Nanoacademic software helps its users be more productive and ultimately reduce their R&D projects timeframe.
A state-of-the-art quantum transport simulator.
Create materials, interfaces, devices and predict their properties in- and out-of-equilibrium with NEGF-DFT.
A first-class quantum transport simulator.
NanoDCAL+ is a newly designed and enhanced version of NanoDCAL. Written in Python and Fortran, it provides new Python calculators and features, more performance, more modularity and scalability for workstations and supercomputers alike.
A powerful material physics simulator.
RESCU is a state-of-the-art DFT and DFPT package, which implements advanced algorithms and computational methods ￼to simulate complex materials consisting from a few to thousands of atoms.
Our most powerful solution for first-principles materials simulation.
RESCU+ is the newly designed and enhanced version of RESCU. Written in Python and Fortran, it comes with new Python calculators and provides extra scalability for supercomputing platforms creating a complete large-scale DFT solution (up to 100k atoms) that complements our legacy tool RESCU.
Allows finite element modeling for computer-aided design of quantum-technology hardware.
QTCAD is a finite-element simulator used to predict the performance of spin-qubit devices. It permits users to explore many different design scenarios before their implementation in the lab, thus saving considerable time and money. QTCAD calculates the electron or hole wavefunctions and energies within the k.p formalism using non-linear Poisson, Schrödinger, and many-body solvers. QTCAD is currently in beta phase, and a commercial release is scheduled for calendar Q2 2022. Do you want to know more? Contact us and enlist to become a beta tester now.
We provide technical and scientific consultancy services to academic and industry researchers who need advanced modeling in their R&D.
Researchers who lack the expertise or time to perform their own simulation analysis or develop their own software tools may benefit from our scientific consultancy services. Our expertise includes, but is not limited to, theoretical and computational condensed matter physics, quantum systems and technologies, computational materials physics, and nanoelectronics. We also add value for our customers, supporting their effort by helping them get the most out of our tools and providing them with new custom solutions for their scientific research projects beyond included or optional technical support.