Genixer: Empowering Multimodal Large Language Models as a Powerful Data Generator

Multimodal Large Language Models (MLLMs) demonstrate exceptional problem-solving capabilities, but there is limited research focusing on their ability to generate data by converting unlabeled images into visual instruction tuning data. To this end, this paper is the first to explore the potential of empowering MLLM to generate data rather than prompting GPT-4. We introduce Genixer, a holistic data generation pipeline consisting of four key steps: (i) instruction data collection, (ii) instruction template design, (iii) empowering MLLMs, and (iv) data generation and filtering. Additionally, we outline two modes of data generation: task-agnostic and task-specific, enabling controllable output. We demonstrate that a synthetic VQA-like dataset trained with LLaVA1.5 enhances performance on 10 out of 12 multimodal benchmarks. Additionally, the grounding MLLM Shikra, when trained with a REC-like synthetic dataset, shows improvements on 7 out of 8 REC datasets. Through experiments and synthetic data analysis, our findings are: (1) current MLLMs can serve as robust data generators without assistance from GPT-4V; (2) MLLMs trained with task-specific datasets can surpass GPT-4V in generating complex instruction tuning data; (3) synthetic datasets enhance performance across various multimodal benchmarks and help mitigate model hallucinations. The data, code, and models can be found at https://github.com/zhaohengyuan1/Genixer.