Low-Resolution Editing is All You Need for High-Resolution Editing
This addresses the problem of limited resolution in image editing for vision and graphics communities, offering a method to enable high-resolution content creation.
The paper tackles the challenge of high-resolution image editing by proposing a test-time optimization framework that performs patch-wise optimization and detail transfer, achieving high-quality edits for resolutions beyond 1K.
High-resolution content creation is rapidly emerging as a central challenge in both the vision and graphics communities. While images serve as the most fundamental modality for visual expression, content generation that aligns with the user intent requires effective, controllable high-resolution image manipulation mechanisms. However, existing approaches remain limited to low-resolution settings, typically supporting only up to 1K resolution. In this work, we introduce the task of high-resolution image editing and propose a test-time optimization framework to address it. Our method performs patch-wise optimization on high-resolution source images, followed by a fine-grained detail transfer module and a novel synchronization strategy to maintain consistency across patches. Extensive experiments show that our method produces high-quality edits, facilitating the way toward high-resolution content creation.