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Paper detail

RaPD: Resolution-Agnostic Pixel Diffusion via Semantics-Enriched Implicit Representations

Natural images are continuous, yet most generative models synthesize them on discrete grids, limiting resolution-flexible generation. Continuous neural fields enable resolution-free rendering, but prior methods introduce continuity only at the decoding stage as an interpolation module, leaving the generative latent space discretized and reconstruction-oriented. We propose RaPD (Resolution-agnostic Pixel Diffusion), which performs diffusion in a continuous Neural Image Field (NIF) latent space. RaPD bridges this reconstruction-generation gap with Semantic Representation Guidance for generation-aware latent learning and a Coordinate-Queried Attention Renderer for coordinate-conditioned, scale-aware rendering. A single denoised latent can be rendered at arbitrary resolutions by changing only the query coordinates, keeping diffusion cost fixed. Experiments demonstrate superior generation quality and resolution scalability.

preprint2026arXivOpen access
Yanhao GeShanyan GuanWeihao WangYing TaiMingyu You
Computer VisionArtificial Intelligence
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Yanhao GeShanyan GuanWeihao WangYing TaiMingyu You

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