MATLAB R2013a Student Version (32-bit) is developed by The MathWorks, Inc. and is used by 2 users of Software Informer. The most popular versions of this product among our users are: 8.1 beta and 8.1. The name of the program executable file is matlab.exe. The product will soon be reviewed by our informers.
Download Matlab 2013 Portable Full Version
Download Zip: https://sextuoglutda.blogspot.com/?od=2vKCDS
Based on the current master branch of MITK we have released a beta version of the MITK Diffusion application. Many new features have been added since the last release in 2014 and many bugs have been fixed. The full release notes and further information about the application can be found here:
Please send an email to sys-help@loni.org with the following information: Your user name
The name of cluster where you want to use the requested software
The name, version and download link of the software
Specific installation instructions if any (e.g. compiler flags, variants and flavor, etc.) Why the software is needed
Where the software should be installed (locally, /project, or /usr/local/packages) and justification explaining how many users are expected.
For LONI users who want to use Matlab on QB2, you need to provide your own license file. The license file should have a .lic extension and be located under the "/home/$USER/.matlab/R_licenses" directory. For example, in order to user Matlab R2013a, you need to create the directory ".matlab/R2013a_licenses" under your home directory and put the license file there.
In short, this means that everyone is free to use Gmsh and to redistribute it ona free basis. Gmsh is not in the public domain; it is copyrighted and there arerestrictions on its distribution (see the license and therelated frequently askedquestions). For example, you cannot integrate this version of Gmsh (in fullor in parts) in any closed-source software you plan to distribute(commercially or not). If you want to integrate parts of Gmsh into aclosed-source software, or want to sell a modified closed-source version ofGmsh, you will need to obtain a commercial license: pleasecontact usfor details.
The latest version 1.20 contains multi-layer support, several new local cluster features, including univariate and multivariate local Geary cluster maps, redcap, skater, spectral clustering and max-p, and local join count maps for categorical data. It also implements several classic non-spatial cluster techniques (principal component analysis, k-means, and hierarchical clustering) implemented in Hoon et al.'s (2013) C Clustering Library, as well as HDBScan.
LAMMPS is distributed as an open sourcecode under the terms ofthe GPLv2. The current version can be downloadedhere. Links are also included to older versions. AllLAMMPS development is done viaGitHub, so all versions can also beaccessed there.
From this page you can download the latest version of PicoScope Test & Measurement oscilloscope software, PicoLog data logging software, software development kits (SDK), brochures and manuals. If you do not own a Pico product you can download the software for the product you are interested in and run in demo mode.
Code Composer Studio includes an optimizing C/C++ compiler, source code editor, project build environment, debugger, profiler and many other features. The intuitive IDE takes you through each step of the application development flow. Familiar tools and interfaces make getting started faster than ever before. The desktop version of Code Composer Studio combines the advantages of the Eclipse software framework with advanced capabilities from TI resulting in a compelling feature-rich environment. The cloud-based Code Composer Studio leverages the Theia application framework enabling development in the cloud without needing to download and install large amounts of software.
cloc counts blank lines, comment lines,and physical lines of source code in many programming languages.Given two versions of a code base, cloc can computedifferences in blank, comment, and source lines.It is written entirely in Perl with no dependencies outside thestandard distribution of Perl v5.6 and higher (code from some external modules is embedded within cloc)and so is quite portable.cloc is known to run on many flavors of Linux, FreeBSD,NetBSD, OpenBSD,Mac OS X, AIX, HP-UX, Solaris, IRIX, z/OS, and Windows.(To run the Perl source version of cloc on Windows one needs ActiveState Perl5.6.1 or higher, Strawberry Perl, Cygwin, or MobaXTerm withthe Perl plug-in installed.Alternatively one can use the Windows binary of cloc generated with PAR::Packer to run on Windows computers that have neither Perl nor Cygwin.)
The default Windows download, cloc-1.64.exe, was built with PAR::Packer on a Windows 7 computer with Strawberry Perl. Windows executables of cloc versions 1.60 and earlier were built withperl2exeon a 32 bit Windows XP computer. A small modification was madeto the cloc source code before passing it to perl2exe; lines 87 and88 were uncommented:85 # Uncomment next two lines when building Windows executable with perl2exe86 # or if running on a system that already has Regexp::Common. 87 #use Regexp::Common;88 #$HAVE_Rexexp_Common = 1;
Otherwise,to build a Windows executable with pp from PAR::Packer,first install a Windows-based Perl distribution (for exampleStrawberry Perl or ActivePerl) following their instructions. Next, opena command prompt, aka a DOS window and install the PAR::Packer module.Finally, invoke the newly installed pp command with thecloc souce code to create an .exe file:C:> perl -MCPAN -e shellcpan> install PAR::Packercpan> exitC:> pp cloc-1.64.plA variation on the above is if you installed the portable versionof Strawberry Perl, you will need to run portableshell.batfirst to properly set up your environment. The Strawberry Perlderived executable on the SourceForge download area was createdwith the portable version on a Windows 7 computer.
The Linux version comes in both statically and dynamically linked versions. The static version should work on most Linux distributions, but lacks Cilk Plus and NUMA binding. The dynamic version supports all features, but is less portable due to the DLL dependency hell.
The device currently executes a full sweep and reconstructs an image in about two minutes. The majority of this time is due to heavy averaging implemented at each angle during data collection. The incorporation of signal processing on the front end (i.e., by the Murgen board) would reduce the need for averaging and thus increase the frame rate. The ultimate goal would be to reduce signal processing for each angle to less than 10ms, as this is the fastest rate that the Servo motor can rotate to each angle. The scan conversion is the most time-consuming function of the image reconstruction program. However, since the scan conversion could run in parallel with image acquisition, it will not affect the acquisition time at each angle. 2ff7e9595c
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