process of protein folding and the movements of proteins, and is reliant on simulations run on volunteers' personal computers. Folding@home is currently based...
154 KB (14,601 words) - 06:41, 27 July 2024
unfolded state may form a folding initiation site and guide the subsequent folding reactions. The duration of the folding process varies dramatically...
76 KB (8,675 words) - 03:46, 1 October 2024
(December 2020), "AlphaFold 2". Presentation given at CASP 14. Folding@home IBM Blue Gene Foldit Rosetta@home Human Proteome Folding Project AlphaZero AlphaGo...
63 KB (5,676 words) - 04:38, 10 October 2024
perceived importance Paper folding, or origami, the art of folding paper Protein folding, the physical process by which a polypeptide folds into its characteristic...
3 KB (444 words) - 21:15, 7 July 2024
(formerly) PS3s, Folding@home has nearly 108 times more computing power than Rosetta@home. Both Phase I and Phase II of the Human Proteome Folding Project (HPF)...
86 KB (8,597 words) - 13:34, 9 October 2024
distributed-computing project Folding@home uses scientific computer programs, referred to as "cores" or "fahcores", to perform calculations. Folding@home's cores are based...
29 KB (2,981 words) - 08:36, 29 May 2024
for orchestrating the distributed computing protein-folding research project known as Folding@home. His research is focused on distributed computing and...
20 KB (1,468 words) - 01:13, 23 May 2024
University tailors Folding@home to GPUs". Archived from the original on October 12, 2007. Retrieved February 19, 2015. Mike Houston. "Folding@Home – GPGPU". Archived...
40 KB (3,992 words) - 16:43, 5 July 2024
Genome@home was a volunteer computing project run by Stefan Larson of Stanford University, and a sister project to Folding@home. Its goal was protein design...
4 KB (455 words) - 22:04, 31 May 2023