Dahyun Kim
2024
SOLAR 10.7B: Scaling Large Language Models with Simple yet Effective Depth Up-Scaling
Sanghoon Kim
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Dahyun Kim
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Chanjun Park
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Wonsung Lee
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Wonho Song
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Yunsu Kim
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Hyeonwoo Kim
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Yungi Kim
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Hyeonju Lee
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Jihoo Kim
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Changbae Ahn
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Seonghoon Yang
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Sukyung Lee
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Hyunbyung Park
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Gyoungjin Gim
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Mikyoung Cha
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Hwalsuk Lee
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Sunghun Kim
Proceedings of the 2024 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies (Volume 6: Industry Track)
We introduce SOLAR 10.7B, a large language model (LLM) with 10.7 billion parameters, demonstrating superior performance in various natural language processing (NLP) tasks. Inspired by recent efforts to efficiently up-scale LLMs, we present a method for scaling LLMs called depth up-scaling (DUS), which encompasses depthwise scaling and continued pretraining. In contrast to other LLM up-scaling methods that use mixture-of-experts, DUS does not require complex changes to train and inference efficiently. We show experimentally that DUS is simple yet effective in scaling up high-performance LLMs from small ones. Building on the DUS model, we additionally present SOLAR 10.7B-Instruct, a variant fine-tuned for instruction-following capabilities, surpassing Mixtral-8x7B-Instruct. SOLAR 10.7B is publicly available under the Apache 2.0 license, promoting broad access and application in the LLM field.
2023
HEAR: Hearing Enhanced Audio Response for Video-grounded Dialogue
Sunjae Yoon
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Dahyun Kim
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Eunseop Yoon
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Hee Yoon
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Junyeong Kim
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Chang Yoo
Findings of the Association for Computational Linguistics: EMNLP 2023
Video-grounded Dialogue (VGD) aims to answer questions regarding a given multi-modal input comprising video, audio, and dialogue history. Although there have been numerous efforts in developing VGD systems to improve the quality of their responses, existing systems are competent only to incorporate the information in the video and text and tend to struggle in extracting the necessary information from the audio when generating appropriate responses to the question. The VGD system seems to be deaf, and thus, we coin this symptom of current systems’ ignoring audio data as a deaf response. To overcome the deaf response problem, Hearing Enhanced Audio Response (HEAR) framework is proposed to perform sensible listening by selectively attending to audio whenever the question requires it. The HEAR framework enhances the accuracy and audibility of VGD systems in a model-agnostic manner. HEAR is validated on VGD datasets (i.e., AVSD@DSTC7 and AVSD@DSTC8) and shows effectiveness with various VGD systems.
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Co-authors
- Sunjae Yoon 1
- Eunseop Yoon 1
- Hee Yoon 1
- Junyeong Kim 1
- Chang Yoo 1
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