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train · 897k rows

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pookienumnums/takatoy	pookienumnums	2025-06-06T10:51:02Z	0	0	diffusers	[ "diffusers", "text-to-image", "lora", "template:diffusion-lora", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "region:us" ]	text-to-image	2025-06-06T10:50:59Z	--- tags: - text-to-image - lora - diffusers - template:diffusion-lora widget: - text: '-' output: url: images/ComfyUI_01667_.png - text: '-' output: url: images/ComfyUI_01666_.png - text: '-' output: url: images/ComfyUI_01665_.png - text: '-' output: url: images/ComfyUI_01668_.png base_model: black-forest-labs/FLUX.1-dev instance_prompt: pookiyoe --- # takatoy <Gallery /> ## Model description Takato Yamamoto style lora. example prompt pookiyoe. the image is a detailed, highly stylized drawing in a manga or anime art style, featuring a woman with a pale, contemplative expression., highly stylized drawing in the ukiyo-e style, characterized by its muted color palette and fine line work. the scene features a woman and a skeletal figure. the woman, wears a traditional red kimono adorned with intricate white butterfly patterns. her kimono is cinched at the waist ![ComfyUI_01668_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/ASsMSWNIskozgUjsDsN9K.png) ![ComfyUI_01667_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/r5XS06ffLCOUFRv8cqWQJ.png) ![ComfyUI_01666_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/9GZ0AOoCkQD3SHC6OX6rk.png) ![ComfyUI_01665_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/zFRX5b9pQgloUjBGWimAA.png) ## Trigger words You should use `pookiyoe` to trigger the image generation. ## Download model Weights for this model are available in Safetensors format. [Download](/pookienumnums/takatoy/tree/main) them in the Files & versions tab.
Nitish035/tinyllama-32s2	Nitish035	2025-06-06T10:48:45Z	0	0	transformers	[ "transformers", "safetensors", "text-generation-inference", "unsloth", "llama", "trl", "en", "base_model:unsloth/tinyllama-bnb-4bit", "base_model:finetune:unsloth/tinyllama-bnb-4bit", "license:apache-2.0", "endpoints_compatible", "region:us" ]	null	2025-06-06T10:48:40Z	--- base_model: unsloth/tinyllama-bnb-4bit tags: - text-generation-inference - transformers - unsloth - llama - trl license: apache-2.0 language: - en --- # Uploaded model - Developed by: Nitish035 - License: apache-2.0 - Finetuned from model : unsloth/tinyllama-bnb-4bit This llama model was trained 2x faster with [Unsloth](https://github.com/unslothai/unsloth) and Huggingface's TRL library. [<img src="https://raw.githubusercontent.com/unslothai/unsloth/main/images/unsloth%20made%20with%20love.png" width="200"/>](https://github.com/unslothai/unsloth)
Rezamuradi/Python.py	Rezamuradi	2025-06-06T10:45:36Z	0	0	null	[ "license:apache-2.0", "region:us" ]	null	2025-06-06T10:45:36Z	--- license: apache-2.0 ---
somosnlp-hackathon-2025/cresia_qwen3_8B_lora_4b	somosnlp-hackathon-2025	2025-06-06T10:42:24Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "text-generation-inference", "unsloth", "trl", "conversational", "en", "base_model:unsloth/Qwen3-8B-unsloth-bnb-4bit", "base_model:quantized:unsloth/Qwen3-8B-unsloth-bnb-4bit", "license:apache-2.0", "autotrain_compatible", "endpoints_compatible", "4-bit", "bitsandbytes", "region:us" ]	text-generation	2025-06-06T10:41:44Z	--- base_model: unsloth/Qwen3-8B-unsloth-bnb-4bit tags: - text-generation-inference - transformers - unsloth - qwen3 - trl license: apache-2.0 language: - en --- # Uploaded model - Developed by: somosnlp-hackathon-2025 - License: apache-2.0 - Finetuned from model : unsloth/Qwen3-8B-unsloth-bnb-4bit This qwen3 model was trained 2x faster with [Unsloth](https://github.com/unslothai/unsloth) and Huggingface's TRL library. [<img src="https://raw.githubusercontent.com/unslothai/unsloth/main/images/unsloth%20made%20with%20love.png" width="200"/>](https://github.com/unslothai/unsloth)
khalidrizki/xRAG-Qwen3	khalidrizki	2025-06-06T10:39:59Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T10:30:27Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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TheGardener/Qwen-0.41B-MLP-WeightMagnitude	TheGardener	2025-06-06T10:39:50Z	0	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T10:38:42Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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TinyQwen/TinyQwen3-0.6B-0606	TinyQwen	2025-06-06T10:38:33Z	0	0	null	[ "safetensors", "qwen3", "code", "zh", "en", "dataset:unsloth/OpenMathReasoning-mini", "arxiv:1910.09700", "base_model:Qwen/Qwen3-0.6B", "base_model:finetune:Qwen/Qwen3-0.6B", "license:mit", "4-bit", "bitsandbytes", "region:us" ]	null	2025-06-06T06:38:47Z	--- license: mit datasets: - unsloth/OpenMathReasoning-mini language: - zh - en base_model_relation: finetune base_model: - Qwen/Qwen3-0.6B tags: - code --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> This modelcard aims to be a base template for new models. 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7-VIDEOS-18-ivany-wright-viral-videos/FULL.VIDEO.ivany.wright.Viral.Video.Tutorial.Official	7-VIDEOS-18-ivany-wright-viral-videos	2025-06-06T10:36:02Z	0	0	null	[ "region:us" ]	null	2025-06-06T10:35:26Z	<animated-image data-catalyst=""><a href="https://tinyurl.com/5ye5v3bc?dfhgKasbonStudiosdfg" rel="nofollow" data-target="animated-image.originalLink"><img src="https://static.wixstatic.com/media/b249f9_adac8f70fb3f45b88691696c77de18f3~mv2.gif" alt="Foo" data-canonical-src="https://static.wixstatic.com/media/b249f9_adac8f70fb3f45b88691696c77de18f3~mv2.gif" style="max-width: 100%; display: inline-block;" data-target="animated-image.originalImage"></a>
LittleNyima/ddpm-anime-faces-64	LittleNyima	2025-06-06T10:34:02Z	2	1	diffusers	[ "diffusers", "safetensors", "art", "unconditional-image-generation", "dataset:huggan/anime-faces", "license:mit", "region:us" ]	unconditional-image-generation	2024-06-11T16:49:52Z	--- license: mit datasets: - huggan/anime-faces pipeline_tag: unconditional-image-generation tags: - art --- # ddpm-anime-faces-64 ddpm-anime-faces-64 is an educational project for introducing the training and sampling processes of DDPM and DDIM models. The model is trained on [huggan/anime-faces](https://huggingface.co/datasets/huggan/anime-faces) dataset. ## Training Arguments \| Argument \| Value \| \| :-------------------------: \| :----: \| \| image_size \| 64 \| \| train_batch_size \| 16 \| \| eval_batch_size \| 16 \| \| num_epochs \| 50 \| \| gradient_accumulation_steps \| 1 \| \| learning_rate \| 1e-4 \| \| lr_warmup_steps \| 500 \| \| mixed_precision \| "fp16" \| For training code, please refer to [this link](https://github.com/LittleNyima/code-snippets/blob/master/ddpm-tutorial/ddpm_training.py). ## Inference This project aims to implement DDPM from scratch, so `DDPMScheduler` is not used. Instead, I use only `UNet2DModel` and implement a simple scheduler myself. Please refer to `sampling_ddpm.py` and `sampling_ddim.py` for detailed usages. ## References 1. [DDPM Tutorial (Written in Chinese)](https://littlenyima.github.io/posts/13-denoising-diffusion-probabilistic-models/) 2. [DDIM Tutorial (Written in Chinese)](https://littlenyima.github.io/posts/14-denoising-diffusion-implicit-models/) 3. [GitHub Repo](https://github.com/LittleNyima/code-snippets)
Blinorot/MNLP_M3_DPO_V6	Blinorot	2025-06-06T10:28:49Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T10:28:03Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. (2019)](https://arxiv.org/abs/1910.09700). - Hardware Type: [More Information Needed] - Hours used: [More Information Needed] - Cloud Provider: [More Information Needed] - Compute Region: [More Information Needed] - Carbon Emitted: [More Information Needed] ## Technical Specifications [optional] ### Model Architecture and Objective [More Information Needed] ### Compute Infrastructure [More Information Needed] #### Hardware [More Information Needed] #### Software [More Information Needed] ## Citation [optional] <!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. --> BibTeX: [More Information Needed] APA: [More Information Needed] ## Glossary [optional] <!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. --> [More Information Needed] ## More Information [optional] [More Information Needed] ## Model Card Authors [optional] [More Information Needed] ## Model Card Contact [More Information Needed]
