these modes may have an optional LFE channel:
3/2: L, R, C, LS, RS
3/1: L, R, C, mono surround
2/2: L, R, LS, RS
2/1: L, R, mono surround
3/0: L, R, C
The "standard" surround sound encoding of "5.1 channels" is achieved by
using mode 3/2 plus an LFE channel.
A multi-channel MPEG file should decode OK on any MPEG decoder. If the
decoder doesn't recognize the multi-channel extensions, then you'll just
get a stereo file containing a down mix of the 5 channels.
U-Boot loader for Olimex A20 SOM EVB.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for A13 Olinuxino.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
The ATLAS (Automatically Tuned Linear Algebra Software) project is an ongoing
research effort focusing on applying empirical techniques in order to provide
portable performance. At present, it provides C and Fortran77 interfaces to
a portable, efficient BLAS implementation, as well as enhanced versions of a
few routines from LAPACK. To link with ATLAS shared libraries:
Serial (thread-safe) Fortran77 BLAS:
-lf77blas
Multi-threaded Fortran77 BLAS:
-lptf77blas
Serial (thread-safe) C BLAS:
-lcblas
Multi-threaded C BLAS:
-lptcblas
ATLAS-enhanced LAPACK, serial (thread-safe) interface:
-lalapack -lf77blas -lcblas
ATLAS-enhanced LAPACK, multi-threaded interface:
-lalapack -lptf77blas -lptcblas
highlight is a customizable source code highlighter. It supports a
myriad of output formats, and an even greater myriad of recognized
source code formats, and even supports themes.
highlight can output to HTML, XHTML, RTF, LaTeX and TeX, and can
markup many input formats, including:
Ada 95, Agda, AMPL, Aspect, Assembler, Amtrix, Avenue, (G)AWK, Bash,
BlitzBasic, BMS, C, C++, C#, ClearBasic, Clipper, COBOL, CSS, DOS-Batch,
Eiffel, Euphoria, Express, Fortran, Haskell, HTML, HTTPD, IDL, INI,
Jasmin, Java, JavaScript, LaTeX, LDIF, Lotus Script, Lua, Make, Maya,
Matlab, Modelica, Modula 3, (Object) Pascal, Paradox, PATROL, Perl, PHP,
Pike, PL/1, PL/SQL, POV Ray, Progress, Python, Rexx, Ruby, Small, Spin,
Sybase, VHDL, Visual Basic, and XML.
Copyright (c) 1993-1997 by Sanjay Ghemawat
* Ical is an X based calendar program
* Calendar items can be created edited and deleted easily.
* Items can be made to repeat in various ways.
* Ical will post reminders for upcoming appointments.
* Ical can print and list item occurrences.
* An ical calendar can include other calendars.
* Ical calendars can be shared by different users.
Copyrights
==========
Most of the files are covered by the copyright in the file COPYRIGHT.
The configure script is covered by the GNU Public License (see
COPYRIGHT.GNU).
This module provides perl access to Glib and GLib's GObject libraries.
GLib is a portability and utility library; GObject provides a generic
type system with inheritance and a powerful signal system. Together
these libraries are used as the foundation for many of the libraries
that make up the Gnome environment, and are used in many unrelated
projects.
This wrapper attempts to provide a perlish interface while remaining
as true as possible to the underlying C API, so that any reference
materials you can find on using GLib may still apply to using the
libraries from perl. Where GLib's functionality overlaps perl's,
perl's is favored; for example, you will find perl lists and arrays in
place of GSList or GList objects. Some concepts have been eliminated;
you need never worry about reference-counting on GObjects or GBoxed
structures. Other concepts have been converted to a perlish analogy;
the GType id will never be seen in perl, as the package name serves
that purpose. [FIXME link to a document describing this stuff in detail.]
OpenEXR is a high dynamic-range (HDR) image file format developed by
Industrial Light & Magic for use in computer imaging applications.
OpenEXR is used by ILM on all motion pictures currently in production.
The first movies to employ OpenEXR were Harry Potter and the Sorcerers Stone,
Men in Black II, Gangs of New York, and Signs. Since then, OpenEXR has become
ILM's main image file format.
OpenEXR's features include:
* Higher dynamic range and color precision than existing 8- and 10-bit
image file formats.
* Support for 16-bit floating-point, 32-bit floating-point, and 32-bit
integer pixels. The 16-bit floating-point format, called "half", is compatible
with the half data type in NVIDIA's Cg graphics language and is supported
natively on their new GeForce FX and Quadro FX 3D graphics solutions.
* Multiple lossless image compression algorithms. Some of the included codecs
can achieve 2:1 lossless compression ratios on images with film grain.
* Extensibility. New compression codecs and image types can easily be added
by extending the C++ classes included in the OpenEXR software distribution.
New image attributes (strings, vectors, integers, etc.) can be added to
OpenEXR image headers without affecting backward compatibility with existing
OpenEXR applications.
NSCA-ng provides a client-server pair which makes the Nagios command file
accessible to remote systems. This allows for submitting passive check
results, downtimes, and many other commands to Nagios or compatible
monitoring solutions. The submitted data is queued by the NSCA-ng
server if Nagios goes down. Multiple check results or commands can be
submitted in one go, and multiline plugin output is fully supported.
NSCA-ng uses TLS encryption and shared-secret authentication with
per-client passwords, as well as fine-grained authorization control.
This package contains the NSCA-ng server, which is written in C and
uses an event-driven architecture. Disk I/O is avoided unless the data
cannot be submitted in one go due to its size (on Linux, the threshold
is 4kB). In this case, the data is handed over to Nagios via
asynchronously written files.
NSCA clients cannot talk to NSCA-ng servers (nor vice versa), but NSCA
and NSCA-ng servers can happily run side by side.
Parse phone numbers. Phone number have a defined syntax (to a point), so
they can be parsed (to a point).