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.
g16 -p=8 test.com test.log Flag explanation: -p=8 uses 8 cores on the local machine. Most universities run Gaussian 16 Linux on SLURM clusters. Here is an optimal SLURM script: gaussian 16 linux
# Reduce swapping echo 10 > /proc/sys/vm/swappiness # Use 'none' or 'noop' scheduler for NVMe scratch disks echo noop > /sys/block/nvme0n1/queue/scheduler If you have abundant RAM, put GAUSS_SCRDIR in RAM: Gaussian 16 remains the gold standard for electronic
sudo apt update && sudo apt install libc6 libstdc++6 libopenmpi-dev openmpi-bin For RHEL/Fedora: g16 -p=8 test