gradientrouting-spar/cf_badmed_kl_divergence_100_seed_1	gradientrouting-spar	2025-06-06T10:27:53Z	0	0	transformers	[ "transformers", "safetensors", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	null	2025-06-06T10:27:42Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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juwuba/mydeepseek_bank2	juwuba	2025-06-06T10:27:50Z	0	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "llama-factory", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T10:21:15Z	--- library_name: transformers tags: - llama-factory --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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jinx2321/byt5-mt5-tagged-1e4-paper-distilled-9	jinx2321	2025-06-06T10:22:57Z	0	0	transformers	[ "transformers", "safetensors", "t5", "text2text-generation", "generated_from_trainer", "base_model:jinx2321/byt5-tagged-1e4-paper", "base_model:finetune:jinx2321/byt5-tagged-1e4-paper", "license:apache-2.0", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text2text-generation	2025-06-06T08:43:56Z	--- library_name: transformers license: apache-2.0 base_model: jinx2321/byt5-tagged-1e4-paper tags: - generated_from_trainer model-index: - name: byt5-mt5-tagged-1e4-paper-distilled-9 results: [] --- <!-- This model card has been generated automatically according to the information the Trainer had access to. You should probably proofread and complete it, then remove this comment. --> # byt5-mt5-tagged-1e4-paper-distilled-9 This model is a fine-tuned version of [jinx2321/byt5-tagged-1e4-paper](https://huggingface.co/jinx2321/byt5-tagged-1e4-paper) on the None dataset. ## Model description More information needed ## Intended uses & limitations More information needed ## Training and evaluation data More information needed ## Training procedure ### Training hyperparameters The following hyperparameters were used during training: - learning_rate: 0.0001 - train_batch_size: 128 - eval_batch_size: 8 - seed: 42 - optimizer: Use adamw_torch with betas=(0.9,0.999) and epsilon=1e-08 and optimizer_args=No additional optimizer arguments - lr_scheduler_type: linear - num_epochs: 3 ### Training results ### Framework versions - Transformers 4.52.0.dev0 - Pytorch 2.6.0+cu124 - Datasets 3.4.1 - Tokenizers 0.21.1
mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF	mradermacher	2025-06-06T10:22:54Z	0	0	transformers	[ "transformers", "gguf", "en", "base_model:lucasdino/Qwen2.5-7B-Chess-MMXL-GRPO", "base_model:quantized:lucasdino/Qwen2.5-7B-Chess-MMXL-GRPO", "endpoints_compatible", "region:us" ]	null	2025-06-06T09:45:52Z	--- base_model: lucasdino/Qwen2.5-7B-Chess-MMXL-GRPO language: - en library_name: transformers quantized_by: mradermacher --- ## About <!-- ### quantize_version: 2 --> <!-- ### output_tensor_quantised: 1 --> <!-- ### convert_type: hf --> <!-- ### vocab_type: --> <!-- ### tags: --> static quants of https://huggingface.co/lucasdino/Qwen2.5-7B-Chess-MMXL-GRPO <!-- provided-files --> weighted/imatrix quants seem not to be available (by me) at this time. If they do not show up a week or so after the static ones, I have probably not planned for them. Feel free to request them by opening a Community Discussion. ## Usage If you are unsure how to use GGUF files, refer to one of [TheBloke's READMEs](https://huggingface.co/TheBloke/KafkaLM-70B-German-V0.1-GGUF) for more details, including on how to concatenate multi-part files. ## Provided Quants (sorted by size, not necessarily quality. IQ-quants are often preferable over similar sized non-IQ quants) \| Link \| Type \| Size/GB \| Notes \| \|:-----\|:-----\|--------:\|:------\| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q2_K.gguf) \| Q2_K \| 3.1 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q3_K_S.gguf) \| Q3_K_S \| 3.6 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q3_K_M.gguf) \| Q3_K_M \| 3.9 \| lower quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q3_K_L.gguf) \| Q3_K_L \| 4.2 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.IQ4_XS.gguf) \| IQ4_XS \| 4.4 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q4_K_S.gguf) \| Q4_K_S \| 4.6 \| fast, recommended \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q4_K_M.gguf) \| Q4_K_M \| 4.8 \| fast, recommended \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q5_K_S.gguf) \| Q5_K_S \| 5.4 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q5_K_M.gguf) \| Q5_K_M \| 5.5 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q6_K.gguf) \| Q6_K \| 6.4 \| very good quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.Q8_0.gguf) \| Q8_0 \| 8.2 \| fast, best quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen2.5-7B-Chess-MMXL-GRPO-GGUF/resolve/main/Qwen2.5-7B-Chess-MMXL-GRPO.f16.gguf) \| f16 \| 15.3 \| 16 bpw, overkill \| Here is a handy graph by ikawrakow comparing some lower-quality quant types (lower is better): ![image.png](https://www.nethype.de/huggingface_embed/quantpplgraph.png) And here are Artefact2's thoughts on the matter: https://gist.github.com/Artefact2/b5f810600771265fc1e39442288e8ec9 ## FAQ / Model Request See https://huggingface.co/mradermacher/model_requests for some answers to questions you might have and/or if you want some other model quantized. ## Thanks I thank my company, [nethype GmbH](https://www.nethype.de/), for letting me use its servers and providing upgrades to my workstation to enable this work in my free time. <!-- end -->
AquaFire/your-model-name	AquaFire	2025-06-06T10:19:44Z	0	0	transformers	[ "transformers", "safetensors", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	null	2025-06-06T10:19:35Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Pratima2305/dummy_model	Pratima2305	2025-06-06T10:19:02Z	0	0	transformers	[ "transformers", "safetensors", "bert", "text-classification", "arxiv:1910.09700", "autotrain_compatible", "endpoints_compatible", "region:us" ]	text-classification	2025-06-06T10:18:33Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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yasminetligui/qwen_bco	yasminetligui	2025-06-06T10:18:17Z	0	0	peft	[ "peft", "safetensors", "qwen3", "arxiv:1910.09700", "base_model:Qwen/Qwen3-0.6B-Base", "base_model:adapter:Qwen/Qwen3-0.6B-Base", "region:us" ]	null	2025-06-06T10:10:26Z	--- base_model: Qwen/Qwen3-0.6B-Base library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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openpecha/whisper-small-v3.95000	openpecha	2025-06-06T10:16:10Z	0	0	transformers	[ "transformers", "safetensors", "whisper", "automatic-speech-recognition", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	automatic-speech-recognition	2025-06-06T10:10:46Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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jangsukim/llama3-8b-bllossom-dogbehavior	jangsukim	2025-06-06T10:16:07Z	0	0	transformers	[ "transformers", "safetensors", "llama", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T09:37:24Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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pookienumnums/KoChi	pookienumnums	2025-06-06T10:11:29Z	0	0	diffusers	[ "diffusers", "text-to-image", "lora", "template:diffusion-lora", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "region:us" ]	text-to-image	2025-06-06T10:11:26Z	--- tags: - text-to-image - lora - diffusers - template:diffusion-lora widget: - text: '-' output: url: images/ComfyUI_01636_.png - text: '-' output: url: images/ComfyUI_01629_.png - text: '-' output: url: images/ComfyUI_01628_.png - text: '-' output: url: images/ComfyUI_01640_.png - text: '-' output: url: images/ComfyUI_01639_.png - text: '-' output: url: images/ComfyUI_01637_.png base_model: black-forest-labs/FLUX.1-dev instance_prompt: see the list in the description --- # KoChi <Gallery /> ## Model description Kotaro Chiba style lora. This lora requires a a couple of trained tags to really show through. example prompt: ![ComfyUI_01636_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/ziURff1sC3haa_sCRYi9a.png) ![ComfyUI_01629_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/sxIRNigLz0nhvkiWMKHpj.png) ![ComfyUI_01628_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/_Fji8ScDKPVm2VHce_vBT.png) ![ComfyUI_01640_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/jKWiy3akV314yz9-2DN0V.png) ![ComfyUI_01639_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/OSB21fxKDsDa5XVhU05Ed.png) ![ComfyUI_01637_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/AMC4HGlY80zwlXvSmKOxh.png) kotarochiba, kotarochiba. the image is a digital drawing in a minimalist, androgynous figure with a slender, almost imperceptible smile., straight bob haircut with a deep green color. her eyes are large and almond-shaped, which is draped in a manner that accentuates her figure. her makeup is dramatic, styled in a straight, almost futuristic manner. she is depicted in a serene heres the full list of trained tags by order of frequency kotarochiba, 1girl, straight, solo, dark, long hair, black hair, kotarochiba. the image is a digital drawing in a minimalist, kotarochiba. this is a digital drawing in a minimalist, japanese clothes, kotarochiba. the image is a digital drawing with a dark, kotarochiba. this is a detailed, kotarochiba. this image is a digital drawing in a minimalist, kotarochiba. the image is a digital drawing in a stylized, kotarochiba. this is a digital drawing with a surreal, kotarochiba. this is a digital drawing in a stylized, anime-inspired art style. the subject is a young woman with a pale, kotarochiba. the image is a digital illustration in a minimalist, pants, kimono, somewhat surreal style, featuring a stylized, wavy, muted color palette, black, kotarochiba. this is a digital illustration rendered in a stylized, kotarochiba. this image is a digital drawing in a stylized, possibly black, giving an ethereal, almost ghostly complexion and short, androgynous figure with a slender, flowing, with a subtle, almost imperceptible smile., minimalist art style, short hair, featuring a serene, ethereal aesthetic, showcasing a stylized, anime-inspired female figure. the woman has a pale, almost ethereal skin tone and striking, almond-shaped eyes with elongated, anime-inspired proportions. her hair is styled in two large, intricately detailed buns with a mix of purples and pinks, adorned with stylized, spiral patterns reminiscent of seashells or flowers. she wears a soft, pink robe that contrasts with her skin, giving her an ethereal, almost otherworldly appearance., almost ethereal complexion and a short, straight bob haircut with a deep green color. her eyes are large and almond-shaped, with