--- language: en license: mit library_name: pytorch --- # PVNet2 ## Model Description This model class uses satellite data, numerical weather predictions, and recent Grid Service Point( GSP) PV power output to forecast the near-term (~8 hours) PV power output at all GSPs. More information can be found in the model repo [1] and experimental notes in [this google doc](https://docs.google.com/document/d/1fbkfkBzp16WbnCg7RDuRDvgzInA6XQu3xh4NCjV-WDA/edit?usp=sharing). - **Developed by:** openclimatefix - **Model type:** Fusion model - **Language(s) (NLP):** en - **License:** mit # Training Details ## Data The model is trained on data from 2019-2022 and validated on data from 2022-2023. See experimental notes in the [the google doc](https://docs.google.com/document/d/1fbkfkBzp16WbnCg7RDuRDvgzInA6XQu3xh4NCjV-WDA/edit?usp=sharing) for more details. ### Preprocessing Data is prepared with the `ocf_datapipes.training.pvnet` datapipe [2]. ## Results The training logs for the current model can be found here: - [https://wandb.ai/openclimatefix/pvnet2.1/runs/u3l8y5nd](https://wandb.ai/openclimatefix/pvnet2.1/runs/u3l8y5nd) The training logs for all model runs of PVNet2 can be found [here](https://wandb.ai/openclimatefix/pvnet2.1). Some experimental notes can be found at in [the google doc](https://docs.google.com/document/d/1fbkfkBzp16WbnCg7RDuRDvgzInA6XQu3xh4NCjV-WDA/edit?usp=sharing) ### Hardware Trained on a single NVIDIA Tesla T4 ### Software - [1] https://github.com/openclimatefix/PVNet - [2] https://github.com/openclimatefix/ocf_datapipes