Part I: The OpenMM Application LayerΒΆ
- 2. Getting Started
- 3. Running Simulations
- 3.1. A First Example
- 3.2. Using AMBER Files
- 3.3. Using Gromacs Files
- 3.4. Using CHARMM Files
- 3.5. The OpenMM-Setup Application
- 3.6. Simulation Parameters
- 3.6.1. Platforms
- 3.6.2. Force Fields
- 3.6.3. Small molecule parameters
- 3.6.4. AMBER Implicit Solvent
- 3.6.5. Nonbonded Interactions
- 3.6.6. Constraints
- 3.6.7. Heavy Hydrogens
- 3.6.8. Integrators
- 3.6.9. Temperature Coupling
- 3.6.10. Pressure Coupling
- 3.6.11. Energy Minimization
- 3.6.12. Removing Center of Mass Motion
- 3.6.13. Writing Trajectories
- 3.6.14. Recording Other Data
- 3.6.15. Saving Simulation Progress and Results
- 3.6.16. Enhanced Sampling Methods
- 4. Model Building and Editing
- 5. Advanced Simulation Examples
- 6. Creating Force Fields
- 6.1. Basic Concepts
- 6.2. Writing the XML File
- 6.2.1. <AtomTypes>
- 6.2.2. <Residues>
- 6.2.3. <Patches>
- 6.2.4. Missing residue templates
- 6.2.5. <HarmonicBondForce>
- 6.2.6. <HarmonicAngleForce>
- 6.2.7. <PeriodicTorsionForce>
- 6.2.8. <RBTorsionForce>
- 6.2.9. <CMAPTorsionForce>
- 6.2.10. <NonbondedForce>
- 6.2.11. <GBSAOBCForce>
- 6.2.12. <CustomBondForce>
- 6.2.13. <CustomAngleForce>
- 6.2.14. <CustomTorsionForce>
- 6.2.15. <CustomNonbondedForce>
- 6.2.16. <CustomGBForce>
- 6.2.17. <CustomHbondForce>
- 6.2.18. <CustomManyParticleForce>
- 6.2.19. Writing Custom Expressions
- 6.2.20. Tabulated Functions
- 6.2.21. Residue Template Parameters
- 6.2.22. Including Other Files
- 6.3. Using Multiple Files
- 6.4. Extending ForceField