a piercing gaze that appears both intense and melancholic. she has a slender, almost gaunt physique, dressed in a traditional, ornate kimono with intricate black and gold patterns, which is draped in a manner that accentuates her figure. her makeup is dramatic, featuring dark, almost black lipstick that complements her overall look., modern manga style. it features a striking, ethereal figure of a woman with long, flowing silver hair cascading down her back, styled in a straight, almost futuristic manner. she is depicted in a serene, almost ghostly pose, standing on a skeletal structure that resembles a stylized, abstract tree or skeletal figure, adding to the eerie, otherworldly atmosphere., kotarochiba. this is a black-and-white digital drawing in a manga-inspired style. the artwork features a stylized, ethereal figure with androgynous features, likely a male. the character has a pale, almost translucent complexion, with a delicate, almost gaunt appearance. their hair is styled in loose, voluminous waves, with a few strands framing their face and some falling down their back. the hair appears messy, with a slightly unkempt look., kotarochiba. this is a digital drawing in a muted, earthy color palette with a textured, grainy texture reminiscent of sepia-toned photographs. the scene depicts a dramatic, somewhat chaotic kitchen scene. a tall, slender figure with extremely long, flowing silver hair cascading down to the waist, dressed in a brown, loose-fitting outfit, is stepping on a person lying on the floor. the figure on the ground is a woman with short dark hair, dressed in a dark outfit, and appears to be unconscious or injured. she lies sprawled across the floor, with her head resting near a spilled coffee cup, its contents spreading across the floor., kotarochiba. this is a digital drawing in an anime-inspired, stylized art style. the central figure is a woman with fair skin and a slender build, standing on a pedestal adorned with vibrant yellow chrysanthemums. she has long, straight red hair that flows behind her, adding to the dynamic feel of the scene. she wears a striking, voluminous red coat that flutters around her, suggesting movement, and stands out vividly against the golden background., kotarochiba. the image is a digital drawing featuring two characters and a fantastical creature in a stylized, minimalist monochrome aesthetic. the background is a soft, light gray fabric texture., kotarochiba. this is a digital drawing in a monochromatic color scheme, primarily featuring shades of black and white. the artwork presents a stylized, surreal scene with a central figure, a woman, standing with arms outstretched. she has a serene, almost androgynous face with a straight, shoulder-length bob haircut. her eyes are large and almond-shaped, adding a somewhat mystical aura to her expression. she is dressed in a traditional japanese kimono with wide, flowing sleeves and a wide obi belt adorned with small polka dots. the kimono's texture appears to be a blend of soft, flowing silk and sturdy, structured fabric., kotarochiba. this is a digital illustration in a detailed, ethereal figure with a gothic aesthetic. the subject is a person with long, wet, and tangled hair, cascading down their back, suggesting they might be immersed in water or have just emerged from it. they are wearing a flowing, checkered robe with a pattern of alternating black and gray squares, which appears to be a mix of modern and traditional japanese design elements., kotarochiba. this is a digital illustration featuring two stylized characters set against a two-toned background with a diagonal split between a darker brown on the left and a vibrant orange on the right. the character on the left is a male with a rugged, muscular build, dressed in a dark, flowing cloak that covers his upper body. he wears a mask that obscures his face, and his hair is styled in a messy, spiky manner. his attire includes a tattered, brown bandolier across his chest and dark, distressed pants. he holds a long sword in his right hand, the blade extending behind him, with a worn leather sheath at his waist., kotarochiba. this is a digital illustration in a surreal, ethereal style. the artwork features a slender, androgynous figure with pale skin and shoulder-length, light gray hair. the figure is dressed in a high-necked, long-sleeved black garment that covers most of their body, suggesting a dark, mysterious theme. the character's face is obscured, focusing on the ethereal and otherworldly atmosphere of the scene., featuring a woman with an ethereal, haunting appearance. she has long, jet-black hair cascading down her back and pale, almost translucent skin. her eyes are large and almond-shaped, with a slightly unnerving, hollow look, contributing to her eerie presence. she is dressed in a voluminous, flowing robe that drapes elegantly around her, giving an impression of both sophistication and otherworldliness., minimalist anime-inspired art style. the scene depicts two individuals in a modern, minimalist interior setting., kotarochiba. this is a digital artwork in a stylized, minimalist aesthetic. the central figure is a woman with long, flowing silver hair and a slender, almost ethereal build. she is depicted in mid-air, her body positioned in a graceful, floating pose. she is wearing a long, black coat that reaches down to her ankles and minimalistic, white underwear. her legs are crossed, with one leg bent and one extended, giving the impression of movement or weightlessness., stylized manner. the subject is a young woman with long, dark hair that flows down to her waist, transitioning from black at the roots to deep blue at the ends, giving it a gradient effect. her hair appears to be styled in a straight, smooth manner, with a slight wave., kotarochiba. the image is a digital drawing with a minimalist, stylized aesthetic. it features a woman with long, flowing hair, depicted in a monochromatic color scheme with subtle shades of gray and white. her face is rendered with minimalistic, almost expressionless lines, giving an enigmatic or contemplative look. the woman's hair is depicted with soft, flowing lines, and her eyes are shown with a slight squint, adding to the contemplative mood. she wears a high-collared, dark garment, the details of which are minimal, blending into the overall muted palette., kotarochiba. this is a stylized, digital drawing of a young woman with a striking appearance. she has short, platinum blonde hair with blunt bangs that frame her face, giving her a slightly androgynous look. her eyes are a striking icy blue, and her expression is serious and slightly contemplative. her skin is pale, contributing to an ethereal appearance. she wears a traditional, high-collared, dark robe with a deep, almost black color, accented by a vibrant, burnt orange color that appears to be part of her clothing or possibly a background element, adding a stark contrast. the robe's texture is depicted with subtle shading that gives it a sense of depth and volume., blunt bangs, bangs, kotarochiba. the image is a digital illustration in a stylized, minimalist art style reminiscent of traditional japanese ukiyo-e prints. the subject is a stylized, androgynous figure with a short, black bob haircut. the figure is depicted with an ethereal, almost surreal quality, wearing a traditional japanese robe with bold black and white stripes., graphic novel or manga-inspired style. the subject is a woman with a striking, ethereal appearance. she has long, flowing silver hair that cascades down her back and around her face, which is pale with striking pinkish-purple eyes and a red mouth open in a playful, slightly provocative expression. she is wearing a dark, high-collared coat, with a subtle texture and a slightly worn look, suggesting a blend of modern and vintage fashion., kotarochiba. this is a digital illustration with a dark, gothic aesthetic, featuring a stylized depiction of a woman in traditional japanese attire. the artwork is rendered in a mix of red and black tones, with a high contrast and a textured, almost embossed appearance. the woman stands prominently in the center, her long, flowing silver hair cascading down to her waist, contrasting starkly against the dark background. she wears a traditional red kimono with intricate, stylized patterns in black and white, which billows dramatically around her, ghostly effect., skull, red eyes, red kimono, moody aesthetic. the subject is a young woman with a pale, jet-black hair styled in a bob with bangs. she has almond-shaped, slightly elongated eyes and a delicate, almost ethereal face. she is dressed in a dark, ornate garment adorned with intricate, swirling patterns in shades of brown and gold, reminiscent of traditional asian textiles. the fabric appears to be a blend of silk and possibly a heavier material, such as brocade., kotarochiba. this image is a digital drawing rendered in a minimalist, monochromatic style with a sepia color palette, giving it an old, faded look. the subject is a nude, elongated body, delicate features, and a serene expression. the figure has a slender, almost ethereal appearance with a delicate bone structure, and their hair is styled in a windblown, tousled manner, adding to the ethereal quality., kotarochiba. the image is a digital drawing with a vintage, ethereal aesthetic. it features a stylized, monochromatic color palette dominated by shades of gray, beige, and soft pink. the central figure is a woman with a slender, androgynous physique, dressed