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from dataclasses import dataclass |
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from enum import Enum |
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@dataclass |
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class Task: |
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benchmark: str |
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metric: str |
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col_name: str |
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class Tasks(Enum): |
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task0 = Task("anli_r1", "acc", "ANLI") |
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task1 = Task("logiqa", "acc_norm", "LogiQA") |
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NUM_FEWSHOT = 0 |
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TITLE = """<h1 align="center" id="space-title">UnlearnDiffAtk Benchmark</h1>""" |
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SUB_TITLE = """<h2 align="center" id="space-title">Effective and efficient adversarial prompt generation approach for diffusion models</h2>""" |
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INTRODUCTION_TEXT = """ |
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This benchmark evaluates the robustness of safety-driven unlearned diffusion models (DMs) |
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(i.e., DMs after unlearning undesirable concepts, styles, or objects) across a variety of tasks. For more details, please visit the [project](https://www.optml-group.com/posts/mu_attack), |
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check the [code](https://github.com/OPTML-Group/Diffusion-MU-Attack), and read the [paper](https://arxiv.org/abs/2310.11868).\\ |
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Demo of our offensive method: [UnlearnDiffAtk](https://huggingface.co/spaces/Intel/UnlearnDiffAtk)\\ |
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Demo of our defensive method: [AdvUnlearn](https://huggingface.co/spaces/Intel/AdvUnlearn) |
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""" |
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LLM_BENCHMARKS_TEXT = f""" |
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For more details of Unlearning Methods used in this benchmarks:\\ |
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(1) [Erased Stable Diffusion (ESD)](https://github.com/rohitgandikota/erasing);\\ |
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(2) [Forget-Me-Not (FMN)](https://github.com/SHI-Labs/Forget-Me-Not);\\ |
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(3) [Ablating Concepts (AC)](https://github.com/nupurkmr9/concept-ablation);\\ |
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(4) [Unified Concept Editing (UCE)](https://github.com/rohitgandikota/unified-concept-editing);\\ |
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(5) [concept-SemiPermeable Membrane (SPM)](https://github.com/Con6924/SPM); \\ |
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(6) [Saliency Unlearning (SalUn)](https://github.com/OPTML-Group/Unlearn-Saliency); \\ |
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(7) [EraseDiff (ED)](https://github.com/JingWu321/EraseDiff); \\ |
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(8) [ScissorHands (SH)](https://github.com/JingWu321/Scissorhands). |
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""" |
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EVALUATION_QUEUE_TEXT = """ |
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Evaluation Metrics: \\ |
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(1) Pre-attack success rate (pre-ASR), lower is better; \\ |
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(2) Post-attack success rate (post-ASR), lower is better; \\ |
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(3) Fréchet inception distance(FID) of images generated by Unlearned Methods, lower is better; \\ |
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(3) CLIP (Contrastive Language-Image Pretraining) Score is to measure contextual alignment with prompt descriptions, higher is better. |
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""" |
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CITATION_BUTTON_LABEL = "Copy the following snippet to cite these results" |
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CITATION_BUTTON_TEXT = r""" |
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@article{zhang2023generate, |
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title={To Generate or Not? Safety-Driven Unlearned Diffusion Models Are Still Easy To Generate Unsafe Images... For Now}, |
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author={Zhang, Yimeng and Jia, Jinghan and Chen, Xin and Chen, Aochuan and Zhang, Yihua and Liu, Jiancheng and Ding, Ke and Liu, Sijia}, |
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journal={arXiv preprint arXiv:2310.11868}, |
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year={2023} |
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} |
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@article{zhang2024defensive, |
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title={Defensive Unlearning with Adversarial Training for Robust Concept Erasure in Diffusion Models}, |
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author={Zhang, Yimeng and Chen, Xin and Jia, Jinghan and Zhang, Yihua and Fan, Chongyu and Liu, Jiancheng and Hong, Mingyi and Ding, Ke and Liu, Sijia}, |
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journal={arXiv preprint arXiv:2405.15234}, |
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year={2024} |
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} |
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""" |