Official pytorch implementation of the paper:
"Revisiting Logistic-softmax Likelihood in Bayesian Meta-learning for Few-shot Classification"
- Python >= 3.x
- Numpy >= 1.17
- pyTorch >= 1.2.0
- GPyTorch >= 0.3.5
- (optional) TensorboardX
pip install numpy torch torchvision gpytorch h5py pillow
We confirm that the following configuration worked for us: numpy 1.22.4, torch 1.11.0, torchvision 0.12.0, gpytorch 1.9.0, h5py 3.4.0, pillow 9.1.1
Classification. The code for the classification case is accessible in CDKT.py, with most of the important pieces contained in the train_loop()
method (training), and in the correct()
method (testing).
These are the instructions to train and test the methods reported in the paper in the various conditions.
Download and prepare a dataset. This is an example of how to download and prepare a dataset for training/testing. Here we assume the current directory is the project root folder:
cd filelists/DATASET_NAME/
sh download_DATASET_NAME.sh
Replace DATASET_NAME
with one of the following: CUB
, miniImagenet
. Notice that the link to mini-Imagenet is no longer available on the official website. We refer to mini-imagenet-tools for various alternatives to downloading the dataset.
Train classification. Our methods can be trained using the following syntax:
python train.py --dataset="CUB" --method="CDKT" --train_n_way=5 --test_n_way=5 --n_shot=1 --seed=1 --train_aug --steps=2 --tau=0.2 --loss="ELBO"
This will train CDKT 5-way 1-shot on the CUB dataset with seed 1, temperature 0.2, and the ELBO loss. The dataset
string can be one of the following: CUB
, miniImagenet
, cross
. At training time the best model is evaluated on the validation set and stored as best_model.tar
in the folder ./save/checkpoints/DATASET_NAME
. The parameter --train_aug
enables data augmentation. The parameter seed
set the seed for pytorch, numpy, and random. Set --seed=0
or remove the parameter for a random seed. The parameter steps
controls the task-level update steps for mean-field approximation. The parameter tau
sets the temperature for the logistic-softmax likelihood. The parameter loss
can be ELBO
or PLL
, corresponding to the ELBO loss and the predictive likelihood loss. Additional parameters are provided in the file io_utils.py
, such as mean
and kernel
, where mean
sets the prior mean for GP (default is 0) and the choices of kernel include linear
, rbf
, matern
, poli1
, poli2
, bncossim
.
Test classification. For testing our methods it is enough to repeat the train command replacing the call to train.py
with the call to test.py
as follows:
python test.py --dataset="CUB" --method="CDKT" --train_n_way=5 --test_n_way=5 --n_shot=1 --seed=1 --train_aug --steps=2 --tau=0.2 --loss="ELBO"
Calibration. For calibrating our methods it is enough to repeat the train command replacing the call to train.py
with the call to calibrate.py
as follows:
python calibrate.py --dataset="CUB" --method="CDKT" --train_n_way=5 --test_n_way=5 --n_shot=1 --seed=1 --train_aug --steps=2 --tau=0.2 --loss="ELBO"
This repository is a fork of https://github.com/BayesWatch/deep-kernel-transfer.