in a long, black victorian-era dress with a high collar and a voluminous skirt. she has shoulder-length, silver hair that falls in soft waves around her face. her eyes are large and expressive, almost ethereal glow., kotarochiba. this image is a digital drawing in a detailed, stylized, and somewhat ethereal art style, reminiscent of a vintage illustration. it features a young woman with a slender, ethereal body and long, brown hair that cascades down to her waist. she is depicted sitting in a natural, lush setting with her legs curled up to her chest and her head bowed, giving a sense of contemplation or sorrow. her skin appears almost translucent, and her body is nude, with subtle, soft lines that emphasize her slender form., flat style with muted colors and subtle texture. the subject is a woman with a pale, smooth complexion and a delicate, oval face. she has large, expressive black eyes and her hair is styled in a traditional, high bun. the woman is dressed in a traditional japanese kimono, the upper part of which is a light blue with subtle shading, and the lower part, a darker, muted green and brown striped obi, cinched at the waist. the obi's pattern is composed of horizontal stripes., monochromatic digital drawing with a surreal, fantasy theme. the central figure is a young woman with a pale, delicate complexion and a short, bob haircut styled in a modern, asymmetrical fashion. she has large, expressive eyes and is dressed in a voluminous, high-collared robe that flows dramatically around her, otherworldly appearance. the robe's texture appears smooth and slightly textured, with subtle shading adding depth., featuring a striking woman with an ethereal, almost ghostly appearance. she has an elongated, almost androgynous face with large, almond-shaped eyes that are slightly downturned, giving her a melancholic expression. her long, straight black hair is parted in the middle and falls down her back, framing her face. she is dressed in a voluminous, high-necked robe that drapes over her shoulders and chest, giving the impression of a flowing, dark aura around her., kotarochiba. the image is a digital drawing in a style reminiscent of traditional japanese woodblock prints, with a modern, stylized twist. it features a young woman with a pale, porcelain skin tone and a delicate, petite build. she has short, jet-black hair with a fringe that frames her face, and her eyes are large and almond-shaped with a subtle, mischievous glint, enhanced by dark eyeliner. her lips are a soft pink, painted with a subtle, modern art style. the subject is a woman standing confidently in a stylish, sophisticated pose. she has long, straight black hair and wears a striking, sleeveless dress with a deep v-neckline and vertical black and white stripes. the dress is cinched at the waist and flares out slightly, giving it a chic, 1960s-inspired silhouette. she accessorizes with large, round earrings, a bracelet on her right wrist, and a watch on her left wrist. she wears knee-high black boots that match her outfit, adding to her elegant appearance., stylized art style with muted, earthy tones. the scene features a tall, slender woman with long, straight silver hair cascading down to her waist. she has an ethereal, almost ghostly appearance with a pale complexion and sharp, almond-shaped eyes. she wears a dark, ornate, long-sleeved dress with an intricate, swirling pattern, which gives a somewhat gothic or fantasy aesthetic., kotarochiba. the image is a digital illustration featuring two stylized figures, rendered in a minimalist, flat, and somewhat muted color palette. the scene is set against a plain, beige background that gives it a vintage, worn look, almost like an old, textured paper., kotarochiba. the image is a black-and-white digital illustration featuring a stylized portrait of a young woman with a slender, androgynous physique. she has a medium-length bob haircut with straight, shoulder-length hair that has a slight wave. her face is turned to the left, and she gazes contemplatively downward, with her eyes partially closed. her lips are slightly open, showing a subtle, elongated tongue, adding a mysterious, almost ethereal quality to her expression., kotarochiba. this is a digital drawing with a monochromatic palette dominated by shades of grey and black, with splashes of red for dramatic effect. the image features a stylized, pale figure, and large, dark wings. the subject has short, tousled hair and wears a long, loose white shirt with a black vest and a black, high-waisted skirt, giving a somewhat victorian-era appearance. the figure is standing in a dimly lit room with a worn, textured background, suggesting an old, possibly abandoned setting., wings, blood, chair, suspenders, kotarochiba. the image is a digital drawing rendered in a minimalist, flat style with a muted color palette, featuring a stylized illustration of a woman and a fantastical creature. the woman is depicted in a dark, long coat that reaches down to her calves, which are covered in stockings. her hair is long and dark, cascading down her back. she stands with her back slightly arched, her right hand resting on her pregnant belly, indicating she is pregnant. her left hand is extended, with a long, skeletal creature coiled around it, extending from her hand to her belly., dress, kotarochiba. this digital illustration features two stylized, fantastical characters dining in a vibrant, surreal setting. the character on the left has long, white hair and is wearing a black outfit with a star pattern. they are slurping noodles from a large, white bowl filled with noodles and what appears to be various toppings, using chopsticks. this character's eyes are closed, and their expression is focused on the food., moody aesthetic, anime-inspired figure. the artwork is set in a circular frame, with an intricate, detailed background that resembles a stylized, textured fabric or parchment. the background features abstract, swirling patterns and silhouettes of plants and flowers, contributing to the overall eerie, dreamlike atmosphere., stylized drawing with a circular format, reminiscent of traditional japanese art, specifically ukiyo-e style. the artwork depicts two figures in a serene, almost ethereal setting. the figure on the left is a woman with short, light purple hair styled in a bob, wearing a black sleeveless top. she has a pale complexion and a serene expression, looking towards the man on the right. her eyes are large and almond-shaped, with a hint of sadness or contemplation., reminiscent of modern graphic novel illustrations or manga. the subject is a young woman with a pale, smooth skin tone and a short, bob-cut hairstyle in a light gray. she is dressed in a traditional, flowing kimono, predominantly in shades of blue and gray, with intricate patterns and folds depicted subtly. the kimono's sleeves are loose and draped, indicating a serene and contemplative pose. her eyes are closed, and her hands are clasped together in a praying or meditative position, adding to the serene atmosphere., monochromatic style. it features the back view of a person with a sleek, bobbed haircut styled in a straight, dark brown bob that ends just above the shoulders. the person is wearing a high-necked, long-sleeved top with a white or light-colored collar, and a dark, outer garment that covers most of their upper body. the texture of the illustration suggests a distressed, aged paper or canvas, with a subtle grainy effect and muted color palette dominated by sepia and beige tones, giving the image a vintage, worn appearance., from behind, dark fantasy theme. the artwork features a figure with a pale, androgynous face and short, silver-white hair with bangs, which falls just above the eyebrows. the figure is dressed in a traditional, dark outfit with a contrasting bright orange-red cloak or robe, which adds a striking visual contrast. the skin tone is a light, almost ghostly white, contributing to the eerie atmosphere., kotarochiba. the image is a monochromatic digital drawing with a muted, sepia color palette. the scene depicts two figures standing back-to-back against a textured, gradient background that transitions from a light to a darker shade., manga-inspired style. it features a profile view of a young woman with a striking, exaggerated hairstyle. the woman has a very voluminous, asymmetrical bob haircut with straight, light blonde hair that is styled in a large, pouf on one side of her head. her hair color is a light beige, contrasting against the off-white, textured background that resembles aged parchment paper, giving it an old-world, slightly worn appearance., anime-inspired art style with a dark and eerie aesthetic. the subject is a young person with pale skin and short, dark hair, styled in a bob cut with blunt bangs. they have sharp, angular features and piercing red eyes, giving them a sinister appearance. the character is dressed in a black jacket with a detailed design on the back, featuring japanese text and a stylized, demonic figure with a red body and horns., kotarochiba. this is a digital illustration with a stylized, somewhat anime-inspired aesthetic. the scene depicts a young woman with long, straight brown hair, wearing a black kimono-style coat over a white shirt. she has a serene expression and is holding a microphone, indicating she might be singing or speaking at an event. the background features a vibrant, textured pattern with a reddish gradient and a mix of soft pastel and earthy tones., kotarochiba. this digital artwork, rendered