sudo mount -t tmpfs -o size=30G tmpfs /mnt/ramdisk export GAUSS_SCRDIR=/mnt/ramdisk Warning: Compute-intensive jobs like CCSD(T) can exceed this. Monitor df -h /mnt/ramdisk live. Even seasoned users encounter errors unique to the Gaussian 16 Linux ecosystem. 1. "Cannot open shared object file: libcuda.so.1" Cause: Gaussian tries GPU acceleration but CUDA is missing. Fix: Disable GPU in input: %GPUCPU=0 or use %NoGPU . 2. Segmentation Fault (core dumped) Cause: Stack limit too low on Linux. Fix: Run ulimit -s unlimited before launching Gaussian. Add to your .bashrc . 3. Linda Workers Keep Disconnecting Cause: Firewall blocks ports or SSH key authentication fails. Fix: Ensure passwordless SSH between nodes and open dynamic ports (e.g., 60000-61000) in iptables . Advanced Scripting: Automating Gaussian 16 on Linux Linux excels at batch processing. Here is a bash script to run a series of single-point energies on all .gjf files in a folder:
Gaussian 16 remains the gold standard for electronic structure modeling. While the software runs on multiple platforms, its true power—scalability, speed, and flexibility—unfolds only on Linux . Whether you are a PhD student setting up your first calculation or a system administrator maintaining a high-performance computing (HPC) cluster, understanding the nuances of running Gaussian 16 on Linux is essential. gaussian 16 linux
#!/bin/bash export g16root=/opt/gaussian export GAUSS_SCRDIR=/scratch/gaussian source $g16root/g16/bsd/g16.profile export PATH=$PATH:$g16root/g16 Activate with source /etc/profile.d/gaussian.sh . Most beginners forget this. Gaussian 16 ships with source code for machine-specific binary compilation. sudo mount -t tmpfs -o size=30G tmpfs /mnt/ramdisk