Model Card for VLA-Adapter Libero-Spatial

VLA-Adapter: An Effective Paradigm for Tiny-Scale Vision-Language-Action Model trained on Libero-Spatial.

• 💬 Project page: https://vla-adapter.github.io/
• 🖥️ Dataset: https://huggingface.co/datasets/openvla/modified_libero_rlds/tree/main
• 🤗 HuggingFace: https://huggingface.co/VLA-Adapter

Model Details

We have developed and released the VLA-Adapter family of VLA models, a series of fine-tuned generative action models. The VLA-Adapter VLM follows the Prismatic-VLM architecture, using only a very small backbone (Qwen2.5-0.5B) for the LLM. On common robotics benchmarks, it surpasses open-source VLA models with 8.5B, 7B, 4B, 3B, and 2B backbones.

Input: Models input image and text.

Output: Models generate action only.

Model Architecture: The VLA-Adapter consists of a VLM for receiving and processing image and text information and a policy for generating actions. We systematically analyzed the benefits that the VLM provides to different types of policy conditions and determined a unified framework. We then utilized our designed Bridge Attention module to fuse the conditions generated by the VLM with the initial action information in the policy, bridging the gap between VL and A to the greatest extent possible. This resulted in a high-performance VLA model on a tiny-scale backbone.

Success Rate Comparison

Category	Methods	Scale	LIBERO-Spatial	LIBERO-Object	LIBERO-Goal	LIBERO-Long	Avg.
Large-scale	FlowVLA (Zhong et al., 2025)	8.5B	93.2	95.0	91.6	72.6	88.1
	UnifiedVLA (Wang et al., 2025)	8.5B	95.4	98.8*	93.6	94.0	95.5
	OpenVLA (Kim et al., 2024)	7B	84.7	88.4	79.2	53.7	76.5
	OpenVLA-OFT (Kim et al., 2025)	7B	97.6*	98.4	97.9	94.5*	97.1*
	UniVLA (Bu et al., 2025)	7B	96.5	96.8	95.6	92.0	95.2
	CoT-VLA (Zhao et al., 2025)	7B	87.5	91.6	87.6	69.0	81.1
	WorldVLA (Cen et al., 2025)	7B	87.6	96.2	83.4	60.0	81.8
	TraceVLA (Zheng et al., 2025)	7B	84.6	85.2	75.1	54.1	74.8
	MolmoAct (Lee et al., 2025)	7B	87.0	95.4	87.6	77.2	86.6
	ThinkAct (Huang et al., 2025)	7B	88.3	91.4	87.1	70.9	84.4
	PD-VLA (Song et al., 2025b)	7B	95.5	96.7	94.9	91.7	94.7
Small-scale	4D-VLA (Zhang et al., 2025)	4B	88.9	95.2	90.9	79.1	88.6
	SpatialVLA (Qu et al., 2025)	4B	88.2	89.9	78.6	55.5	78.1
	π0 (Black et al., 2025)	3B	96.8	98.8*	95.8	85.2	94.2
	π0-FAST (Pertsch et al., 2025)	3B	96.4	96.8	88.6	60.2	85.5
	NORA (Hung et al., 2025)	3B	92.2	95.4	89.4	74.6	87.9
	SmolVLA (Shukor et al., 2025)	2.2B	93.0	94.0	91.0	77.0	88.8
	GR00T N1 (NVIDIA et al., 2025)	2B	94.4	97.6	93.0	90.6	93.9
	GraspVLA (Deng et al., 2025)	1.8B	-	94.1	91.2	82.0	89.1
Tiny-scale	Seer (Tian et al., 2025)	0.57B	-	-	-	78.7	78.7
	VLA-OS (Gao et al., 2025)	0.5B	87.0	96.5	92.7	66.0	85.6
	Diffusion Policy (Chi et al., 2023)	-	78.3	92.5	68.3	50.5	72.4
	VLA-Adapter (Ours)	0.5B	97.8	99.2	97.2*	95.0	97.3

Effectiveness Comparison

	OpenVLA-OFT	VLA-Adapter
Backbone	7B	0.5B	1/14×
Fine-Tuning Cost	304GPU·h	8GPU·h	1/38×
Training VRAM (8 batch)	62GB	24.7GB	0.4×
Throughput (8 chunk)	71.4Hz	219.2Hz	3×
Performance	97.1%	97.3%	Maintain

Citation instructions

@article{Wang2025VLAAdapter,
  author = {Wang, Yihao and Ding, Pengxiang and Li, Lingxiao and Cui, Can and Ge, Zirui and Tong, Xinyang and Song, Wenxuan and Zhao, Han and Zhao, Wei and Hou, Pengxu and Huang, Siteng and Tang, Yifan and Wang, Wenhui and Zhang, Ru and Liu, Jianyi and Wang, Donglin},
  title = {VLA-Adapter: An Effective Paradigm for Tiny-Scale Vision-Language-Action Model},
  journal = {ArXiv},
  year = {2025}
}