The NIH HPC group plans, manages and supports high-performance computing systems specifically for use by the intramural NIH community. These systems include Biowulf, a 105,000+ processor Linux cluster; Helix, an interactive system for file transfer and management, and Helixweb, which provides a number of web-based scientific tools. We provide access to a wide range of computational applications for genomics, molecular and structural biology, mathematical and graphical analysis, image analysis, and other scientific fields.

The continued growth and support of NIH's Biowulf cluster is dependent upon its demonstrable value to the NIH Intramural Research Program. If you publish research that involved significant use of Biowulf, please cite the cluster. Suggested citation text:

This work utilized the computational resources of the NIH HPC Biowulf cluster (https://hpc.nih.gov).

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Biowulf Utilization

Wednesday, November 6th, 2024

utilization graph

Last 24 hrs
64,701 jobs submitted 48,075 jobs completed 3,486,483 CPU hrs used	23 NIH Institutes 302 Principal Investigators 669 users

Announcements

28 Oct 2024 : Reboots of Helix/Biowulf login node on Sunday November 3 at 8 pm
18 Oct 2024 : Register Now for Anaconda Demo Day at NIH
17 Oct 2024 : TODAY: Biowulf 25th Anniversary Seminar Series: Dr. Sameer Antani (NLM), 11am, Bldg 31 / 6C Rm D & E
16 Oct 2024 : REMINDER: Zoom-In Consult with HPC staff today (Wed 16 Oct)
15 Oct 2024 : Biowulf 25th Anniversary Seminar Series: Dr. Sameer Antani (NLM) Thursday October 17, 11am-noon
15 Oct 2024 : Re: Biowulf resource additions and changes
14 Oct 2024 : Zoom-In Consult for Biowulf Users (Wed 16 Oct)
2 Oct 2024 : Biowulf resource additions and changes
1 Oct 2024 : Reboots of Helix/Biowulf login node on Sunday October 6 at 8 pm
25 Sep 2024 : REMINDER: Zoom-In Consult with HPC staff today (Wed 25 Sep)
23 Sep 2024 : Zoom-In Consult for Biowulf Users (Wed 25 Sep)
22 Sep 2024 : The NIH Biowulf cluster and HPC systems are now available

Recent Papers that used Biowulf & HPC Resources

(All 6243 papers)

RNA helicase D1PAS1 resolves R-loops and forms a complex for mouse pachytene piRNA biogenesis required for male fertility
Choi, H; Zhou, L; Zhao, Y; Dean, J; ,
Nucleic Acids Res , DOI://10.1093/nar/gkae712 (2024)

Cryo-EM structure of a natural prion: chronic wasting disease fibrils from deer
Alam, P; Hoyt, F; Artikis, E et al.
Acta Neuropathol , DOI://10.1007/s00401-024-02813-y (2024)

The Bor1 elevator transport cycle is subject to autoinhibition and activation
Jiang, Y; Jiang, J; ,
Nat Commun , DOI://10.1038/s41467-024-53411-1 (2024)

MYB/MYBL1-altered gliomas frequently harbor truncations and non-productive fusions in the MYB and MYBL1 genes
Chung, HJ; Rajan, S; Wu, Z et al.
Acta Neuropathol , DOI://10.1007/s00401-024-02803-0 (2024)

Altruistic feeding and cell-cell signaling during bacterial differentiation actively enhance phenotypic heterogeneity
Updegrove, TB; Delerue, T; Anantharaman, V et al.
Sci Adv , DOI://10.1126/sciadv.adq0791 (2024)

The Myc-associated zinc finger protein epigenetically controls expression of interferon-γ-stimulated genes by recruiting STAT1 to chromatin
Xiao, T; Li, X; Felsenfeld, G; ,
Proc Natl Acad Sci U S A , DOI://10.1073/pnas.2320938121 (2024)

Targeting SWI/SNF ATPases reduces neuroblastoma cell plasticity
Xu, M; Hong, JJ; Zhang, X et al.
EMBO J , DOI://10.1038/s44318-024-00206-1 (2024)

A machine learning model reveals expansive downregulation of ligand-receptor interactions that enhance lymphocyte infiltration in melanoma with developed resistance to immune checkpoint blockade
Sahni, S; Wang, B; Wu, D et al.
Nat Commun , DOI://10.1038/s41467-024-52555-4 (2024)