NAMD, recipient of a 2002 Gordon Bell Award and a 2012 Sidney Fernbach 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 cores for typical simulations and beyond 500,000 cores for the largest simulations. 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.

The 2005 reference paper Scalable molecular dynamics with NAMD has over 6,000 citations as of October 2016.

Wit, grit and a supercomputer yield chemical structure of HIV capsid (article referring to NAMD simulations on Blue Waters reported in Zhao et al., Nature, 497:643-646, 2013.)

Rapid parameterization of small molecules using the force field toolkit, JCC, 2013.

HPCwire Editors' Choice Award: Best use of HPC in life sciences

NAMD Powers Molecules by Theodore Gray App for iPhone and iPad

Multilevel Summation Method for Electrostatic Force Evaluation, JCTC, 2014.

QwikMD - integrative molecular dynamics toolkit for novices and experts, Scientific Reports, 2016.

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Other Spotlights 

Spotlight: Anatomy of a dormant killer (August 2015)

Lung surfactant protein, an influenza virus inhibitor

image size: 2.6MB
made with VMD

Retroviruses are parasites that pose a major health threat to humans (for example in case of HIV) and other animals (for example in case of RSV, M-PMV, MLV, and many more viruses). After a retrovirus hijacks a cell, the infected cell produces multiple copies of the virus which are then released into the host's bloodstream. These newly released viruses must mature before they can infect other cells. A strategy for preventing virus spread is therefore, to lock the viral particles in their immature, non-infectious state. However, to render the immature virus an attractive target for structure-based drug development one needs to know its chemical structure. Unfortunately, the complexity and size of the viral particle ― an incomplete hexagonal shell with a size close to 100 nm ― have prevented the experimental determination of the chemical, namely atomic level, structure of the virus. As reported recently, a team of computational and experimental researchers have provided an atomic structure of the immature retroviral lattice for the Rous Sarcoma Virus. The multi-domain RSV model was derived through a combination of state-of-the-art modeling techniques, including, cryo-EM-guided homology modeling, large-scale molecular dynamics simulations using enhanced sampling capabilities available in NAMD, together with experimental measurements such as X-ray crystallography and a wealth of biochemical data. Particularly, the model reveals novel features of the packing and dynamics of the immature capsid protein with implications for the maturation process and confirms the stabilizing roles of the so-called upstream and downstream domains of the immature RSV. More information is available on our retrovirus website, and in a highlight video.

Overview

Having Problems with NAMD?
Why NAMD? (in pictures)
Molecular Dynamics Flexible Fitting
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 - Git access now available
Run at NCSA, SDSC, NICS, or Texas

Training

"Hands-On" Workshop in Pittsburgh (May 30-June 2, 2017)
NAMD Developer Workshop in Chicago (May 22-23, 2017)
Charm++ Workshop in Urbana (April 17-19, 2017)
"Hands-On" Workshop in Urbana (April 17-21, 2017)
PRACE School on HPC for Life Sciences (April 10-13, 2017)
"Hands-On" Workshop in San Francisco (Dec 12-16, 2016)
"Hands-On" Workshop in Atlanta (Nov 14-18, 2016)
"Hands-On" Workshop in Urbana (Oct 17-21, 2016)
"Hands-On" Workshop in Jülich (Aug 15-19, 2016)
"Hands-On" Workshop in Pittsburgh (June 6-10, 2016)
NAMD Developer Workshop in Chicago (May 26-27, 2016)
Charm++ Workshop in Urbana (April 19-20, 2016)
Older "Hands-On" Workshops

Support

Having Problems with NAMD?

NAMD Wiki (Recent Changes)
  
NAMD-L Mailing List (Archive)
  
Tutorial-L Mailing List (Archive)
  

Mailing List Issues for Yahoo.com Addresses

Announcements

NAMD 2.13 New Features
One-click NAMD/VMD in the cloud
QM/MM Interface to MOPAC and ORCA
QwikMD GUI Released in VMD 1.9.3
NAMD 2.12 New Features
NAMD 2.12 (Dec 2016)
2016 User Survey Report
NAMD 2.11 New Features
NAMD 2.11 (Dec 2015)
NAMD 2.10 New Features
NAMD 2.10 (Dec 2014)
NAMD 2.9 New Features
NAMD 2.9 (April 2012)
2011 User Survey Report
NAMD 2.8 New Features
NAMD 2.8 (May 2011)
NAMD 2.7 New Features
NAMD 2.7 (Oct 2010)
How to Cite NAMD
Previous Announcements

Documentation

NAMD 2.12 User's Guide
   
  (also 773k HTML or 1.1M PDF)
NAMD 2.12 Release Notes
Running Charm++ Programs (including NAMD)
Running GPU-Accelerated NAMD (from NVIDIA)
Post-Release Updates on NAMD Wiki
Introductory NAMD Tutorials
Introductory VMD Tutorials
Free Energy Tutorials
Specialized Topic Tutorials
Bionanotechnology Tutorials
All NAMD & VMD Tutorials
  

Adaptive Biasing Force Website
Interactive Molecular Dynamics Tutorial
Related Codes, Scripts, and Examples
NAMD Wiki (Recent Changes)
Older Documentation

News

Assembling Life's Molecular Motor
Roux Early Science Project on ANL Aurora
Membrane Channel Made of DNA Origami
NAMD Paper Has 6000 Citations
Antibiotic Resistance Through Efflux Pumps
Membrane Protein Breakthrough
Massive Flu Virus Simulations
Ion Channels in General Anesthesia
How HIV Defeats Cellular Defender
Key Component in Bacterial Decisions
TCBG Papers and Presentations at SC15
Charm++-Related Events at SC15
TCBG Reaches Milestone 40th Workshop
NAMD Paper Has 5000 Citations
Transport Cycle in Atomic Detail
Atomic Model of Immature Retrovirus
ANL Supercomputer Early Science Program
Cellulosomes: One of Life's Strongest Bonds
ORNL Supercomputer Readiness Program
Solving Puzzle-Like Bond for Biofuels
Real Science Using Stampede's Xeon Phi
App Puts Chemistry at the Tips of Users' Fingers
NAMD Powers Molecules by Theodore Gray
Big Ten Network "Computing a Virus" Feature
NAMD Paper Has 4000 Citations
Bolstering Extreme Scale Computational Biology
CUDA Achievment Award for Fighting HIV
Team learns how membrane transporter moves
Extreme Computational Biology at SC13
Editors' Choice: Best use of HPC in life sciences
Rapid parameterization of small molecules
NAMD Paper Has 3000 Citations
Code cracks HIV capsid, opens drug possibilities
HIV-1 Capsid Structure Determined
Poliovirus Simulated on BlueGene/Q
Virus Structure Determined with Blue Waters
Fashioning NAMD: A History of Risk and Reward
Kale, Schulten Receive Fernback Award
Making History on Blue Waters
Proteins Help DNA Replicate Past Damage
SC11: Scaling to 100 Million Atoms
Copper Folds Parkinson's Plaques
Mechanics of Membrane Proteins
Molecular Mystery of Blood Clotting
Alzheimer's Misfolding Simulated
When Cellular Bones Soften
Getting the Rabbit in the Hat
Insights Into Deafness
Molecular Machines Replicate and Repair DNA
Sound Science
Blueprint for the Affordable Genome
Mechanics of Hearing and Deafness
NAMD Paper Has 1000 Citations
Closing the Gaps
Inside the Swine Flu Virus
Older News Items