NAMD, recipient of a 2002 Gordon Bell Award, is a parallel molecular dynamics code designed for high-performance simulation of large biomolecular systems. Based on Charm++ parallel objects, NAMD scales to hundreds of processors on high-end parallel platforms and tens of processors on commodity clusters using gigabit ethernet. NAMD uses the popular molecular graphics program VMD for simulation setup and trajectory analysis, but is also file-compatible with AMBER, CHARMM, and X-PLOR. NAMD is distributed free of charge with source code. You can build NAMD yourself or download binaries for a wide variety of platforms. Our tutorials show you how to use NAMD and VMD for biomolecular modeling.
NAMD reference paper: Scalable molecular dynamics with NAMD.
Spotlight: Passport for the Cell's Nucleus (Aug 2007)
The cells of higher organisms store their genetic material, the genome, in the so-called nucleus where they organize transcription of DNA into messenger-RNA, the blueprint for proteins. The messenger-RNA leaves the cell to be decoded by ribosomes that synthesize the respective proteins. Transcription factors, also proteins, control in the nucleus which parts of the cells' genomes are transcribed. Naturally, the access to the nucleus as well as exit from it must be restricted to transcription factors and related biomolecules. This is achieved by the nuclear pores, wide channels lined with brushes of polymers. The polymers are disordered proteins and prevent passage for most cellular proteins, except for so-called transport factors which bus transcription factors, messenger RNA, and certain larger biomolecule into and out of the nucleus. How transport factors are permitted to pass the nuclear pores, despite many studies, has been largely unknown. Molecular dynamics simulations, based on relevant crystallographic structures, using NAMD provided a comprehensive picture on the passage mechanism as reported recently. The simulations, analyzed with VMD, revealed that transport factors are dotted rather regularly on their surface with spots that bind to the brushes of nuclear pore proteins. While any protein may accidentally exhibit such a binding spot or two, only transport factors offer a regular pattern of such spots on their surface that apparently is their passport permitting them movement into and out of the nucleus, i.e., helping them to glide through the pores' protein brushes. More on simulations of transport factors can be found here.
Overview
Why NAMD? (in pictures)
Steered Molecular Dynamics
Interactive Molecular Dynamics
Features and Capabilities
Performance Benchmarks
Publications and
Citations
Credits and Development Team
Availability
Read the License
Download NAMD Binaries
(also VMD)
Build from Source Code
Run at NCSA, SDSC, PSC, Indiana, or Texas
NAMD in Scienomics Software
Training
Charm++ Workshop (May 1-3, 2008)
Cluster-Building Workshop (11/30-12/1, 2006)
Cluster-Building Workshops (3/16-17 & 4/20-21, 2006)
Frankfurt Hands-On Workshop (March 20-23, 2006)
Cluster-Building Workshops (9/22-23 & 11/10-11, 2005)
Older Workshops
Support
Contact the DevelopersAnnouncements
NAMD 2.6 (August 2006)
2005 User Survey Report
NAMD 2.5 (Sept. 2003)
NAMD 2.4 (Mar. 2002)
How to Cite NAMD
Previous Announcements
Documentation
Adaptive Biasing Force Website
Adaptive Biasing Force Calculations
Alchemical Free Energy Perturbation
Interactive Molecular Dynamics Tutorial
Related Codes, Scripts, and Examples
NAMD Wiki (Recent Changes)
Older Documentation
News
GPU Acceleration in Development
NCSA IACAT to Accelerate NAMD
Buckyball Bowling in Reno
TCBG Software at SC07
Parkinson's, Alzheimer's Diseases
Knock, Knock, Who's There?
Step Up to the BAR Domain
Protein Wranglers
Virus Simulated on SGI Altix
NAMD-G Paper Available
Managing Workflow with NAMD-G
Enzyme Antics
All in Your Brain
SPICE Wins HPC Analytics Challenge
Understanding the Protein Lock
Mechanosensitive Ion Channels
NAMD Wins Gordon Bell Award
Older News Items