Jaguar

[Bill Glauser <billg # - at - # schrodinger.com>]

 Dear Gavin,
 There are many Jaguar users that have observed similar results to those
 contained in the J. Phys. Chem. review article that you cited. I'm sure that
 you will hear from some of them in response to your posting.
 When I first read the article myself, I was struck by the fact that you
 could apply fairly high level calculations to relatively large systems (by
 ab initio standards) to obtain accurate results in areas such as relative
 conformational energies and thermochemistry.
 The relevant methods that bring this about are fast-atom-multipoles for
 gradient-corrected DFT, pseudospectrally-enhanced evaluation of the exchange
 and coulomb matrix elements for hybrid DFT (e.g., B3LYP), and a combination
 of local correlation and pseudospectral integration for MP2 and
 multireference MP2 (this is explained in the review article).
 Although your mileage may vary depending upon specifics of a given job,
 Jaguar's relative speed advantages generally increase with the size of the
 system and density of basis functions. As such, Jaguar's niche seems to be
 to provide accurate results for chemically realistic systems in reasonable
 time.
 More information is available on our web site http://www.schrodinger.com
 or
 by contacting info # - at - # schrodinger.com.
 Best regards,
 Bill
 ----
 > Gavin Tsai wrote:
 >
 > Hi, Everyone:
 >
 >     I just read this paper " Correlated ab initio electronic structure
 > calculations for large molecule" JPC A V103,1913, 1999.  The paper
 shows the
 > Jaguar program is about 10 times faster than G92. Can anyone share me the
 > performance of this program?
 >
 > Any comment is welcomed!
 > Thanks!
 >
 > Gavin Tsai
 ----
 William A. Glauser / Schrodinger, Inc. / 800-207-7482 / 610-869-0578
 610-869-0577 (fax) / billg # - at - # schrodinger.com / http://www.schrodinger.com