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

Tuesday, June 17th, 2025

utilization graph

Last 24 hrs
169,353 jobs submitted 124,110 jobs completed 3,569,025 CPU hrs used	25 NIH Institutes 332 Principal Investigators 719 users

Announcements

11 Jun 2025 : REMINDER: Virtual Walk-In Consult with HPC staff today (Wed 11 Jun)
10 Jun 2025 : The NIH Biowulf cluster and HPC systems are now available
9 Jun 2025 : Re: Emergency Shutdown and Restart
9 Jun 2025 : Emergency Shutdown and Restart
9 Jun 2025 : Emergency shutdown
9 Jun 2025 : TODAY: Biowulf Seminar Series: Reading and Editing the Tubulin Code, Jiayi Chen PhD, 11am
9 Jun 2025 : Virtual Walk-In Consult for Biowulf Users (Wed 11 Jun)
3 Jun 2025 : Biowulf Seminar Series: Reading and Editing the Tubulin Code, Jiayi Chen PhD, Monday June 9th, 11am
27 May 2025 : Reboots of Helix/Biowulf
14 May 2025 : REMINDER: Virtual Walk-In Consult with HPC staff today (Wed 14 May)
12 May 2025 : Virtual Walk-In Consult for Biowulf Users (Wed 14 May)
30 Apr 2025 : Reboots of Helix/Biowulf

Recent Papers that used Biowulf & HPC Resources

(All 6403 papers)

SECONDGRAM: Self-conditioned diffusion with gradient manipulation for longitudinal MRI imputation
Theodorou, B; Dadu, A; Nalls, M et al.
Patterns (N Y) , DOI://10.1016/j.patter.2025.101212 (2025)

MYCN and KAT2A form a feedforward loop to drive an oncogenic transcriptional program in neuroblastoma
Liu, Z; Hong, JJ; Zhang, X et al.
Oncogenesis , DOI://10.1038/s41389-025-00557-2 (2025)

White matter integrity and motor function: a link between cerebral myelination and longitudinal changes in gait speed in aging
Gong, Z; Faulkner, ME; Akhonda, MABS et al.
Geroscience , DOI://10.1007/s11357-024-01392-w (2025)

Late-onset GM2 gangliosidosis: magnetic resonance imaging, diffusion tensor imaging, and correlational fiber tractography differentiate Tay-Sachs and Sandhoff diseases
Lewis, CJ; Chipman, SI; Johnston, JM et al.
J Neurol , DOI://10.1007/s00415-025-13091-3 (2025)

Defining essential charged residues in fibril formation of a lysosomal derived N-terminal α-synuclein truncation
McGlinchey, RP; Ramos, S; Dimitriadis, EK et al.
Nat Commun , DOI://10.1038/s41467-025-58899-9 (2025)

A Super Enhancer-Derived Enhancer RNA Acts Together with CTCF/Cohesin in Trans to Regulate Erythropoiesis
Xie, B; Dean, A; ,
Genes (Basel) , DOI://10.3390/genes16040389 (2025)

A Case for Automated Segmentation of MRI Data in Neurodegenerative Diseases: Type II GM1 Gangliosidosis
Lewis, CJ; Johnston, JM; D'Souza, P et al.
NeuroSci , DOI://10.3390/neurosci6020031 (2025)

Structural dissection of ergosterol metabolism reveals a pathway optimized for membrane phase separation
Juarez-Contreras, I; Lopes, LJS; Holt, J et al.
Sci Adv , DOI://10.1126/sciadv.adu7190 (2025)