PyTorch Implementation of Google Research's MetNet for short term weather forecasting (https://arxiv.org/abs/2003.12140), inspired from https://github.com/tcapelle/metnet_pytorch/tree/master/metnet_pytorch
MetNet-2 (https://arxiv.org/pdf/2111.07470.pdf) is a further extension of MetNet that takes in a larger context image to predict up to 12 hours ahead, and is also implemented in PyTorch here.
Clone the repository, then run
pip install -r requirements.txt
pip install -e .
Alternatively, you can also install a usually older version through pip install metnet
Please ensure that you're using Python version 3.9 or above.
While the exact training data used for both MetNet and MetNet-2 haven't been released, the papers do go into some detail as to the inputs, which were GOES-16 and MRMS precipitation data, as well as the time period covered. We will be making those splits available, as well as a larger dataset that covers a longer time period, with HuggingFace Datasets!
from datasets import load_dataset
dataset = load_dataset("openclimatefix/goes-mrms")
This uses the publicly avaiilable GOES-16 data and the MRMS archive to create a similar set of data to train and test on, with various other splits available as well.
Pretrained model weights for MetNet and MetNet-2 have not been publicly released, and there is some difficulty in reproducing their training. We release weights for both MetNet and MetNet-2 trained on cloud mask and satellite imagery data with the same parameters as detailed in the papers on HuggingFace Hub for MetNet and MetNet-2. These weights can be downloaded and used using:
from metnet import MetNet, MetNet2
model = MetNet().from_pretrained("openclimatefix/metnet")
model = MetNet2().from_pretrained("openclimatefix/metnet-2")
MetNet can be used with:
from metnet import MetNet
import torch
import torch.nn.functional as F
model = MetNet(
hidden_dim=32,
forecast_steps=24,
input_channels=16,
output_channels=12,
sat_channels=12,
input_size=32,
)
# MetNet expects original HxW to be 4x the input size
x = torch.randn((2, 12, 16, 128, 128))
out = model(x)
# MetNet creates predictions for the center 1/4th
y = torch.randn((2, 24, 12, 8, 8))
F.mse_loss(out, y).backward()
And MetNet-2 with:
from metnet import MetNet2
import torch
import torch.nn.functional as F
model = MetNet2(
forecast_steps=8,
input_size=64,
num_input_timesteps=6,
upsampler_channels=128,
lstm_channels=32,
encoder_channels=64,
center_crop_size=16,
)
# MetNet expects original HxW to be 4x the input size
x = torch.randn((2, 6, 12, 256, 256))
out = model(x)
y = torch.rand((2,8,12,64,64))
F.mse_loss(out, y).backward()