Science data sets are exploding in size, variety and velocity; the hallmarks of "Big Data". Modern research projects demand faster and more accurate results, often exceeding the capabilities of the systems available within a typical academic setting. Therefore, professional researchers, students and scientists have to come up with innovative ways to solve the new challenges in scientific computing. At Ijra'at, we step in, bringing our extensive experience in supercomputing, to provide you with tailored tools and turn-key solutions to enable the research and academic community do better science.
This statement is attributed to Thomas J. Watson. Even though it was made in a different context, the statement now proves ever more true in where we're headed. Huge computers, which we call "super computers" which enable everything and anything related to technology you would ever need. There would be no more need to have bulky desktop machines or laptops; just your smartphone, tablet or a low powered thin laptop connected to one of the supercomputers on the Cloud. Going forward, this vision is important not only for the industry but academia as well. Centralizing your computing needs into one supercomputers capable of delivering combined performance for your compute intensive applications which wouldn't have been possible otherwise.
Imagine doing a multi-billion point simulation in MATLAB. How long will it take to get it done assuming that it even completes without crashing your system? With MATLAB's DCS (Distributed Compute Server), you can write your MATLAB code for your PC and then scale it to nodes of our Ijra'at cluster. With your MATLAB code running on a supercomputer, you can get results faster and do iterative research, something which is not possible with legacy hardware solutions or your lab PC. At Ijra'at our engineers can also help you tweak your code to map it to the supercomputer optimally.
Large scale system simulations are a commonplace these days, not only in industry but also in academia. The capability to run your simulations on supercomputers is built into the ANSYS software and at Ijra'at, we enable you to deploy your heavy simulations with turn-key hosted ANSYS solution.
Simulating large scale biomolecular systems cannot be achieved on limited compute capability machines but a lot of customizations are required to run these codes writte n within NAMD, for example, to enable them to support supercomputers. This requires a multi-desciplinary team of bioscience researchers and engineers who can help them execute that code on supercomputers. At Ijra'at, we take the pain out of bioscience by enabling turn-key solution support popular bioscience software on our own supercomputer.
Just like NAMD, bioscience researchers can test their theories, do iterative research and simulate large scale bio systems right from their desk. We have fully optimized, "ready to simulate" support for AMBER software on our Ijra'at supercomputer.
The researchers now collect ever bigger amounts of data and even bigger amount is available to analyze. This creates a significant challenge to reliably analyze this vast amount of data without the need to make significant investments in hardware. At Ijra'at, we provide solution in the form of hosted "Stata" which means that you concentrate on your research and let us handle the rest.
