Tags :Toolkit

Atomic-scale simulation software for nanoscience PDF Print E-mail Atomistix ToolKit (ATK) is a software package that offers unique capabilities for simulating electrical properties of nanodevices on the atomic scale: NEGF transport simulations DFT, semi-empirical tight-binding, classical potentials Graphical user interface, with downloadable plug-ins that extends the functionality Python scripting interface Ability to handle large-scale systems The software is used by over 100 research groups at leading universities, government labs, and companies around the world, in a wide range of application areas. Since 2006, over 400 scientific articles have been published using ATK. With its graphical user interface, ATK is also an ideal tool for teaching basic concepts of nanotechnology, solid state physics, etc.Product:Quantumwise Atomstix Toolkit v11.8.2 Lanaguage:english Platform:WIN32&WIN64 Size:215 MB

combines our most popular components, Xtreme CalendarPro, Xtreme CommandBars, Xtreme Controls, Xtreme DockingPane, Xtreme PropertyGrid, Xtreme ReportControl, Xtreme ShortcutBar, Xtreme SkinFramework and Xtreme TaskPanel into one easy to use package.Product:Codejock Xtreme Toolkit Pro v10.3.1 Lanaguage:english Platform:Winxp/Win7 Size:100MB

# Algorithms including LMS, normalized LMS, leaky LMS, fast block LMS, sign LMS, RLS, and QR-RLS# Filtered-X LMS and normalized filtered-X LMS algorithm for active noise/vibration control# Examples including adaptive noise/echo cancellation, adaptive system identification, and LPC# Simulation and LabVIEW FPGA code generation for fixed-point LMS adaptive filter# Support for Windows 2000/XP/Vista/7 and LabVIEW Real-Time The NI LabVIEW Adaptive Filter Toolkit provides tools for designing, analyzing, and simulating adaptive filters, including both floating- and fixed-point. You can use these tools to create adaptive filters with various algorithms, such as least-mean-square (LMS) and recursive-least-square (RLS), as well as their variants. You can apply the adaptive filters you create to different applications, such as adaptive noise cancellation, adaptive echo cancellation, and system...

The National Instruments LabVIEW Execution Trace Toolkit gives real-time developers an interactive tool for analyzing and verifying NI LabVIEW Real-Time code execution. With minimal modifications to your embedded code, these tools graphically show multithreaded code execution while highlighting thread swaps, mutexes, and memory allocation. Using this information, you can optimize the real-time code for faster control loops and more deterministic performance. The toolkit allows you to verify code execution on LabVIEW Real-Time targets including PXI controllers, Compact FieldPoint controllers, FieldPoint controllers, compact vision systems, real-time PCI plug-in boards, and desktop PCs running the Venturcom Phar Lap ETS OS. The Execution Trace Toolkit requires Windows 2000/XP on the host machine. Interactively analyze and benchmark thread and VI execution Optimize performance by...

The Internet has opened many new opportunities and uses for personal computers and workstations across every industry and application area. Scientists and engineers are finding that important functions can be performed across the Internet, such as research, publishing conclusions, displaying data across the Web, archiving source code versions, and scheduling for test development teams. In addition to taking advantage of the Internet, virtual instruments are addressing remote or distributed applications more and more. Using the National Instruments LabVIEW Internet Developers Toolkit, you can easily incorporate a variety of electronic communications capabilities, such as XML, CGI, and FTP transfers into your virtual instrumentation applications. Read, write, and parse XML documents with a cross-platform DOM parser Send files or raw data to...