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| # GLM-Image | |
| ## Overview | |
| GLM-Image is an image generation model adopts a hybrid autoregressive + diffusion decoder architecture, effectively pushing the upper bound of visual fidelity and fine-grained details. In general image generation quality, it aligns with industry-standard LDM-based approaches, while demonstrating significant advantages in knowledge-intensive image generation scenarios. | |
| Model architecture: a hybrid autoregressive + diffusion decoder design、 | |
| + Autoregressive generator: a 9B-parameter model initialized from [GLM-4-9B-0414](https://huggingface.co/zai-org/GLM-4-9B-0414), with an expanded vocabulary to incorporate visual tokens. The model first generates a compact encoding of approximately 256 tokens, then expands to 1K–4K tokens, corresponding to 1K–2K high-resolution image outputs. You can check AR model in class `GlmImageForConditionalGeneration` of `transformers` library. | |
| + Diffusion Decoder: a 7B-parameter decoder based on a single-stream DiT architecture for latent-space image decoding. It is equipped with a Glyph Encoder text module, significantly improving accurate text rendering within images. | |
| Post-training with decoupled reinforcement learning: the model introduces a fine-grained, modular feedback strategy using the GRPO algorithm, substantially enhancing both semantic understanding and visual detail quality. | |
| + Autoregressive module: provides low-frequency feedback signals focused on aesthetics and semantic alignment, improving instruction following and artistic expressiveness. | |
| + Decoder module: delivers high-frequency feedback targeting detail fidelity and text accuracy, resulting in highly realistic textures, lighting, and color reproduction, as well as more precise text rendering. | |
| GLM-Image supports both text-to-image and image-to-image generation within a single model | |
| + Text-to-image: generates high-detail images from textual descriptions, with particularly strong performance in information-dense scenarios. | |
| + Image-to-image: supports a wide range of tasks, including image editing, style transfer, multi-subject consistency, and identity-preserving generation for people and objects. | |
| This pipeline was contributed by [zRzRzRzRzRzRzR](https://github.com/zRzRzRzRzRzRzR). The codebase can be found [here](https://huggingface.co/zai-org/GLM-Image). | |
| ## Usage examples | |
| ### Text to Image Generation | |
| ```python | |
| import torch | |
| from diffusers.pipelines.glm_image import GlmImagePipeline | |
| pipe = GlmImagePipeline.from_pretrained("zai-org/GLM-Image",torch_dtype=torch.bfloat16,device_map="cuda") | |
| prompt = "A beautifully designed modern food magazine style dessert recipe illustration, themed around a raspberry mousse cake. The overall layout is clean and bright, divided into four main areas: the top left features a bold black title 'Raspberry Mousse Cake Recipe Guide', with a soft-lit close-up photo of the finished cake on the right, showcasing a light pink cake adorned with fresh raspberries and mint leaves; the bottom left contains an ingredient list section, titled 'Ingredients' in a simple font, listing 'Flour 150g', 'Eggs 3', 'Sugar 120g', 'Raspberry puree 200g', 'Gelatin sheets 10g', 'Whipping cream 300ml', and 'Fresh raspberries', each accompanied by minimalist line icons (like a flour bag, eggs, sugar jar, etc.); the bottom right displays four equally sized step boxes, each containing high-definition macro photos and corresponding instructions, arranged from top to bottom as follows: Step 1 shows a whisk whipping white foam (with the instruction 'Whip egg whites to stiff peaks'), Step 2 shows a red-and-white mixture being folded with a spatula (with the instruction 'Gently fold in the puree and batter'), Step 3 shows pink liquid being poured into a round mold (with the instruction 'Pour into mold and chill for 4 hours'), Step 4 shows the finished cake decorated with raspberries and mint leaves (with the instruction 'Decorate with raspberries and mint'); a light brown information bar runs along the bottom edge, with icons on the left representing 'Preparation time: 30 minutes', 'Cooking time: 20 minutes', and 'Servings: 8'. The overall color scheme is dominated by creamy white and light pink, with a subtle paper texture in the background, featuring compact and orderly text and image layout with clear information hierarchy." | |
| image = pipe( | |
| prompt=prompt, | |
| height=32 * 32, | |
| width=36 * 32, | |
| num_inference_steps=30, | |
| guidance_scale=1.5, | |
| generator=torch.Generator(device="cuda").manual_seed(42), | |
| ).images[0] | |
| image.save("output_t2i.png") | |
| ``` | |
| ### Image to Image Generation | |
| ```python | |
| import torch | |
| from diffusers.pipelines.glm_image import GlmImagePipeline | |
| from PIL import Image | |
| pipe = GlmImagePipeline.from_pretrained("zai-org/GLM-Image",torch_dtype=torch.bfloat16,device_map="cuda") | |
| image_path = "cond.jpg" | |
| prompt = "Replace the background of the snow forest with an underground station featuring an automatic escalator." | |
| image = Image.open(image_path).convert("RGB") | |
| image = pipe( | |
| prompt=prompt, | |
| image=[image], # can input multiple images for multi-image-to-image generation such as [image, image1] | |
| height=33 * 32, | |
| width=32 * 32, | |
| num_inference_steps=30, | |
| guidance_scale=1.5, | |
| generator=torch.Generator(device="cuda").manual_seed(42), | |
| ).images[0] | |
| image.save("output_i2i.png") | |
| ``` | |
| + Since the AR model used in GLM-Image is configured with `do_sample=True` and a temperature of `0.95` by default, the generated images can vary significantly across runs. We do not recommend setting do_sample=False, as this may lead to incorrect or degenerate outputs from the AR model. | |
| ## GlmImagePipeline | |
| [[autodoc]] pipelines.glm_image.pipeline_glm_image.GlmImagePipeline | |
| - all | |
| - __call__ | |
| ## GlmImagePipelineOutput | |
| [[autodoc]] pipelines.glm_image.pipeline_output.GlmImagePipelineOutput | |