Jaguar

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Jaguar
Developer(s)Schrödinger Inc.
Operating systemLinux, Microsoft Windows, Mac OS X
TypeComputational Chemistry
LicenseCommercial
Websitehttps://www.schrodinger.com/jaguar

Jaguar is a computer software package used for ab initio quantum chemistry calculations for both gas and solution phases.[1] It is commercial software marketed by the company Schrödinger. The program was originated in research groups of Richard Friesner and William Goddard and was initially called PS-GVB (referring to the so-called pseudospectral generalized valence bond method that the program featured).

Jaguar is a component of two other Schrödinger products: Maestro, which provides the graphical user interface to Jaguar, and a QM/MM program QSite, which uses Jaguar as its quantum-chemical engine. The current version is Jaguar 10.4 (2020).

Features

A distinctive feature of Jaguar is its use of the pseudospectral approximation.[2] This approximation can be applied to computationally expensive integral operations present in most quantum chemical calculations. As a result, calculations are faster with little loss in accuracy.[3][4][5]

The current version includes the following functionality:

See also

  • Quantum chemistry computer programs

References

  1. Young, David (2001). "Appendix A. A.2.5 Jaguar". Computational Chemistry. Wiley-Interscience. pp. 337. 
  2. Orszag, Steven A. (September 1972). "Comparison of Pseudospectral and Spectral Approximation". Studies in Applied Mathematics 51 (3): 253–259. doi:10.1002/sapm1972513253. 
  3. Friesner, R A (October 1991). "New Methods For Electronic Structure Calculations on Large Molecules". Annual Review of Physical Chemistry 42 (1): 341–367. doi:10.1146/annurev.pc.42.100191.002013. PMID 1747190. Bibcode1991ARPC...42..341F. 
  4. Friesner, Richard A.; Murphy, Robert B.; Beachy, Michael D.; Ringnalda, Murco N.; Pollard, W. Thomas; Dunietz, Barry D.; Cao, Yixiang (April 1999). "Correlated ab Initio Electronic Structure Calculations for Large Molecules". The Journal of Physical Chemistry A 103 (13): 1913–1928. doi:10.1021/jp9825157. Bibcode1999JPCA..103.1913F. 
  5. Lado, F.; Lomba, E.; Lombardero, M. (1995). "Integral equation algorithm for fluids of fully anisotropic molecules". The Journal of Chemical Physics 103 (1): 481. doi:10.1063/1.469615. Bibcode1995JChPh.103..481L. http://repository.lib.ncsu.edu/bitstream/1840.2/497/1/lado_1995_journal_chemical_physics_481.pdf. 

External links





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