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QuantumATK - New Release Notes
We are excited to announce the new Synopsys QuantumATK X-2025.06 release. Here are some highlights of the new features and improvements in this version across different atomic-scale modeling methods and applications for the semiconductor industry and beyond.
GPU Acceleration of DFT and Semi-Empirical
- On average 10x+ speed-up of the most time-consuming parts of bulk and NEGF device calculations, including SCF, bandstructure, PDOS, PLDOS, and transmission spectrum.
- Support for multi-node and multi-GPU with linear acceleration with the number of GPUs.
- Shifting the run-time for 5,000 atoms with DFT or 30,000 atoms with Semi-Empirical NEGF from days to just a few hours.
DFT Performance Improvements on CPU
- ~2x speed-up for all SCF & geometry optimization with MetaGGA, GGA, and Hubbard U for small/medium system sizes (a few hundred atoms).
- Up to ~5x faster PDOS, FatBandstructure and MAE analysis, with speed-up increasing with the number of projections.
Broader Machine-Learned Potentials (MLP) Support
- Framework for training new and fine-tuning universal MACE models for a specific system/process with improved accuracy.
- Interface for import, rapid testing and usage of emerging MLP models, based on DeepMD, ORB, SevenNet, MACE, CHGNet, etc.
- Multi-GPU acceleration of MLPs enables large scale MD simulations, e.g. 100,000 atoms with MACE and 1,000,000 atoms with MTPs.
Room-Temperature Diffusion
New methods for simulating room-temperature diffusion and extracting diffusion coefficients:
- Accelerated Collective Variable Hyperdynamics (CVHD) gives up to 300x speed-up over standard MD to capture rare events.
- Adaptive Kinetic Monte Carlo (AKMC) with new Lanczos and ARTn saddle search methods iteratively probes new states, possible transitions, and energy barriers between them.
Surface Process Simulation Improvements
- Support for complex substrate shapes, such as U-shaped and 2D materials, in deposition/etching processes.
- MD simulations with variable time-step for accurate modeling of impact surface processes without having to use a small time-step for the entire simulation.
Improved NEB Method for Reaction Barriers
- New sequential IDDP method for setting up complex reaction paths in NEB.
- New techniques to improve and speed-up NEB reaction path optimization.
- 2-3x faster refinement of transition state search and reaction barrier calculations when combining NEB with new Dimer and Lanczos methods for saddle point search.
Get QuantumATK X-2025.06
- If you are a customer entitled to maintenance services, please login to SolvNetPlus to download QuantumATK W-2024.09 installers and product release information.
- Visit QuantumATK documentation pages for more details about the installation guide, manual, introductory tutorials and more.
Additional Resources
Learn more about QuantumATK products
Interested in applying QuantumATK software to your research? Test our software or contact us at quantumatk@synopsys.com to get more information on QuantumATK platform for atomic-scale modeling.