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Large multimodal models (LMMs) have the potential to revolutionize how machines interact with human languages and visual information, offering more intuitive and natural ways for machines to understand our world. The challenge in multimodal learning involves accurately interpreting and synthesizing information from textual and visual inputs. This process is complex due to the need to understand the distinct properties of each modality and effectively integrate these insights into a cohesive understanding.
Current research focuses on autoregressive LLMs to vision-language learning and how to effectively exploit LLMs by viewing visual signals as conditional information. Exploration also includes fine-tuning LMMs with visual instruction tuning data to enhance their zero-shot capabilities. Small-scale LMMs have been developed to reduce computation overhead, with current models like Phi-2, TinyLlama, and StableLM-2 achieving impressive performances while maintaining reasonable compute budgets.
Researchers from Beihang University and Tsinghua University in China have introduced TinyLLaVA, a novel framework that utilizes small-scale LLMs for multimodal tasks. This framework comprises a vision encoder, a small-scale LLM decoder, an intermediate connector, and tailored training pipelines. TinyLLaVA aims to achieve high performance in multimodal learning while minimizing computational demands.
The framework trains a family of small-scale LMMs, with the best model, TinyLLaVA-3.1B, outperforming existing 7B models such as LLaVA-1.5 and Qwen-VL. It combines vision encoders like CLIP-Large and SigLIP with small-scale LMMs for better performance. The training data consists of two different datasets, LLaVA-1.5 and ShareGPT4V, used to study the impact of data quality on LMM performance. It allows the adjustment of partially learnable parameters of the LLM and vision encoder during the supervised fine-tuning stage. It also provides a unified analysis of model selections, training recipes, and data contributions to the performance of small-scale LMMs.
The experiments revealed significant findings: model variants employing larger LLMs and the SigLIP vision encoder demonstrated superior performance. The shared recipe, which includes vision encoder fine-tuning, enhanced the effectiveness of all model variants. Among the standout results, the TinyLLaVA-share-Sig-Phi variant, with 3.1B parameters, outperformed the larger 7B parameter LLaVA-1.5 model in comprehensive benchmarks, showcasing the potential of smaller LMMs when optimized with suitable data and training methodologies.
In conclusion, TinyLLaVA represents a significant step forward in multimodal learning. By leveraging small-scale LLMs, the framework offers a more accessible and efficient approach to integrating language and visual information. This development enhances our understanding of multimodal systems and opens up new possibilities for their application in real-world scenarios. The success of TinyLLaVA underscores the importance of innovative solutions in advancing the capabilities of artificial intelligence.
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The post Meet TinyLLaVA: The Game-Changer in Machine Learning with Smaller Multimodal Frameworks Outperforming Larger Models appeared first on MarkTechPost.
“}]] [[{“value”:”Large multimodal models (LMMs) have the potential to revolutionize how machines interact with human languages and visual information, offering more intuitive and natural ways for machines to understand our world. The challenge in multimodal learning involves accurately interpreting and synthesizing information from textual and visual inputs. This process is complex due to the need to
The post Meet TinyLLaVA: The Game-Changer in Machine Learning with Smaller Multimodal Frameworks Outperforming Larger Models appeared first on MarkTechPost.”}]] Read More AI Shorts, Applications, Artificial Intelligence, Editors Pick, Language Model, Large Language Model, Machine Learning, Staff, Tech News, Technology, Uncategorized