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The purpose of this project is to develop a free (open source), platform independent alternative to Origin. QtiPlot is being actively improved, all your suggestions to our "wish to" list and all your contributions are most welcome! Features: * QtiPlot is fully scriptable via Python, which gives you the possibility to use powerfull existing scientific tools, such as SciPy * OpenGL based 3D Plotting * Publication quality 2D plots * Easy export of plots to vector formats (EPS, PS, PDF) and to other various image formats (BMP, JPG, PNG, TIFF etc ...) * Powerful and versatile spreadsheets and calculations in column-logic * Easy ASCII-Import/Export of single or multiple files * Linear and non-linear y=f(x) curve fitting and estimation of statistical errors of the fit-parameters * Multi-peak fitting with Gaussian and Lorentzian peak profiles * Data analysis: statistics, sorting, FFT, data smoothing (Savitzky-Golay, FFT smoothing, and moving window average), data filtering (low/high/band pass and band block filters), convolution/deconvolution, correlation, interpolation, numerical integration/differentiation, etc... * Matrices optimized for 3D plotting * Templates support: all the settings for plots (2D/3D), tables and matrixes can be saved to ASCII files and restored later on for a fast editing process * Project files based on folders, a powerful project explorer with extensive built-in features: drag and drop, searching facilities, etc...

SuperLU_MT (version 2.0) ======================== SuperLU_MT contains a set of subroutines to solve a sparse linear system A*X=B. It uses Gaussian elimination with partial pivoting (GEPP). The columns of A may be preordered before factorization; the preordering for sparsity is completely separate from the factorization. SuperLU_MT is a parallel extension to the serial SuperLU library. SuperLU_MT is implemented in ANSI C, with multithreading extension, for example, using POSIX threads. Currently, only the LU factorization routine, which is the most time-consuming part of the solution process, is parallelized on machines with a shared address space. The other routines, such as column preordering and the forward and back substitutions are performed sequentially. This "alpha" release contains only double-precision real data type. Xiaoye S. Li, Lawrence Berkeley National Lab, xiaoye@nersc.gov James Demmel, Univ. of California Berkeley, demmel@cs.berkeley.edu John R. Gilbert, Xerox Palo Alto Research Center, gilbert@parc.xerox.com NOTE: This library has to be linked with BLAS or a thread safe replacement.

nxtvepg - Decoder, Browser and Analyzer for the Nextview Electronic Programme Guide nxtvepg is an X11 application to decode, analyze and browse TV programme schedules transmitted on analog TV channels as defined in ETS 300 707: "Protocol for a TV Guide using electronic data transmission" by the European Telecommunications Standards Institute. nxtvepg enables you to obtain free TV programme listings for all of the major networks in Germany, Austria, France and Switzerland. Currently Nextview EPG is transmitted by the following TV networks (note that each of these EPGs cover not only the provider's programme but also that of many other networks): Kabel1, 3Sat, RTL-II (Germany and Austria), SF1, TSR1, TSI1, EuroNews (Switzerland), Canal+, M6 (France), TRT-1 (Turkey). You will need a bktr(4) compatible tv tuner card with teletext support in order to use nxtvepg. It is recommended to check the card's setup before using nxtvepg, e.g. with the following applications from the ports collection: multimedia/fxtv for tv tuner and misc/alevtv for Teletext support.

Mediastreamer2 is a powerful and lightweight streaming engine specialized in voice/video telephony applications. It is the library that is responsible for all the receiving and sending of multimedia streams in linphone, including voice/video capture, encoding and decoding, and rendering. Features: * Capture and playback from various platform dependent sound architectures * Send and receive RTP streams * Encode and decode the following audio formats: OPUS, speex, G711, GSM, iLBC, AMR, AMR-WB, G722, SILK, G729, and video formats H263, theora, MPEG4, H264 and VP8 * RTP/AVPF support: RTCP control messages for video error recovery: PLI, SLI, RPSI, FIR * Audio conferencing * Supports SRTP and ZRTP (encryption of voice and video) * Supports any webcam, based on OS's camera API: quicktime, directshow, video4linux, android.camera * Acoustic echo cancellation using the speex echo canceler or webrtc AECm * Read and write .wav files * Optimized rendering of YUV pictures, using OpenGL, DrawDib, X11/Xv * Dual tones generation * Custom tone detector * Audio parametric equalizer * Volume control, automatic gain control * ICE for optimized NAT traversal (RFC5246) to allow peer to peer audio and video connections without media relay server * Adaptive bitrate control algorithm: for automatic adaption of encoder bitrate based on received RTCP feedback * Can use plugins to add new codecs, new sound input/output backends,...