in a stylized, somewhat manga-inspired art style, depicts a serene, fantastical scene. the central figure is a young woman with pale skin and striking, asymmetrical hair styled in a high ponytail on one side and loose on the other, adorned with a small, delicate flower. she wears a traditional japanese-style kimono with a soft pink and white pattern, featuring large, bold circles, and a green obi sash tied in the front., kotarochiba. this is a digital illustration featuring a stylized, surreal scene with a focus on a person and a snake. the person, depicted in the center, is a young woman with a pale, white hair with blunt bangs. she has large, almond-shaped eyes that are partially obscured by long, straight bangs, giving a somewhat eerie, mysterious expression. she is wearing a traditional japanese kimono with a black outer robe and a red undergarment, visible at the neck., snake, porcelain skin and short, straight black hair with bangs styled straight across her forehead. her eyes are an striking red, giving her an otherworldly appearance. she has a slender, almost delicate physique, and her facial expression is contemplative, with her right hand gently touching her chin and her left arm resting on her lap., kotarochiba. the image is a digital drawing featuring a stylized, minimalist depiction of a young woman. she is depicted in a traditional japanese kimono, rendered in a flat, graphic style with a muted color palette dominated by shades of red and black. her kimono is a deep, rich red, intricately patterned with subtle, textured details that give it a sense of depth and texture., detailed manner, blending elements of surrealism and dark fantasy. the subject is a young woman with pale skin and short, slicked-back black hair. she has a sharp, angular face with prominent cheekbones and a small, pointed nose. her eyes are piercing, with a hint of intensity, and she wears round, wire-framed glasses. she is dressed in a black sleeveless vest over a white collared shirt, exuding a gothic, intellectual vibe., kotarochiba. this is a digital artwork rendered in a stylized, modern manga-inspired style, divided into three vertical panels. each panel features a stylized, fantastical scene with a female figure in traditional japanese attire interacting with a stylized, mythical creature., stylized art style with a muted color palette, stylized illustration of a woman. the subject, depicted with a modern, short haircut and a subtle, serene expression, is draped in a traditional japanese robe, or kimono. the kimono's pattern is intricate and delicate, rendered in shades of soft blue and white, blending seamlessly into the background., abstract style with a dark, muted color palette dominated by deep browns and grays, accented by a striking golden orange. the central figure is a stylized, ethereal woman with long, flowing silver hair cascading down to her waist. she has a slender, elongated body with a pale skin tone, and her attire consists of a long, flowing robe that covers her from her neck to her feet. she is depicted in a mid-jump pose, one leg bent, the other extended, and her right arm extended as if reaching out or grasping something., kotarochiba. the image is a digital drawing in a dark, ethereal scene. at the center is a figure, possibly a woman or androgynous person, playing a traditional japanese stringed instrument called a shamisen. the figure has long, light pink hair cascading down their back and shoulders. they wear a traditional, flowing black kimono with wide sleeves, which billow out dramatically around them, adding to the sense of movement. the kimono is open, revealing a glimpse of a white undergarment. the person is depicted in a relaxed, almost meditative pose, with one hand gently plucking the strings of the shamisen and the other arm extended gracefully., instrument, dragon, modern art style, showcasing a stylized figure standing in a stylized, patterned background. the subject is a young man with a pale complexion and short, dark hair. he has sharp, defined facial features and a stern expression. his outfit is a combination of modern and avant-garde fashion, consisting of a loose, oversized, beige coat with a high collar and wide, oversized sleeves. underneath the coat, he wears a dark, long-sleeved top and baggy, multi-tonal pants with a patchwork pattern of light and dark brown stripes. his footwear is a pair of worn-out, light brown shoes., male focus, 1boy, featuring a tall, slender figure of an androgynous warrior. the figure stands against a plain white background, making the detailed design stand out sharply. the warrior's skin is pale, almost ethereal, with a sharp, angular face and a high, pointed hairstyle. they have a stern, focused expression., kotarochiba. the image is a digital drawing of a fantastical figure, likely a witch or mage, set against a plain white background. the character is depicted in a minimalist, stylized art style with a focus on soft, muted tones of blue and white., kotarochiba. the image is a digital drawing of a tall, imposing figure with a stylized, ethereal appearance. the subject is a large, bald humanoid figure standing in a central position against a plain, light gray background. the figure's skin is a pale, almost translucent white, giving it a ghostly or otherworldly appearance., digital illustration with a soft, muted color palette featuring a stylized urban scene under a large, elevated train or subway structure. the illustration is rendered in a manga-inspired style with clean lines and minimal shading., kotarochiba. this digital drawing features a striking, ethereal figure that blends elements of horror and fantasy art. the central character is depicted as a woman with a haunting, otherworldly appearance. she stands against a plain, light gray background, which contrasts starkly with her dark, flowing attire and the vivid red flames that she holds. her hair is a mass of writhing, serpentine tendrils that resemble medusa’s snakes, cascading down her back and around her face, which is deathly pale and expressionless, giving her an eerie, undead appearance., surreal art nouveau style. it features a stylized, androgynous figure with a pale, almost translucent skin and a shaved head, adorned with a flowing, white mane of hair that seems to defy gravity, cascading down and blending into the background. the figure wears round, thick-rimmed glasses and has a serene, almost melancholic expression. they are dressed in a pastel pink, geometric-patterned kimono with stylized, abstract designs., kotarochiba. this digital illustration features a stylized, ethereal scene of a woman with an otherworldly aura. she is depicted in a serene, contemplative pose, seated or floating, with her body slightly tilted to the right. her skin is pale, and she has a slender, almost gaunt figure. she has long, flowing silver hair styled in an elegant updo, with strands cascading down her back. her eyes are closed, giving a sense of peacefulness or introspection., traditional japanese woodblock print style. the subject is a person, likely male, standing outdoors on a grassy field. the individual is dressed in a traditional japanese kimono with wide, horizontal black and white stripes, which billows out dramatically around them, suggesting motion. the kimono's sleeves and hem are adorned with purple cords, adding a touch of color to the monochromatic outfit. the person's hair is styled in a traditional japanese topknot, with a few strands flying out to the side, indicating they are in motion., slightly surreal style. it features a young person and a large, slender, elongated creature, likely a dog or an unusual animal, possibly an anatolian shepherd, standing on a pedestal or platform. the person has long, dark hair and is dressed in a black, fitted suit with a white shirt underneath, paired with white sneakers. they are holding a red leash attached to the creature's collar. the person's expression is neutral to slightly contemplative, leash, kotarochiba. this image is a digital drawing with a surreal, abstract style, featuring an intricate, and mysterious composition. the artwork utilizes muted, earthy tones with an emphasis on dark browns, grays, and blacks, creating a somber atmosphere., kotarochiba. the image is a detailed digital illustration with a surreal, fantastical style. the scene features a young woman with a slender, elongated figure, wearing a long, black dress with a subtle texture, and a pair of high-heeled shoes. she has long, dark hair tied back and is positioned in the lower left quadrant of the image, leaning slightly forward and looking upwards., kotarochiba. this is a digital illustration in a whimsical, stylized art style. the subject is a stylized humanoid figure with a blend of human and fantastical elements. the figure is depicted mid-flight or levitating against a deep navy blue background, which has a subtle texture resembling a textured fabric or an old map. the figure is dressed in a flowing, layered skirt made of stylized, overlapping leaves or petals, in shades of teal and blue, giving it a plant-like appearance., kotarochiba. this image is a detailed digital illustration with a surreal fantastical style. the scene features a geisha holding chopsticks. kotarochiba. 1girl ## Trigger words You should use `see the list in the description` to trigger the image generation. ## Download model Weights for this model are available in Safetensors format. [Download](/pookienumnums/KoChi/tree/main) them in the Files & versions tab.
