QuantumATK atomic-scale modeling software enables large-scale and thus more realistic material simulations, integrating multiple simulation methods, ranging from ab initio DFT to semi-empirical and classical force fields analysis, into an easy-to-use platform. QuantumATK accelerates semiconductor and materials R&D, and reduces time and costs by enabling more efficient workflows in the screening process of new materials across a broad range of high-tech industries.
Accelerate development of new materials and obtain deep understanding of mechanisms and structure-property relationships using QuantumATK materials modeling software. Compute both basic and more advanced material properties, including electronic, structural, optical, thermal, magnetic and mechanical properties, as well as electronic and thermal transport, electron-phonon coupling, piezoelectricity and more characteristics
QuantumATK is fully supported and delivered in an easy-to-use interface, tailored from state-of-the-art methods, and developed by experts to the specifications of our customers. Atomic-scale modeling tools in QuantumATK range from Density Functional Theory (DFT) simulations with either LCAO and plane-wave basis sets to semi-empirical models and classical force fields: conventional and machine-learned. All simulation engines share a common infrastructure for analysis, molecular dynamics and parallel performance techniques.
