#!/bin/bash #SBATCH -o ../watch_folder/%x_%j.out # output file (%j expands to jobID) #SBATCH -N 1 # Total number of nodes requested #SBATCH --get-user-env # retrieve the users login environment #SBATCH --mem=32000 # server memory requested (per node) #SBATCH -t 960:00:00 # Time limit (hh:mm:ss) #SBATCH --constraint="[a100|a6000|a5000|3090]" #SBATCH --ntasks-per-node=4 #SBATCH --gres=gpu:4 # Type/number of GPUs needed #SBATCH --open-mode=append # Do not overwrite logs #SBATCH --requeue # Requeue upon preemption < sbatch \ --export=ALL,MODEL=${MODEL} \ --job-name=train_qm9_no-guidance_${MODEL} \ train_qm9_no-guidance.sh comment # Setup environment cd ../ || exit # Go to the root directory of the repo source setup_env.sh export NCCL_P2P_LEVEL=NVL export HYDRA_FULL_ERROR=1 # Expecting: # - MODEL (ar, mdlm, udlm) # - USE_SIMPLE_CE_LOSS (True, False; optional, default: False) if [ -z "${MODEL}" ]; then echo "MODEL is not set" exit 1 fi if [ -z "${USE_SIMPLE_CE_LOSS}" ]; then USE_SIMPLE_CE_LOSS=False fi RUN_NAME="${MODEL}_no-guidance" if [ "${USE_SIMPLE_CE_LOSS}" = "True" ]; then RUN_NAME="${RUN_NAME}_simple-ce" fi if [ "${MODEL}" = "ar" ]; then # AR DIFFUSION="absorbing_state" PARAMETERIZATION="ar" T=0 TIME_COND=False ZERO_RECON_LOSS=False elif [ "${MODEL}" = "mdlm" ]; then # MDLM DIFFUSION="absorbing_state" PARAMETERIZATION="subs" T=0 TIME_COND=False ZERO_RECON_LOSS=False elif [ "${MODEL}" = "udlm" ]; then # UDLM DIFFUSION="uniform" PARAMETERIZATION="d3pm" T=0 TIME_COND=True ZERO_RECON_LOSS=True else echo "MODEL must be one of ar, mdlm, udlm" exit 1 fi # To enable preemption re-loading, set `hydra.run.dir` or # `checkpointing.save_dir` explicitly. srun python -u -m main \ diffusion="${DIFFUSION}" \ parameterization="${PARAMETERIZATION}" \ T=${T} \ time_conditioning=${TIME_COND} \ zero_recon_loss=${ZERO_RECON_LOSS} \ data=qm9 \ data.label_col=null \ data.label_col_pctile=null \ data.num_classes=null \ eval.generate_samples=False \ loader.global_batch_size=2048 \ loader.eval_global_batch_size=4096 \ backbone="dit" \ model=small \ model.length=32 \ optim.lr=3e-4 \ lr_scheduler=cosine_decay_warmup \ lr_scheduler.warmup_t=1000 \ lr_scheduler.lr_min=3e-6 \ training.guidance=null \ callbacks.checkpoint_every_n_steps.every_n_train_steps=5_000 \ training.compute_loss_on_pad_tokens=True \ training.use_simple_ce_loss=${USE_SIMPLE_CE_LOSS} \ trainer.max_steps=25_000 \ trainer.val_check_interval=1.0 \ wandb.name="qm9_${RUN_NAME}" \ hydra.run.dir="${PWD}/outputs/qm9/${RUN_NAME}"