Kyle123as/Qwen3-lora1_0606	Kyle123as	2025-06-06T10:11:12Z	0	0	transformers	[ "transformers", "unsloth", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	null	2025-06-06T10:11:10Z	--- library_name: transformers tags: - unsloth --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. This model card has been automatically generated. - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. 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Kyle123as/Qwen3-lora_0606	Kyle123as	2025-06-06T10:11:10Z	0	0	transformers	[ "transformers", "safetensors", "text-generation-inference", "unsloth", "qwen3", "trl", "en", "license:apache-2.0", "endpoints_compatible", "region:us" ]	null	2025-06-06T10:10:57Z	--- base_model: unsloth/qwen3-14b-unsloth-bnb-4bit tags: - text-generation-inference - transformers - unsloth - qwen3 - trl license: apache-2.0 language: - en --- # Uploaded model - Developed by: Kyle123as - License: apache-2.0 - Finetuned from model : unsloth/qwen3-14b-unsloth-bnb-4bit This qwen3 model was trained 2x faster with [Unsloth](https://github.com/unslothai/unsloth) and Huggingface's TRL library. [<img src="https://raw.githubusercontent.com/unslothai/unsloth/main/images/unsloth%20made%20with%20love.png" width="200"/>](https://github.com/unslothai/unsloth)
speakleash/Bielik-11B-v2.5-Instruct-FP8-Dynamic	speakleash	2025-06-06T10:09:36Z	0	1	transformers	[ "transformers", "safetensors", "llama", "text-generation", "finetuned", "gguf", "8bit", "conversational", "pl", "base_model:speakleash/Bielik-11B-v2.5-Instruct", "base_model:quantized:speakleash/Bielik-11B-v2.5-Instruct", "license:apache-2.0", "autotrain_compatible", "text-generation-inference", "compressed-tensors", "region:us" ]	text-generation	2025-06-06T09:36:25Z	--- language: - pl license: apache-2.0 library_name: transformers tags: - finetuned - gguf - 8bit inference: false pipeline_tag: text-generation base_model: speakleash/Bielik-11B-v2.5-Instruct --- <p align="center"> <img src="https://huggingface.co/speakleash/Bielik-11B-v2/raw/main/speakleash_cyfronet.png"> </p> # Bielik-11B-v2.5-Instruct-FP8-Dynamic This model was obtained by quantizing the weights and activations of [Bielik-11B-v2.5-Instruct](https://huggingface.co/speakleash/Bielik-11B-v2.5-Instruct) to FP8 data type, ready for inference with vLLM >= 0.5.0 or SGLang. AutoFP8 is used for quantization. This optimization reduces the number of bits per parameter from 16 to 8, reducing the disk size and GPU memory requirements by approximately 50%. Only the weights and activations of the linear operators within transformers blocks are quantized. Symmetric per-tensor quantization is applied, in which a single linear scaling maps the FP8 representations of the quantized weights and activations. FP8 compuation is supported on Nvidia GPUs with compute capability > 8.9 (Ada Lovelace, Hopper). DISCLAIMER: Be aware that quantised models show reduced response quality and possible hallucinations! ## Use with vLLM This model can be deployed efficiently using the [vLLM](https://docs.vllm.ai/en/latest/) backend, as shown in the example below. ```python from vllm import LLM, SamplingParams from transformers import AutoTokenizer model_id = "speakleash/Bielik-11B-v2.5-Instruct-FP8-Dynamic" sampling_params = SamplingParams(temperature=0.2, top_p=0.95, max_tokens=4096) tokenizer = AutoTokenizer.from_pretrained(model_id) messages = [ {"role": "system", "content": "Jesteś pomocnym asystentem Bielik."}, {"role": "user", "content": "Kim był Mikołaj Kopernik i z czego zasłynął?"}, ] prompts = tokenizer.apply_chat_template(messages, tokenize=False) llm = LLM(model=model_id, max_model_len=4096) outputs = llm.generate(prompts, sampling_params) generated_text = outputs[0].outputs[0].text print(generated_text) ``` vLLM aslo supports OpenAI-compatible serving. See the [documentation](https://docs.vllm.ai/en/latest/) for more details. ## Use with SGLang Runtime Launch a server of SGLang Runtime: ``` python -m sglang.launch_server --model-path speakleash/Bielik-11B-v2.5-Instruct-FP8-Dynamic --port 30000 ``` Then you can send http request or use OpenAI Compatible API. ```python import openai client = openai.Client( base_url="http://127.0.0.1:30000/v1", api_key="EMPTY") response = client.chat.completions.create( model="default", messages=[ {"role": "system", "content": "Jesteś pomocnym asystentem Bielik."}, {"role": "user", "content": "Kim był Mikołaj Kopernik i z czego zasłynął?"}, ], temperature=0, max_tokens=4096, ) print(response) ``` ### Model description: * Developed by: [SpeakLeash](https://speakleash.org/) & [ACK Cyfronet AGH](https://www.cyfronet.pl/) * Language: Polish * Model type: causal decoder-only * Quant from: [Bielik-11B-v2.5-Instruct](https://huggingface.co/speakleash/Bielik-11B-v2.5-Instruct) * Finetuned from: [Bielik-11B-v2](https://huggingface.co/speakleash/Bielik-11B-v2) * License: Apache 2.0 and [Terms of Use](https://bielik.ai/terms/) ### Responsible for model quantization * [Remigiusz Kinas](https://www.linkedin.com/in/remigiusz-kinas/)<sup>SpeakLeash</sup> - team leadership, conceptualizing, calibration data preparation, process creation and quantized model delivery. ## Contact Us If you have any questions or suggestions, please use the discussion tab. If you want to contact us directly, join our [Discord SpeakLeash](https://discord.gg/CPBxPce4).
luckeciano/Qwen-2.5-7B-GRPO-NoBaseline_638	luckeciano	2025-06-06T10:05:45Z	0	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "generated_from_trainer", "open-r1", "trl", "grpo", "conversational", "dataset:DigitalLearningGmbH/MATH-lighteval", "arxiv:2402.03300", "base_model:Qwen/Qwen2.5-Math-7B", "base_model:finetune:Qwen/Qwen2.5-Math-7B", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T05:59:48Z	--- base_model: Qwen/Qwen2.5-Math-7B datasets: DigitalLearningGmbH/MATH-lighteval library_name: transformers model_name: Qwen-2.5-7B-GRPO-NoBaseline_638 tags: - generated_from_trainer - open-r1 - trl - grpo licence: license --- # Model Card for Qwen-2.5-7B-GRPO-NoBaseline_638 This model is a fine-tuned version of [Qwen/Qwen2.5-Math-7B](https://huggingface.co/Qwen/Qwen2.5-Math-7B) on the [DigitalLearningGmbH/MATH-lighteval](https://huggingface.co/datasets/DigitalLearningGmbH/MATH-lighteval) dataset. It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="luckeciano/Qwen-2.5-7B-GRPO-NoBaseline_638", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure [<img src="https://raw.githubusercontent.com/wandb/assets/main/wandb-github-badge-28.svg" alt="Visualize in Weights & Biases" width="150" height="24"/>](https://wandb.ai/max-ent-llms/PolicyGradientStability/runs/sdu4t2s4) This model was trained with GRPO, a method introduced in [DeepSeekMath: Pushing the Limits of Mathematical Reasoning in Open Language Models](https://huggingface.co/papers/2402.03300). ### Framework versions - TRL: 0.16.0.dev0 - Transformers: 4.49.0 - Pytorch: 2.6.0 - Datasets: 3.4.1 - Tokenizers: 0.21.1 ## Citations Cite GRPO as: ```bibtex @article{zhihong2024deepseekmath, title = {{DeepSeekMath: Pushing the Limits of Mathematical Reasoning in Open Language Models}}, author = {Zhihong Shao and Peiyi Wang and Qihao Zhu and Runxin Xu and Junxiao Song and Mingchuan Zhang and Y. K. Li and Y. Wu and Daya Guo}, year = 2024, eprint = {arXiv:2402.03300}, } ``` Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallouédec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
