Configuration classes for Neuron exports
Exporting a PyTorch model to neuron compiled model involves specifying:
- The input names.
- The output names.
- Dummy inputs used to trace the model. This is needed for Neuron-Compiler to record the computational graph and convert it to TorchScript module.
- Compilation arguments used to control the trade-off between hardware efficiency(latency, throughput) and accuracy.
Depending on the choice of model and task, we represent the data above with configuration classes. Each configuration class is associated with
a specific model architecture, and follows the naming convention ArchitectureNameNeuronConfig. For instance, the configuration which specifies the Neuron
export of BERT models is BertNeuronConfig.
Since many architectures share similar properties for their Neuron configuration, 🤗 Optimum adopts a 3-level class hierarchy:
- Abstract and generic base classes. These handle all the fundamental features, while being agnostic to the modality (text, image, audio, etc).
- Middle-end classes. These are aware of the modality, but multiple can exist for the same modality depending on the inputs they support. They specify which input generators should be used for the dummy inputs, but remain model-agnostic.
- Model-specific classes like the
BertNeuronConfigmentioned above. These are the ones actually used to export models.
Supported architectures
| Architecture | Task |
|---|---|
| ALBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| BERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| CamemBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| ConvBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| DeBERTa (INF2 only) | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| DeBERTa-v2 (INF2 only) | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| DistilBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| ELECTRA | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| FlauBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| GPT2 | text-generation |
| MobileBERT | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| MPNet | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| RoBERTa | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| RoFormer | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| XLM | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
| XLM-RoBERTa | feature-extraction, fill-mask, multiple-choice, question-answering, text-classification, token-classification |
More details for checking supported tasks here.
More architectures coming soon, stay tuned! 🚀