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Tune image classifier using Ray Tune + SkyPilot

Project description

krunic

tests License

Automated hyperparameter search for image classifiers - from dataset to tuned model with one command. Distributed across GPUs and across hosts, locally and on the cloud (AWS).

krunic uses off-the-shelf models and packages, so you won't get SOTA performance. But it can get surprisingly close, with almost zero effort. Useful as a baseline, or experimentation with architectures, GPUs etc.

Built on Ray Tune, Optuna, timm, and SkyPilot. NOTE: Requires Python ≥ 3.12. Ubuntu 22.04 users need to install it via deadsnakes or upgrade their OS.

Install (Mac and Linux)

$ pipx install krunic

This installs three commands: tunic (local training), krunic (cloud launcher), and tunic-plotter (results visualizer). The installation takes a couple of minutes.

Install (Windows)

Note: 1. This is untested because I don't have Windows access. But I'm guessing it should work. 2. The SkyPilot support for Windows is poor. Thus, only the tunic (local classifier tuning) should work

winget install Python.Python.3   # if Python not already installed
py -m pip install --user pipx
py -m pipx ensurepath            # restart terminal after this
pipx install krunic

Quick start

Local:

$ tunic --data /path/to/dataset --model resnet50 --n_trials 30 --epochs 30 --output results.json

Cloud (AWS):

This requires, obviously, an AWS account. The image data must be copied to S3 prior to the run, for example like this:

$ aws s3 sync ~/image_data/tin s3://image.data/tin
$ krunic \
  --cluster skya \
  --s3-path my-dataset \
  --model resnet50 \
  --accelerator T4:4 \
  --num-nodes 4 \
  --n-trials 48 \
  --n-epochs 50 \
  --prefix kaws

SkyPilot creates the cluster, Ray distributes the load across the GPUs. In my experiments, it achieves very good GPU utilization:

Description

Upon completion, get the best model hyperparameters:

$ aws s3 cp s3://image.data/ray-results/tin6/kaws_results.json .

Plot metric per trial:

$ tunic-plotter kaws_results.json

Description

Remember to take down the cluster after downloading the results.

$ yes | sky down skya

Train final model from tuning results (locally):

$ tunic --final kaws_results.json --data /path/to/dataset --epochs 50 --amp

Results on common benchmarks

Dataset Model Metric Validation Test SOTA
PCam ResNet18 AUROC 0.96 0.96 0.96
TinyImageNet ViT-Small Accuracy 0.87 0.91
ChestMNIST ResNet18 AUROC 0.75 0.75 0.77
TissueMNIST ResNet18 AUROC 0.92 0.94 0.93

All runs use generic off-the-shelf models with no domain-specific modifications.

Search space

Parameter Range
Optimizer AdamW, SGD
Learning rate 1e-5 – 1e-1 (log)
Weight decay 1e-6 – 1e-1 (log)
Label smoothing 0 – 0.3
Dropout rate 0 – 0.5
RandAugment magnitude 1 – 15
RandAugment num ops 1 – 4
Mixup alpha 0 – 0.5
CutMix alpha 0 – 1.0

Override any part with a YAML file via --search-space.

tunic - local hyperparameter search

tunic --data PATH --model MODEL [options]
Flag Default Description
--data required Dataset root (ImageFolder or WebDataset)
--model required Any timm model name
--n_trials 80 Number of Optuna trials
--epochs 30 Training epochs per trial (also used for --final)
--tune-metric val_auroc Metric for trial selection and pruning
--training_fraction 1.0 Fraction of training data (val always uses 1.0)
--batch-size 32 Batch size per trial
--amp Enable automatic mixed precision
--resume Warm-start from a previous experiment directory
--final Skip tuning; train final model from results JSON
--combine Train final model on train+val combined
--final-model tunic_final.pt Output path for final model weights
--final-stats Output path for final model stats (JSON)
--device auto auto, cuda, mps, or cpu
--smoke-test Quick end-to-end test with synthetic data

krunic - cloud launcher

krunic generates a SkyPilot YAML and launches the job. The dataset is S3-mounted (or copied); results are uploaded to S3 when the job completes.

Prerequisites

1. AWS credentials

aws configure

Prompts for your Access Key ID, Secret Access Key, and region (e.g. us-east-1). Your IAM user needs EC2 and S3 permissions. SkyPilot uses these credentials directly - no separate SkyPilot account or configuration needed.

2. Verify SkyPilot sees AWS

sky check

Should show AWS: enabled.

3. Dataset in S3

aws s3 sync ~/image_data/my-dataset s3://my-bucket/my-dataset

Monitor and tear down

krunic launches the cluster and streams logs. Once the job completes, download results and tear down:

sky status                          # check cluster state
sky logs my-cluster 1               # stream logs (job ID increments with each run)
aws s3 cp s3://my-bucket/ray-results/prefix/prefix_results.json .
yes | sky down my-cluster           # terminate cluster

--workdir defaults to the installed package directory (contains tunic.py and requirements.txt). Override it only if you are developing from a local source checkout and want to test unpublished changes.

krunic --cluster NAME --workdir DIR --s3-path PATH --model MODEL [options]
Flag Default Description
--cluster required SkyPilot cluster name
--workdir package dir Local directory synced to the cluster. Used for development
--s3-path required Dataset path within the S3 bucket
--model required Any timm model name
--accelerator T4:4 GPU spec (e.g. T4:4, A10G:1, A100:8)
--num-nodes 1 Number of cluster nodes
--n-trials 30 Number of Optuna trials
--n-epochs 30 Training epochs per trial
--batch-size 32 Batch size per trial
--training-fraction 1.0 Fraction of training data per trial
--tune-metric val_auroc Metric for trial selection and pruning
--bucket image.data S3 bucket name
--prefix tunic Prefix for output files and S3 paths
--spot Use spot instances (with retry-until-up)
--copy Copy data from S3 to local disk instead of mounting
--idle-minutes 60 Auto-stop cluster after N idle minutes
--no-autostop Disable auto-stop

Results are uploaded to s3://<bucket>/ray-results/<prefix>/<prefix>_results.json.

tunic-plotter - visualize results

tunic-plotter results.json                  # plots val_auroc and val_acc
tunic-plotter results.json --metric val_acc # single metric
tunic-plotter results.json --trial_sort     # keep original trial order, show running best

Saves PNG files alongside the results JSON.

Dataset format

tunic auto-detects the dataset format:

  • ImageFolder - standard split/class/image.ext layout
  • WebDataset - sharded TAR files; detected when wds/dataset_info.json exists

Scaling

Concurrent trials = total GPUs: --num-nodes 4 --accelerator T4:4 --> 16 concurrent trials.

Optuna's TPE needs ~20 trials before it outperforms random search. 32–64 trials is a practical range for most problems.

Output format

{
  "model": "resnet18",
  "best_val_auroc": 0.963,
  "best_val_acc": 0.891,
  "best_params": {
    "optimizer": "AdamW",
    "lr": 0.0028,
    "weight_decay": 3.6e-06,
    "label_smoothing": 0.058,
    "drop_rate": 0.183
  },
  "n_trials": 48,
  "completed_trials": 48,
  "epochs": 50,
  "all_trials": [...]
}

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