Secure and customizable compute service that lets you create and run virtual machines on Google’s infrastructure.
Computing infrastructure in predefined or custom machine sizes to accelerate your cloud transformation. General purpose (E2, N1, N2, N2D) machines provide a good balance of price and performance. Compute optimized (C2) machines offer high-end vCPU performance for compute-intensive workloads. Memory optimized (M2) machines offer the highest memory and are great for in-memory databases. Accelerator optimized (A2) machines are based on the A100 GPU, for very demanding applications.
gVirtualXRay is a C++ library to simulate X-ray imaging. It is based on the Beer-Lambert law to compute the absorption of light (i.e. photons) by 3D objects (here polygon meshes). It is implemented on the graphics processing unit (GPU) using the OpenGL Shading Language (GLSL). SimpleGVXR is a smaller library build on the top of gVirtualXRay. It provides wrappers to Python2, Python3, R, Ruby, Tcl, C#, Java, and GNU Octave.
!!! This project is currently CLOSED.
There is a new version of API available under LGPL license at
https://github.com/gehtsoft-usa/BallisticCalculator1
There is a new version of application in progress (ported to net framework 5.0)
https://github.com/nikolaygekht/ballistic.calculator.app
Ballisitic Calculator based on JBM's implementation 3-degree of freedom model, ported to C#, improved to support metric system and extended by some math from Litz's "Applied Ballistic" book...
Data logging and visualization in 2D and 3D for STMs.
This is a project we - ten students, 16 to 18 years old, and one teacher - are currently working on in the so called "Physik-Projektkurs" at school in which we build and program our own scanning tunneling microscope.
This software is designed for DAQ systems by BMCM (we use the USB-AD16F), but it should not be too difficult to adapt it to foreign systems.It currently supports resolutions up to 1024x1024, visualization in 2D and 3D using colors from predefined gradients, export to PNG,...
UPDATED VERSION ON GITHUB!
http://github.com/AtiX/wavesim
This is a physically correct simulation of waves on a surface, for example water-waves. It can also be used to simulate Microwaves, and has features like the support for different refraction indices, different wave sources and custom borders. Therefore, experiments like the double-slit-experiment can be easily simulated.
Managing your therapy and rehab practice is a time-consuming process. You spend hours on paperwork, billing, scheduling, and more. Raintree’s Therapy & Rehab EHR is here to help you manage your practice more efficiently. With our all-in-one solution, you’ll get the tools you need to streamline your therapy and rehab practice, improve patient care, and get back to doing what you love.