ELMER
The ELMER model was proposed in ELMER: A Non-Autoregressive Pre-trained Language Model for Efficient and Effective Text Generation by Junyi Li, Tianyi Tang, Wayne Xin Zhao, Jian-Yun Nie and Ji-Rong Wen.
The detailed information and instructions can be found https://github.com/RUCAIBox/ELMER.
Model Description
ELMER is an efficient and effective PLM for NAR text generation, which generates tokens at different layers by leveraging the early exit technique.
The architecture of ELMER is a variant of the standard Transformer encoder-decoder and poses three technical contributions:
- For decoder, we replace the original masked multi-head attention with bi-directional multi-head attention akin to the encoder. Therefore, ELMER dynamically adjusts the output length by emitting an end token "[EOS]" at any position.
- Leveraging early exit, ELMER injects "off-ramps" at each decoder layer, which make predictions with intermediate hidden states. If ELMER exits at the $l$-th layer, we copy the $l$-th hidden states to the subsequent layers.
- ELMER utilizes a novel pre-training objective, layer permutation language modeling (LPLM), to pre-train on the large-scale corpus. LPLM permutes the exit layer for each token from 1 to the maximum layer $L$.
Examples
To fine-tune ELMER on non-autoregressive text generation:
>>> from transformers import BartTokenizer as ElmerTokenizer
>>> from transformers import BartForConditionalGeneration as ElmerForConditionalGeneration
>>> tokenizer = ElmerTokenizer.from_pretrained("RUCAIBox/elmer")
>>> model = ElmerForConditionalGeneration.from_pretrained("RUCAIBox/elmer")
Citation
@article{lijunyi2022elmer,
title={ELMER: A Non-Autoregressive Pre-trained Language Model for Efficient and Effective Text Generation},
author={Li, Junyi and Tang, Tianyi and Zhao, Wayne Xin and Nie, Jian-Yun and Wen, Ji-Rong},
booktitle={EMNLP 2022},
year={2022}
}