duandeyun/Pai-Qwen2.5-VL-32B-Instruct-Lora	duandeyun	2025-06-06T10:03:59Z	0	0	peft	[ "peft", "tensorboard", "safetensors", "qwen2_5_vl", "arxiv:1910.09700", "base_model:Qwen/Qwen2.5-VL-32B-Instruct", "base_model:adapter:Qwen/Qwen2.5-VL-32B-Instruct", "region:us" ]	null	2025-06-06T06:40:12Z	--- base_model: Qwen/Qwen2.5-VL-32B-Instruct library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> 湃乐多自研大模型Pai ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. Content here should link to that section when it is relevant to the training procedure. --> #### Preprocessing [optional] [More Information Needed] #### Training Hyperparameters - Training regime: [More Information Needed] <!--fp32, fp16 mixed precision, bf16 mixed precision, bf16 non-mixed precision, fp16 non-mixed precision, fp8 mixed precision --> #### Speeds, Sizes, Times [optional] <!-- This section provides information about throughput, start/end time, checkpoint size if relevant, etc. --> [More Information Needed] ## Evaluation <!-- This section describes the evaluation protocols and provides the results. --> ### Testing Data, Factors & Metrics #### Testing Data <!-- This should link to a Dataset Card if possible. --> [More Information Needed] #### Factors <!-- These are the things the evaluation is disaggregating by, e.g., subpopulations or domains. --> [More Information Needed] #### Metrics <!-- These are the evaluation metrics being used, ideally with a description of why. --> [More Information Needed] ### Results [More Information Needed] #### Summary ## Model Examination [optional] <!-- Relevant interpretability work for the model goes here --> [More Information Needed] ## Environmental Impact <!-- Total emissions (in grams of CO2eq) and additional considerations, such as electricity usage, go here. Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. 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tarun7r/Finance-Llama-8B-q4_k_m-GGUF	tarun7r	2025-06-06T10:02:56Z	0	1	transformers	[ "transformers", "gguf", "text-generation-inference", "finance", "economics", "text-generation", "en", "dataset:Josephgflowers/Finance-Instruct-500k", "base_model:tarun7r/Finance-Llama-8B", "base_model:quantized:tarun7r/Finance-Llama-8B", "license:apache-2.0", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T08:36:48Z	--- license: apache-2.0 datasets: - Josephgflowers/Finance-Instruct-500k language: - en base_model: - tarun7r/Finance-Llama-8B pipeline_tag: text-generation library_name: transformers tags: - text-generation-inference - finance - economics --- # Model Card for Finance-Llama-8B-q4_k_m-GGUF This model is a quantized version of `tarun7r/Finance-Llama-8B` fine-tuned on the `Josephgflowers/Finance-Instruct-500k` dataset. It's designed for financial tasks, reasoning, and multi-turn conversations. ## Key Features * Extensive Coverage: Trained on over 500,000 entries spanning financial QA, reasoning, sentiment analysis, topic classification, multilingual NER, and conversational AI.📚 * Multi-Turn Conversations: Capable of rich dialogues emphasizing contextual understanding and reasoning. * Diverse Data Sources: Includes entries from Cinder, Sujet-Finance-Instruct-177k, Phinance Dataset, BAAI/IndustryInstruction_Finance-Economics, Josephgflowers/Financial-NER-NLP, and many other high-quality datasets. * Financial Specialization: Tailored for financial reasoning, question answering, entity recognition, sentiment analysis, and more. ## Dataset Details 💾 ### Finance-Instruct-500k Dataset Overview Finance-Instruct-500k is a comprehensive and meticulously curated dataset designed to train advanced language models for financial tasks, reasoning, and multi-turn conversations. Combining data from numerous high-quality financial datasets, this corpus provides over 500,000 entries, offering unparalleled depth and versatility for finance-related instruction tuning and fine-tuning. The dataset includes content tailored for financial reasoning, question answering, entity recognition, sentiment analysis, address parsing, and multilingual natural language processing (NLP). Its diverse and deduplicated entries make it suitable for a wide range of financial AI applications, including domain-specific assistants, conversational agents, and information extraction systems. Key Features of the Dataset * Extensive Coverage: Over 500,000 entries spanning financial QA, reasoning, sentiment analysis, topic classification, multilingual NER, and conversational AI.🌍 * Multi-Turn Conversations: Rich dialogues emphasizing contextual understanding and reasoning.🗣️ * Diverse Data Sources: Includes entries from Cinder, Sujet-Finance-Instruct-177k, Phinance Dataset, BAAI/IndustryInstruction_Finance-Economics, Josephgflowers/Financial-NER-NLP, and many other high-quality datasets. 📖 ### Ollama You can also use this model with Ollama. Pre-built GGUF versions (FP16 and Q4_K_M) are available at: [ollama.com/martain7r/finance-llama-8b](https://ollama.com/martain7r/finance-llama-8b) To run the FP16 version: ```bash ollama run martain7r/finance-llama-8b:fp16 ``` To run the Q4_K_M quantized version (smaller and faster, with a slight trade-off in quality): ```bash ollama run martain7r/finance-llama-8b:q4_k_m ``` To run the Finance-Llama-8B-q4_k_m-GGUF quantized model, you'll use llama.cpp via the llama-cpp-python library instead of Hugging Face Transformers. Here's the step-by-step solution: 1. Install Required Libraries ```bash pip install llama-cpp-python huggingface-hub ``` 2. Download the GGUF Model Use the Hugging Face Hub to download the quantized model file: ```bash from huggingface_hub import hf_hub_download model_name = "tarun7r/Finance-Llama-8B-q4_k_m-GGUF" # Check for the correct repository model_file = "Finance-Llama-8B-GGUF-q4_K_M.gguf" # Exact GGUF filename model_path = hf_hub_download( repo_id=model_name, filename=model_file, local_dir="./models" ) ``` 3. Run the Quantized Model ```bash from llama_cpp import Llama # Initialize the model llm = Llama( model_path=model_path, n_ctx=8192, # Context window size n_threads=8, # CPU threads for inference n_gpu_layers=-1, # Offload all layers to GPU verbose=False # Disable verbose logging ) # Define the prompt template finance_prompt_template = """Below is an instruction that describes a task, paired with an input that provides further context. Write a response that appropriately completes the request. ### Instruction: {instruction} ### Input: {input} ### Response: """ # Format the prompt system_message = "You are a highly knowledgeable finance chatbot. Your purpose is to provide accurate, insightful, and actionable financial advice." user_question = "What strategies can an individual investor use to diversify their portfolio effectively in a volatile market?" prompt = finance_prompt_template.format( instruction=system_message, input=user_question ) # Generate response output = llm( prompt, max_tokens=2500, # Limit response length temperature=0.7, # Creativity control top_p=0.9, # Nucleus sampling echo=False, # Return only the completion (not prompt) stop=["###"] # Stop at "###" to avoid extra text ) # Extract and print the response response = output["choices"][0]["text"].strip() print("\n--- Response ---") print(response) ``` Citation 📌 ```` @misc{tarun7r/Finance-Llama-8B, author = {tarun7r}, title = {tarun7r/Finance-Llama-8B: A Llama 3.1 8B Model Fine-tuned on Josephgflowers/Finance-Instruct-500k}, year = {2025}, publisher = {Hugging Face}, journal = {Hugging Face Model Hub}, howpublished = {\url{https://huggingface.co/tarun7r/Finance-Llama-8B}} } ````
Uni-MoE/VerIPO-7B-v1.0	Uni-MoE	2025-06-06T10:00:52Z	0	0	transformers	[ "transformers", "safetensors", "qwen2_5_vl", "image-text-to-text", "Video-LLMs", "Long-Reasoning-Video-Model", "Video-R1", "video-text-to-text", "en", "dataset:none", "arxiv:2505.19000", "base_model:Qwen/Qwen2.5-VL-7B-Instruct", "base_model:finetune:Qwen/Qwen2.5-VL-7B-Instruct", "license:apache-2.0", "text-generation-inference", "endpoints_compatible", "region:us" ]	video-text-to-text	2025-06-05T06:19:50Z	--- datasets: none library_name: transformers licence: license license: apache-2.0 language: - en base_model: - Qwen/Qwen2.5-VL-7B-Instruct pipeline_tag: video-text-to-text tags: - Video-LLMs - Long-Reasoning-Video-Model - Video-R1 --- <a href="https://arxiv.org/abs/2505.19000" target="_blank"> <img alt="arXiv" src="https://img.shields.io/badge/arXiv-VerIPO-red?logo=arxiv" height="20" /> </a> <a href="https://github.com/HITsz-TMG/VerIPO" style="display: inline-block; margin-right: 10px;"> <img alt="GitHub Code" src="https://img.shields.io/badge/Code-VerIPO-white?&logo=github&logoColor=white" /> </a> # VerIPO: Long Reasoning Video-R1 Model with Iterative Policy Optimization VerIPO is a fine-tuned version of [Qwen2.5-VL](https://github.com/QwenLM/Qwen2.5-VL). It has been trained using [OpenRLHF](https://github.com/OpenRLHF/OpenRLHF). ## Quick start ```python from transformers import Qwen2_5_VLForConditionalGeneration, AutoProcessor from qwen_vl_utils import process_vision_info model = Qwen2_5_VLForConditionalGeneration.from_pretrained( "Uni-MoE/VerIPO-7B-v1.0", torch_dtype=torch.bfloat16, attn_implementation="flash_attention_2", device_map="auto", ) processor = AutoProcessor.from_pretrained("Uni-MoE/VerIPO-7B-v1.0") messages = [ { "role": "user", "content": [ { "type": "video", "video": "file:///path/to/video1.mp4", "max_pixels": 1282828, "max_frames": 128, "fps": 2.0 }, {"type": "text", "text": "Describe this video."