--- language: en license: apache-2.0 --- # Model Card for distilroberta-base-climate-d-s ## Model Description This is the ClimateBERT language model based on the DIV-SELECT and SIM-SELECT sample selection strategy. *Note: We generally recommend choosing the [distilroberta-base-climate-f](https://huggingface.co/climatebert/distilroberta-base-climate-f) language model over this language model (unless you have good reasons not to).* Using the [DistilRoBERTa](https://huggingface.co/distilroberta-base) model as starting point, the ClimateBERT Language Model is additionally pre-trained on a text corpus comprising climate-related research paper abstracts, corporate and general news and reports from companies. The underlying methodology can be found in our [language model research paper](https://arxiv.org/abs/2110.12010). ## Climate performance card | distilroberta-base-climate-d-s | | |--------------------------------------------------------------------------|----------------| | 1. Is the resulting model publicly available? | Yes | | 2. How much time does the training of the final model take? | 48 hours | | 3. How much time did all experiments take (incl. hyperparameter search)? | 350 hours | | 4. What was the power of GPU and CPU? | 0.7 kW | | 5. At which geo location were the computations performed? | Germany | | 6. What was the energy mix at the geo location? | 470 gCO2eq/kWh | | 7. How much CO2eq was emitted to train the final model? | 15.79 kg | | 8. How much CO2eq was emitted for all experiments? | 115.15 kg | | 9. What is the average CO2eq emission for the inference of one sample? | 0.62 mg | | 10. Which positive environmental impact can be expected from this work? | This work can be categorized as a building block tools following Jin et al (2021). It supports the training of NLP models in the field of climate change and, thereby, have a positive environmental impact in the future. | | 11. Comments | Block pruning could decrease CO2eq emissions | ## Citation Information ```bibtex @article{wkbl2021, title={ClimateBERT: A Pretrained Language Model for Climate-Related Text}, author={Webersinke, Nicolas and Kraus, Mathias and Bingler, Julia and Leippold, Markus}, journal={arXiv preprint arXiv:2110.12010}, year={2021} } ```