We are excited to announce the new Synopsys QuantumATK X-2025.06 release! Here are some highlights of the new features and improvements.
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 DiffusionNew 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-2025.06If you are a customer entitled to maintenance services, please login to SolvNetPlus (
https://solvnetplus.synopsys.com/) to download QuantumATK X-2025.06 installers and product release information.
The QuantumATK documentation, including the installation guide, manual, tutorials, publication list, and links to resources such has webinars, can be found online on
https://docs.quantumatk.com/ and
https://spdocs.synopsys.com/dow_retrieve/latest/home_public/quantumatk.html