With the exponential growth of the Internet, a central Whois database that provides host and network information of systems connected to the Internet, and electronic mail (email) addresses of the users of those systems has proven to be very inefficient. The sheer size and effort needed to maintain a centralized database necessitates an alternate, decentralized approach to storing and retrieving this information. RWhois is a Directory Services protocol which extends and enhances the Whois concept in a hierarchical and scaleable fashion. It focuses on the distribution of "network objects"--the data representing Internet resources or people--and uses the inherently hierarchical nature of these network objects (domain names, Internet Protocol (IP) networks, email addresses) to more accurately discover the requested information. RWhois synthesizes concepts from other, established Internet protocols to create a more useful way to find resources across the Internet. The RWhois protocol and architecture derive a great deal of structure from the Domain Name System (DNS) [RFC 1034] and borrow directory service concepts from other directory service efforts, primarily [X.500]. The protocol is also influenced by earlier established Internet protocols, such as the Simple Mail Transport Protocol (SMTP) [RFC 821] for response codes.

If you have an AT&T Wireless, Bell Canada/Bell Mobility, Cellular One, Cingular, Cricket, Sprint PCS, SkyTel, or T-Mobile cell phone or pager, and you want the ability to send SMS messages to it via a command-line utility, this is what you need. All this program requires is a computer with a baseline Perl 5.x installation and web access. NO EXTRA PERL MODULES REQUIRED! How does it work? SendSMS connects to your service provider's web page and pretends to submit a form to their 'Instant Messaging' web page. Currently, AT&T Wireless, Bell Canada/Bell Mobility, Cellular One, Cingular, Cricket, SkyTel, Sprint PCS, and T-Mobile are supported. Users are encouraged to modify the provided templates to add support for any providers who are currently unsupported. Other Service Providers If you are interested in supporting another service provider please try to modify sendSMS on your own. It is not hard at all. Instructions and examples are included in the code, and if you're familiar with the site you're porting to, it takes about 15 minutes. If you get sendSMS working with any other providers' web sites, please email Paul Kreiner [deacon at thedeacon.org] and/or the port maintainer a patch so it can be added to the next release.

SpliX is a set of CUPS printer drivers for SPL (Samsung Printer Language) printers. Below is a non-exhaustive list of currently supported printers. Manufacturer Model State Dell 1100 Works Dell 1110 Works Samsung CLP-200 Untested Samsung CLP-300 Works Samsung CLP-500 Works Samsung CLP-510 Works Samsung CLP-550 Works Samsung CLP-600 Untested Samsung CLP-610 Untested Samsung CLX-216X Works Samsung CLX-2170 Untested Samsung CLX-3160 Works Samsung ML-1510 Works Samsung ML-1520 Works Samsung ML-1610 Works Samsung ML-1630 Works Samsung ML-1640 Works Samsung ML-1710 Works Samsung ML-1740 Works Samsung ML-1750 Works Samsung ML-2010 Works Samsung ML-2150 Untested Samsung ML-2250 Works Samsung ML-2251 Works Samsung ML-2510 Works Samsung ML-2570 Works Samsung ML-2550 Works Samsung ML-3050 Untested Samsung ML-3560 Works Samsung SCX-4200 Works Samsung SCX-4500 Works Xerox Phaser 3115 Untested Xerox Phaser 3116 Untested Xerox Phaser 3117 Works Xerox Phaser 3120 Untested Xerox Phaser 3121 Works Xerox Phaser 3122 Untested Xerox Phaser 3130 Works Xerox Phaser 3150 Untested Xerox Phaser 3160 Works Xerox Phaser 3420 Untested Xerox Phaser 3425 Untested Xerox Phaser 5500 Untested Xerox Phaser 6100 Works Xerox Phaser 6110 Works Xerox WorkCentre 3119 Untested

U-Boot loader for BeagleBone and BeagleBone Black. To install this bootloader, copy the files MLO and bb-uboot.img to the FAT partition on an SD card or the eMMC. Normally this is partition 1, but different partitions can be set with U-Boot environment variables. 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 uboot.env on the FAT partition. * The DTB file name is chosen based on the board model and passed to ubldr using the fdtfile env variable. ubldr loads the DTB from /boot/dtb/ on the FreeBSD partition. * By default, it loads ELF ubldr from file bbubldr on the FAT partition to address 0x88000000, and launches it. Note: prefixing the boot files with 'bb' allows building images with boot bits for more than one board. For information about running FreeBSD on BeagleBone or BeagleBone Black, see https://wiki.freebsd.org/FreeBSD/arm/BeagleBone For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot

U-Boot loader for Gumstix Duovero. To install this bootloader, copy the files MLO and u-boot.img to the FAT partition on an SD card. Normally this is partition 1, but different partitions can be set with U-Boot environment variables. 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 uboot.env on the FAT partition. * The DTB file name is passed to ubldr using the fdtfile env variable. The default is omap4-duovero-parlor.dtb for a Parlor expansion board. ubldr loads the DTB from /boot/dtb/ on the FreeBSD partition. (Not tested) * By default, it loads ELF ubldr from file ubldr on the FAT partition to address 0x88000000, and launches it. For information about running FreeBSD on Duovero, see https://wiki.freebsd.org/FreeBSD/arm/Duovero For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot

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