The Hessian biased singular value decomposition method for optimization and analysis of force fields
Abstract
We present methodology (HBFF/SVD) for optimizing the form and parameters of force fields (FF) for molecular dynamics simulations through utilizing information about properties such as the geometry, Hessian, polarizability, stress (crystals), and elastic constants (crystals). This method is based on singular value decomposition (SVD) of the Jacobian describing the partial derivatives in various properties with respect to FF parameters. HBFF/SVD is effective for optimizing the parameters for accurate FFs of organic, inorganic, and transition metal compounds. In addition it provides information on the validity of the functional form of the FF for describing the properties of interest. This method is illustrated by application to organic molecules (CH2O, C2H4, C4H6, C6H8, C6H6, and naphthalene) and inorganic molecules (Cl2CrO2 and Cl2MoO2).
Additional Information
© 1996 American Institute of Physics. (Received 1 July 1993; accepted 14 November 1995) We thank Asahi Chemical for allowing one of the coauthors (T.E.Y.) to have an extended stay at the MSC. This work was supported by DOE-BCTR. The facilities of the MSC are supported by grants from NSF-GCAG (ACS-92-17368), NSF-Chemistry (94-13930), Allied-Signal, Asahi Chemical, Asahi Glass, BP Chemical, Chevron Petroleum Technology, BF Goodrich, Xerox, and Beckman Institute.Attached Files
Published - DASjcp96.pdf
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Additional details
- Eprint ID
- 3365
- Resolver ID
- CaltechAUTHORS:DASjcp96
- Department of Energy (DOE)
- ACS-9217368
- NSF
- CHE-941393
- NSF
- Allied Signal
- Asahi Chemical
- Asahi Glass
- BP Chemical
- Chevron Petroleum Technology Co.
- BF Goodrich
- Xerox
- Caltech Beckman Institute
- Created
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2006-06-01Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field