Vina-GPU 2.0 accelerates AutoDock Vina and its related commonly derived docking methods, such as QuickVina 2 and QuickVina-W with GPUs. Vina-GPU 2.0 includes the following three docking methods,including Vina-GPU+,QuickVina 2-GPU and QuickVina-W-GPU.
Vina-GPU+ further accelerates Vina-GPU and facilitates single receptor-multi-ligand docking. The compile and run process is described in here.
If you would like to develop and build Vina-GPU+ from source please look at README.md(https://github.com/DeltaGroupNJUPT/Vina-GPU-2.0/blob/main/Vina-GPU%2B/README.md).
The compile and run process is described in here.
The compile and run process is described in here.
A graphic user interface (GUI) is provided for users on Windows OS
- first make sure that
Vina-GPU2.0.execan run on a terminal - put the
Vina-GPU2.0.exeand all.binformatted files in./Vina-GPU-2.0/GUI/execand overwrite the original files - run the
Vina-GPU2.0.exefile within./Vina-GPU-2.0/GUIto start up the Vina-GPU 2.0 GUI - select docking methods
- select the input and output files
- set the box center, the box size, thread and search_depth
- click the
startbutton to run Vina-GPU 2.o - click
scorebutton to get docking scores
- Tang, Shidi et al. “Accelerating AutoDock Vina with GPUs.” Molecules (Basel, Switzerland) vol. 27,9 3041. 9 May. 2022, doi:10.3390/molecules27093041
- Trott, Oleg, and Arthur J. Olson. "AutoDock Vina: improving the speed and accuracy of docking with a new scoring function, efficient optimization, and multithreading." Journal of computational chemistry 31.2 (2010): 455-461.
- Hassan, N. M. , et al. "Protein-Ligand Blind Docking Using QuickVina-W With Inter-Process Spatio-Temporal Integration." Scientific Reports 7.1(2017):15451.
- Amr Alhossary, Stephanus Daniel Handoko, Yuguang Mu, and Chee-Keong Kwoh. "Fast, accurate, and reliable molecular docking with QuickVina 2. " Bioinformatics (2015): 2214–2216.