The triatomics in molecules (TRIM) local correlation approximation to MP2
theory
694
J. Chem. Phys.
(2000),
112,
pp. 3592.
Link
was described in detail in Section 6.5.1, which
also discussed our implementation of this approach based on conventional
four-center two-electron integrals. Starting from Q-Chem v. 3.0, an auxiliary
basis implementation of the TRIM model is available.
The new RI-TRIM MP2 energy algorithm
287
J. Chem. Theory Comput.
(2005),
1,
pp. 862.
Link
greatly accelerates these local correlation calculations
(often by an order of magnitude or more for the correlation part), which scale
with the 4th power of molecule size. The electron correlation part of
the calculation is speeded up over normal RI-MP2 by a factor proportional to
the number of atoms in the molecule. For a hexadecapeptide, for instance, the
speedup is approximately a factor of 4.
287
J. Chem. Theory Comput.
(2005),
1,
pp. 862.
Link
The TRIM model
can also be applied to the scaled opposite spin models discussed above. As for
the other RI-based models discussed in this section, we recommend using
RI-TRIM MP2 instead of the conventional TRIM MP2 code whenever run-time of the
job is a significant issue. As for RI-MP2 itself, TRIM MP2 is invoked by
adding AUX_BASIS $rems to the input deck,
in addition to requesting CORRELATION = RILMP2.
$molecule 0 3 C1 H1 C1 1.07726 H2 C1 1.07726 H1 131.60824 $end $rem METHOD rilmp2 BASIS cc-pVDZ AUX_BASIS rimp2-cc-pVDZ PURECART 1111 UNRESTRICTED true SYMMETRY false $end