Defining a Method Alias¶
Note
No recompile of the PSI4 program is necessary for changes made to
files in $PSIDATADIR
aka psi4/psi4/share/psi4, including those described below.
Caution
As of 1.0, the below, while essentially still correct, is so aged as to be difficult to follow.
Since quantum chemical methods in PSI4 are accessed through Python functions, and most important quantities are available as PSI variables, it is straightforward to create aliases to commonly run calculations or to define hybrid methods. The psi4/psi4/driver/aliases.py file is intended for editing by the user for this purpose.
As an example, the MP2.5 method (which admittedly is already built in to PSI4) is the average of MP2 and MP3. The latter is available through the arbitrary order MPn code and returns all lower energies along with it in PSI variables. The following is basic code that will compute and return the MP2.5 energy.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | def run_mp2_5(name, **kwargs):
energy('mp3', **kwargs)
e_scf = psi4.get_variable('SCF TOTAL ENERGY')
ce_mp2 = psi4.get_variable('MP2 CORRELATION ENERGY')
ce_mp3 = psi4.get_variable('MP3 CORRELATION ENERGY')
ce_mp25 = 0.5 * (ce_mp2 + ce_mp3)
e_mp25 = e_scf + ce_mp25
print """ MP2.5 total energy: %16.8f\n""" % (e_mp25)
print """ MP2.5 correlation energy: %16.8f\n""" % (ce_mp25)
return e_mp25
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Compare the above to the method that resides in psi4/psi4/driver/aliases.py. The rationale for the changes is indicated in the comments below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 | def run_mp2_5(name, **kwargs):
lowername = name.lower() # handy variable with name keyword in lowercase
kwargs = kwargs_lower(kwargs) # removes case sensitivity in keyword names
# Run detci calculation and collect conventional quantities
energy('mp3', **kwargs)
e_scf = psi4.get_variable('SCF TOTAL ENERGY')
ce_mp2 = psi4.get_variable('MP2 CORRELATION ENERGY')
ce_mp3 = psi4.get_variable('MP3 CORRELATION ENERGY')
e_mp2 = e_scf + ce_mp2 # reform mp2 and mp3 total energies for printing
e_mp3 = e_scf + ce_mp3
# Compute quantities particular to MP2.5
ce_mp25 = 0.5 * (ce_mp2 + ce_mp3)
e_mp25 = e_scf + ce_mp25
psi4.set_variable('MP2.5 CORRELATION ENERGY', ce_mp25) # add new method's important results
psi4.set_variable('MP2.5 TOTAL ENERGY', e_mp25) # to PSI variable repository
psi4.set_variable('CURRENT CORRELATION ENERGY', ce_mp25)
psi4.set_variable('CURRENT ENERGY', e_mp25) # geometry optimizer tracks this variable, permits
# MP2.5 finite difference optimizations
# build string of title banner and print results
banners = ''
banners += """psi4.print_out('\\n')\n"""
banners += """banner(' MP2.5 ')\n"""
banners += """psi4.print_out('\\n')\n\n"""
exec banners
tables = ''
tables += """ SCF total energy: %16.8f\n""" % (e_scf)
tables += """ MP2 total energy: %16.8f\n""" % (e_mp2)
tables += """ MP2.5 total energy: %16.8f\n""" % (e_mp25)
tables += """ MP3 total energy: %16.8f\n\n""" % (e_mp3)
tables += """ MP2 correlation energy: %16.8f\n""" % (ce_mp2)
tables += """ MP2.5 correlation energy: %16.8f\n""" % (ce_mp25)
tables += """ MP3 correlation energy: %16.8f\n""" % (ce_mp3)
psi4.print_out(tables) # prints nice header and table of all involved quantities to output file
return e_mp25
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One final step is necessary. At the end of the aliases.py
file, add
the following line.
1 | procedures['energy']['mp2.5'] = run_mp2_5
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This permits the newly defined MP2.5 method to be called in the input file with the following command.
1 | energy('mp2.5')
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