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Extending and Modifying LAMMPS Writing Your Own Source Code

You're reading from   Extending and Modifying LAMMPS Writing Your Own Source Code A pragmatic guide to extending LAMMPS as per custom simulation requirements

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Product type Paperback
Published in Feb 2021
Publisher Packt
ISBN-13 9781800562264
Length 394 pages
Edition 1st Edition
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Authors (2):
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Jichen Li Jichen Li
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Jichen Li
Dr. Shafat Mubin Dr. Shafat Mubin
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Dr. Shafat Mubin
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Table of Contents (21) Chapters Close

Preface 1. Section 1: Getting Started with LAMMPS
2. Chapter 1: MD Theory and Simulation Practices FREE CHAPTER 3. Chapter 2: LAMMPS Syntax and Source Code Hierarchy 4. Section 2: Understanding the Source Code Structure
5. Chapter 3: Source Code Structure and Stages of Execution 6. Chapter 4: Accessing Information by Variables, Arrays, and Methods 7. Chapter 5: Understanding Pair Styles 8. Chapter 6: Understanding Computes 9. Chapter 7: Understanding Fixes 10. Chapter 8: Exploring Supporting Classes 11. Section 3: Modifying the Source Code
12. Chapter 9: Modifying Pair Potentials 13. Chapter 10: Modifying Force Applications 14. Chapter 11: Modifying Thermostats 15. Assessments 16. Other Books You May Enjoy Appendix A: Building LAMMPS with CMake 1. Appendix B: Debugging Programs 2. Appendix C: Getting Familiar with MPI 3. Appendix D: Compatibility with Version 29Oct20

Reviewing the compute heat flux class

In this section, we will study the source code for the compute heat flux class, which is contained in compute_heat_flux.cpp and compute_heat_flux.h.

The compute heat flux class accepts the per-atom kinetic energy, per-atom potential energy, and per-atom stress to calculate the heat flow (J). This can be calculated as follows:

In this equation, represents the sum of kinetic and potential energies of atom i, represents the velocity vector of atom i, represents the stress tensor of atom i, and V represents the volume occupied by the atoms in consideration. The summation of is the convective part of the heat flux, while the summation of is the virial part of the heat flux.

Therefore, this compute needs to read the kinetic energy, potential energy, and stress of atoms dynamically, and this is facilitated by feeding these quantities as other computes. So, effectively, compute heat flux accepts three other computes as input parameters...

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