NIH HPC Systems

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.

Current Status

All Services Operational

COVID-19 Research Support

83.2+ Million CPU hours used
2.0+ Million jobs run

Sample projects (All projects):

Simulations of infection spread in populations [NIDDK]
Cryo-electron microscopy of virus proteins and complexes [NCI_CCR]
Metagenomics of Covid-19 family [NLM]
In silico screening of drug candidates [NCI]
Deep Learning models of chest Xray and CT images [CC]
Determining the incidence of age-related clonal hematopoiesis in mild vs. severe COVID-19 patient [NHLBI]
MD simulation of SARS-CoV-2 spike protein [NIAID_VRC]

Biowulf users with COVID-related projects should contact the HPC staff to get increased priority for their jobs.

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Biowulf Utilization

Thursday, May 19th, 2022

Last 24 hrs
128,826 jobs submitted 100,004 jobs completed 3,082,282 CPU hrs used	24 NIH Institutes 261 Principal Investigators 541 users

Announcements

(All)

18 May 2022 : REMINDER: Zoom-In Consult with HPC staff today (Wed 18 May)
16 May 2022 : Zoom-In Consult for Biowulf Users (Wed 18 May)
25 Apr 2022 : Reboots of Helix/Biowulf login node on Sunday May 1 at 8 pm
21 Apr 2022 : Nomachine/NX connection problems to Biowulf resolved
21 Apr 2022 : Nomachine/NX connection problems to Biowulf
11 Apr 2022 : Zoom-In Consult for Biowulf Users (Wed 13 Apr)
5 Apr 2022 : NIH Biowulf cluster and other HPC systems are now available

Recent Papers that used Biowulf & HPC Resources

(All publications)

Drugsniffer: An Open Source Workflow for Virtually Screening Billions of Molecules for Binding Affinity to Protein Targets
Venkatraman, V; Colligan, TH; Lesica, GT et al.
Front Pharmacol , DOI://10.3389/fphar.2022.874746 (2022)

A phenotypic signature that identifies neoantigen-reactive T cells in fresh human lung cancers
Hanada, KI; Zhao, C; Gil-Hoyos, R et al.
Cancer Cell , DOI://10.1016/j.ccell.2022.03.012 (2022)

The mechanism of activation of MEK1 by B-Raf and KSR1
Maloney, RC; Zhang, M; Liu, Y et al.
Cell Mol Life Sci , DOI://10.1007/s00018-022-04296-0 (2022)

Placental multi-omics integration identifies candidate functional genes for birthweight
Tekola-Ayele, F; Zeng, X; Chatterjee, S et al.
Nat Commun , DOI://10.1038/s41467-022-30007-1 (2022)

A semiparametric kernel independence test with application to mutational signatures
Lee, D; Zhu, B; ,
J Am Stat Assoc , DOI://10.1080/01621459.2020.1871357 (2021)

A T cell resilience model associated with response to immunotherapy in multiple tumor types
Zhang, Y; Trang, V; Palmer, DC et al.
Nat Med , DOI://10.1038/s41591-022-01799-y (2022)

Inactivation of axon guidance molecule netrin-1 in human colorectal cancer by an epigenetic mechanism
Nakayama, H; Ohnuki, H; Nakahara, M et al.
Biochem Biophys Res Commun , DOI://10.1016/j.bbrc.2022.04.069 (2022)

Neural Networks for Classification and Image Generation of Aging in Genetic Syndromes
Duong D; Hu P.; et al
Front Genet. , 10.3389/fgene.2022.864092 (2022)

BNT162b2 vaccination enhances interferon-JAK-STAT-regulated antiviral programs in COVID-19 patients infected with the SARS-CoV-2 Beta variant
Knabl, L; Lee, HK; Wieser, M et al.
Commun Med (Lond) , DOI://10.1038/s43856-022-00083-x (2022)

Evolutionary history and introduction of SARS-CoV-2 Alpha VOC/B.1.1.7 in Pakistan through international travelers
Nasir, A; Bukhari, AR; Trovão, NS et al.
Virus Evol , DOI://10.1093/ve/veac020 (2022)