| name | gaussian |
| description | Generate and manage Gaussian calculations. Use when the user requests Gaussian, G16, GJF files, or needs hybrid functionals (B3LYP), MP2, CCSD(T), or molecular quantum chemistry with Gaussian basis sets.
|
| compatibility | Requires a valid Gaussian license and installation on the HPC target. Gaussian is commercial software — never distribute binaries or bypass license checks.
|
Gaussian
When to Use
- User explicitly requests Gaussian, G16, G09
- User needs molecular quantum chemistry (not periodic solids — use VASP/QE for that)
- User wants hybrid functionals (B3LYP, PBE0, M06-2X) for molecules
- User needs post-HF methods: MP2, CCSD(T), CBS extrapolation
- User wants transition state search with QST2/QST3
- User requests GJF/COM input file generation
Prerequisites
- Gaussian (g16/g09) accessible on HPC with valid license
- Sufficient memory and scratch space (Gaussian is memory-intensive)
- Structure loaded in viewer — verify with
catgo_view(action="get_state")
Workflow Steps
1. Verify structure
catgo_view(action="get_state")
2. Create workflow
catgo_workflow_engine(action="create", params={"name": "Gaussian B3LYP opt+freq"})
3. Add Gaussian task via shell
CatGo does not yet have a native Gaussian engine. Use task_type: "shell".
catgo_workflow_engine(action="add_task", params={
"workflow_id": "wf_xxx",
"task_type": "shell",
"name": "g16_opt",
"command": "g16 < input.gjf > output.log 2>&1",
"input_files": {
"input.gjf": "<GJF content>"
},
"system_name": "caffeine_opt"
})
When a @register_engine("gaussian") is added, use task_type: "geo_opt" with software: "gaussian".
Input File Template — Optimization + Frequencies
%nproc=16
%mem=32GB
%chk=checkpoint.chk
# opt freq b3lyp/6-311+g(d,p) empiricaldispersion=gd3bj
scf=tight int=ultrafine
Title: Geometry optimization with frequency analysis
0 1
C 0.000000 0.000000 0.000000
H 0.000000 0.000000 1.089000
H 1.026719 0.000000 -0.363000
H -0.513360 -0.889165 -0.363000
H -0.513360 0.889165 -0.363000
Important: The blank line after coordinates is mandatory. A second blank line terminates the input.
Input File Structure
%nproc=<cores> # Link 0 commands (resources)
%mem=<memory>
%chk=<checkpoint_file>
# <method>/<basis> <keywords> # Route section
<title> # Title (free text)
<charge> <multiplicity> # Charge and spin
<element> <x> <y> <z> # Cartesian coordinates
# Blank line = end of molecule
Parameter Guidance
| Parameter | Typical value | Notes |
|---|
| Method | B3LYP, PBE0, M06-2X, wB97XD | Hybrid DFT for molecules |
| Basis | 6-31G(d), 6-311+G(d,p), def2-TZVP | Pople or Karlsruhe basis sets |
| %mem | 4-64 GB | Gaussian stores integrals in memory |
| %nproc | 8-32 | Shared-memory parallel |
| Dispersion | EmpiricalDispersion=GD3BJ | Add for non-covalent interactions |
| int | UltraFine | Integration grid; always use for DFT |
| scf | Tight | SCF convergence; XTight for frequencies |
Common Calculation Types
| Keyword | Purpose |
|---|
opt | Geometry optimization |
freq | Vibrational frequencies (must be at a stationary point) |
opt freq | Optimize then frequencies in one job |
opt=(ts,calcfc,noeigen) | Transition state search |
opt=(qst2) | TS search from reactant+product geometries |
irc=(calcfc,maxpoints=50) | Intrinsic reaction coordinate |
td=(nstates=10) | TD-DFT excited states |
nmr | NMR chemical shifts |
pop=nbo | Natural bond orbital analysis |
Solvent Effects
Add implicit solvation:
# opt freq b3lyp/6-311+g(d,p) scrf=(smd,solvent=water)
Common Pitfalls
- Missing blank lines — Gaussian input requires blank lines between sections and after coordinates. Missing them causes cryptic errors.
- Wrong multiplicity — open-shell systems need correct spin (2S+1). Doublet radicals: multiplicity=2.
- %mem too low — Gaussian crashes with "galloc: could not allocate memory". Set %mem to ~80% of available RAM.
- Basis set not available — not all basis sets cover all elements. Heavy elements need ECP (e.g., LANL2DZ).
- Frequencies at non-stationary point —
freq requires a fully optimized geometry. Run opt freq together.
- License restrictions — never share Gaussian binaries. Ensure the HPC has a valid site license.
- Checkpoint file not saved — always use
%chk for restart capability and property extraction
- Forgetting dispersion — B3LYP without GD3/GD3BJ underestimates non-covalent interactions