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Main Authors: Inferix Team, Feng, Tianyu, Han, Yizeng, He, Jiahao, He, Yuanyu, Lin, Xi, Liu, Teng, Lu, Hanfeng, Tang, Jiasheng, Wang, Wei, Wang, Zhiyuan, Wu, Jichao, Yang, Mingyang, Yu, Yinghao, Zhang, Zeyu, Zhuang, Bohan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.20714
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author Inferix Team
Feng, Tianyu
Han, Yizeng
He, Jiahao
He, Yuanyu
Lin, Xi
Liu, Teng
Lu, Hanfeng
Tang, Jiasheng
Wang, Wei
Wang, Zhiyuan
Wu, Jichao
Yang, Mingyang
Yu, Yinghao
Zhang, Zeyu
Zhuang, Bohan
author_facet Inferix Team
Feng, Tianyu
Han, Yizeng
He, Jiahao
He, Yuanyu
Lin, Xi
Liu, Teng
Lu, Hanfeng
Tang, Jiasheng
Wang, Wei
Wang, Zhiyuan
Wu, Jichao
Yang, Mingyang
Yu, Yinghao
Zhang, Zeyu
Zhuang, Bohan
contents World models serve as core simulators for fields such as agentic AI, embodied AI, and gaming, capable of generating long, physically realistic, and interactive high-quality videos. Moreover, scaling these models could unlock emergent capabilities in visual perception, understanding, and reasoning, paving the way for a new paradigm that moves beyond current LLM-centric vision foundation models. A key breakthrough empowering them is the semi-autoregressive (block-diffusion) decoding paradigm, which merges the strengths of diffusion and autoregressive methods by generating video tokens in block-applying diffusion within each block while conditioning on previous ones, resulting in more coherent and stable video sequences. Crucially, it overcomes limitations of standard video diffusion by reintroducing LLM-style KV Cache management, enabling efficient, variable-length, and high-quality generation. Therefore, Inferix is specifically designed as a next-generation inference engine to enable immersive world synthesis through optimized semi-autoregressive decoding processes. This dedicated focus on world simulation distinctly sets it apart from systems engineered for high-concurrency scenarios (like vLLM or SGLang) and from classic video diffusion models (such as xDiTs). Inferix further enhances its offering with interactive video streaming and profiling, enabling real-time interaction and realistic simulation to accurately model world dynamics. Additionally, it supports efficient benchmarking through seamless integration of LV-Bench, a new fine-grained evaluation benchmark tailored for minute-long video generation scenarios. We hope the community will work together to advance Inferix and foster world model exploration.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20714
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Inferix: A Block-Diffusion based Next-Generation Inference Engine for World Simulation
Inferix Team
Feng, Tianyu
Han, Yizeng
He, Jiahao
He, Yuanyu
Lin, Xi
Liu, Teng
Lu, Hanfeng
Tang, Jiasheng
Wang, Wei
Wang, Zhiyuan
Wu, Jichao
Yang, Mingyang
Yu, Yinghao
Zhang, Zeyu
Zhuang, Bohan
Computer Vision and Pattern Recognition
Artificial Intelligence
World models serve as core simulators for fields such as agentic AI, embodied AI, and gaming, capable of generating long, physically realistic, and interactive high-quality videos. Moreover, scaling these models could unlock emergent capabilities in visual perception, understanding, and reasoning, paving the way for a new paradigm that moves beyond current LLM-centric vision foundation models. A key breakthrough empowering them is the semi-autoregressive (block-diffusion) decoding paradigm, which merges the strengths of diffusion and autoregressive methods by generating video tokens in block-applying diffusion within each block while conditioning on previous ones, resulting in more coherent and stable video sequences. Crucially, it overcomes limitations of standard video diffusion by reintroducing LLM-style KV Cache management, enabling efficient, variable-length, and high-quality generation. Therefore, Inferix is specifically designed as a next-generation inference engine to enable immersive world synthesis through optimized semi-autoregressive decoding processes. This dedicated focus on world simulation distinctly sets it apart from systems engineered for high-concurrency scenarios (like vLLM or SGLang) and from classic video diffusion models (such as xDiTs). Inferix further enhances its offering with interactive video streaming and profiling, enabling real-time interaction and realistic simulation to accurately model world dynamics. Additionally, it supports efficient benchmarking through seamless integration of LV-Bench, a new fine-grained evaluation benchmark tailored for minute-long video generation scenarios. We hope the community will work together to advance Inferix and foster world model exploration.
title Inferix: A Block-Diffusion based Next-Generation Inference Engine for World Simulation
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2511.20714