}, ], } ] text = processor.apply_chat_template( messages, tokenize=False, add_generation_prompt=True ) image_inputs, video_inputs, video_kwargs = process_vision_info(messages, return_video_kwargs=True) inputs = processor( text=[text], images=image_inputs, videos=video_inputs, padding=True, return_tensors="pt", video_kwargs, ) inputs = inputs.to(model.device) # Inference: Generation of the output generated_ids = model.generate(inputs, max_new_tokens=4096, temperature=1e-6, repetition_penalty=1.05) generated_ids_trimmed = [ out_ids[len(in_ids) :] for in_ids, out_ids in zip(inputs.input_ids, generated_ids) ] output_text = processor.batch_decode( generated_ids_trimmed, skip_special_tokens=True, clean_up_tokenization_spaces=False ) print(output_text) ``` ## Experimental Result \| Model \| Params \| VSI-Bench \| Video-MMMU \| MMU (mc) \| TOMATO \| LVBench \| Video-MME (w/o sub) \| \|---------------------\|----------\|-----------------\|------------\|----------\|--------\|--------------------------\|---------\| \| GPT-4o [64] \| - \| 34.0 \| 61.2 \| - \| 37.7 \| 48.9 \| 71.9 \| \| Gemini 1.5 Pro [59] \| - \| 45.4 \| 53.8 \| - \| 36.1 \| 33.1 \| 75.0 \| \| mPLUG-Owl3 [83] \| 7B \| - \| 42.0 \| - \| - \| 43.5 \| 53.5 \| \| LongVa [89] \| 7B \| 29.2 \| 23.9 \| - \| - \| - \| 52.6 \| \| LLaVA-Video [91] \| 7B \| 35.6 \| 36.1 \| - \| - \| - \| 63.3 \| \| LLaVA-OneVision [24]\| 7B \| 32.4 \| 33.8 \| 49.2 \| - \| - \| 58.2 \| \| VideoLLaMA2 [9] \| 7B \| - \| - \| 44.8 \| - \| - \| 47.9 \| \| VideoLLaMA3 [86] \| 7B \| - \| 47.0 \| - \| - \| 45.3 \| 66.2 \| \| VILA-1.5 [33] \| 8B \| 28.9 \| 20.8 \| - \| - \| - \| - \| \| InternV-L5 [33] \| 40B \| 31.2 \| 34.0 \| - \| - \| - \| 60.1 \| \| InternVL2 [63] \| 8B \| 34.6 \| 37.4 \| 39.0 \| 21.7 \| - \| 54.0 \| \| InternVL2 [63] \| 40B \| 36.0 \| - \| - \| 29.0 \| 39.6 \| 61.2 \| \| InternVL2.5 [8] \| 8B \| - \| - \| - \| - \| - \| 64.2 \| \| InternVL2.5 [8] \| 26B \| - \| - \| - \| - \| - \| 66.9 \| \| InternVideo2.5 [70] \| 8B \| - \| 43.0 \| - \| - \| 46.4 \| 65.1 \| \| Llama-3.2-Vision [62]\| 11B \| 20.6 \| 41.8 \| - \| 21.5 \| - \| 46.0 \| \| Gemma-3-JT [60] \| 12B \| 32.4 \| _57.2_ \| - \| 28.1 \| - \| 58.2 \| \| Kimi-VL [61] \| 16B (A3B)\| 37.4 \| 52.6 \| - \| _31.7_ \| - \| 67.8\| \| DeepSeek-VL2 [77] \| 28B (A4B)\| 21.7 \| - \| - \| 27.2 \| - \| - \| \| Qwen2.5-VL [2] \| 7B \| 37.5 \| 54.3 \| 67.2 \| 29.3 \| 42.8 \| 66.2 \| \| TinyLLaVA-Video-R1 [90]\| 3B \| - \| - \| 46.9 \| - \| - \| 46.6 \| \| Qwen2.5-VL (thinking)[2]\| 7B \| _23.8_ \| 46.8 \| 63.0 \| 25.8 \| _35.2_ \| 60.4 \| \| Video-R1 [18] \| 7B \| 35.8 \| _52.3_ \| 64.3 \| - \| - \| 59.3 \| \| Kimi-VL-Thinking [61]\| 16B (A3B)\| 32.2 \| - \| 56.8 \| 20.6 \| 30.0 \| - \| \| VerlPo (Iteration1) \| 7B \| 41.8 \| 56.2 \| 65.9 \| _31.6_ \| _41.5_ \| 67.2 \| \| VerlPo (Iteration2) \| 7B \| 41.0 \| 57.9 \| 66.9 \| 31.5 \| 41.7 \| 67.6 \| \| VerlPo (Iteration3) \| 7B \| _41.3_ \| 56.8 \| _66.7_ \| 32.2 \| 41.7 \| 67.2 \| # Citations ```bibtex @article{li2025veripo, title={VerIPO: Cultivating Long Reasoning in Video-LLMs via Verifier-Gudied Iterative Policy Optimization}, author={Li, Yunxin and Chen, Xinyu and Li, Zitao and Liu, Zhenyu and Wang, Longyue and Luo, Wenhan and Hu, Baotian and Zhang, Min}, journal={arXiv preprint arXiv:2505.19000}, year={2025} } ```
xiuan/ppo-LunarLander-v2	xiuan	2025-06-06T10:00:42Z	0	0	stable-baselines3	[ "stable-baselines3", "LunarLander-v2", "deep-reinforcement-learning", "reinforcement-learning", "model-index", "region:us" ]	reinforcement-learning	2025-06-06T10:00:23Z	--- library_name: stable-baselines3 tags: - LunarLander-v2 - deep-reinforcement-learning - reinforcement-learning - stable-baselines3 model-index: - name: PPO results: - task: type: reinforcement-learning name: reinforcement-learning dataset: name: LunarLander-v2 type: LunarLander-v2 metrics: - type: mean_reward value: 260.18 +/- 12.47 name: mean_reward verified: false --- # PPO Agent playing LunarLander-v2 This is a trained model of a PPO agent playing LunarLander-v2 using the [stable-baselines3 library](https://github.com/DLR-RM/stable-baselines3). ## Usage (with Stable-baselines3) TODO: Add your code ```python from stable_baselines3 import ... from huggingface_sb3 import load_from_hub ... ```
Stefano-M/c200	Stefano-M	2025-06-06T09:59:54Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:meta-llama/Llama-3.1-8B-Instruct", "base_model:adapter:meta-llama/Llama-3.1-8B-Instruct", "region:us" ]	null	2025-06-06T09:58:58Z	--- base_model: meta-llama/Meta-Llama-3.1-8B-Instruct library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. (2019)](https://arxiv.org/abs/1910.09700). - Hardware Type: [More Information Needed] - Hours used: [More Information Needed] - Cloud Provider: [More Information Needed] - Compute Region: [More Information Needed] - Carbon Emitted: [More Information Needed] ## Technical Specifications [optional] ### Model Architecture and Objective [More Information Needed] ### Compute Infrastructure [More Information Needed] #### Hardware [More Information Needed] #### Software [More Information Needed] ## Citation [optional] <!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. --> BibTeX: [More Information Needed] APA: [More Information Needed] ## Glossary [optional] <!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. --> [More Information Needed] ## More Information [optional] [More Information Needed] ## Model Card Authors [optional] [More Information Needed] ## Model Card Contact [More Information Needed] ## Training procedure The following `bitsandbytes` quantization config was used during training: - quant_method: bitsandbytes - _load_in_8bit: False - _load_in_4bit: True - llm_int8_threshold: 6.0 - llm_int8_skip_modules: None - llm_int8_enable_fp32_cpu_offload: False - llm_int8_has_fp16_weight: False - bnb_4bit_quant_type: nf4 - bnb_4bit_use_double_quant: True - bnb_4bit_compute_dtype: bfloat16 - bnb_4bit_quant_storage: uint8 - load_in_4bit: True - load_in_8bit: False ### Framework versions - PEFT 0.7.0
hardik-0212/my_model	hardik-0212	2025-06-06T09:57:20Z	0	0	null	[ "region:us" ]	null	2025-06-05T08:05:07Z	# 🧠 Machine Learning Model Comparison – Classification Project This project compares a variety of supervised machine learning algorithms to evaluate their performance on structured classification tasks. Each model was analyzed based on speed, accuracy, and practical usability. --- ## 📌 Models Included \| No. \| Model Name \| Type \| \|-----\|------------------------\|-----------------------------\| \| 1 \| Logistic Regression \| Linear Model \| \| 2 \| Random Forest \| Ensemble (Bagging) \| \| 3 \| K-Nearest Neighbors \| Instance-Based (Lazy) \| \| 4 \| XGBoost \| Gradient Boosting \| \| 5 \| Support Vector Machine \| Margin-based Classifier \| \| 6 \| ANN (MLPClassifier) \| Neural Network \| \| 7 \| LightGBM \| Gradient Boosting (Histogram) \| \| 8 \| Naive Bayes \| Probabilistic \| --- ## 📊 Accuracy Summary \| Model \| Accuracy (%) \| Speed \| \|---------------------\|--------------\|---------------\| \| Logistic Regression \| ~84% \| 🔥 Very Fast \| \| Random Forest \| ~95% \| ⚡ Medium \| \| KNN \| ~84% \| 🐢 Slow \| \| XGBoost \| ~90% \| ⚡ Medium \| \| SVM \| ~85% \| ⚡ Medium \| \| ANN (MLP) \| ~51% \| ⚡ Medium \| \| LightGBM \| ~90% \| 🚀 Fastest \| \| Naive Bayes \| ~80% \| 🚀 Extremely Fast \| --- ## 🧠 Model Descriptions --- ### 1. Logistic Regression - A linear model that predicts class probabilities using a sigmoid function. - ✅ Best for interpretable and quick binary classification. - ❌ Not ideal for non-linear or complex patterns. --- ### 2. Random Forest - An ensemble of decision trees with majority voting. - ✅ Excellent accuracy and robustness. - ❌ Slower and harder to interpret than simpler models. --- ### 3. K-Nearest Neighbors (KNN) - A lazy learner that predicts based on the nearest data points. - ✅ Simple and training-free. - ❌ Very slow for large datasets; sensitive to noise. --- ### 4. XGBoost - A boosting algorithm that builds trees sequentially to minimize error. - ✅ High accuracy, regularization, built-in feature importance. - ❌ Slightly complex tuning; slower than simpler models. --- ### 5. Support Vector Machine (SVM) - Separates classes by finding the maximum margin hyperplane. - ✅ Excellent for high-dimensional or non-linear data. - ❌ Doesn’t scale well; requires feature scaling. --- ### 6. ANN (MLPClassifier – sklearn) - A basic feedforward neural network with hidden layers. - ✅ Capable of learning complex patterns. - ❌ Low accuracy in this project; needs better tuning and data scaling. --- ### 7. LightGBM - A gradient boosting framework optimized for speed and memory. - ✅ Faster than XGBoost, supports categorical features directly. - ❌ Can overfit small datasets if not tuned well. --- ### 8. Naive Bayes (GaussianNB) - A probabilistic classifier assuming feature independence. - ✅ Fastest model; works well for text and high-dimensional data. - ❌ Feature independence rarely true; weak for complex patterns. --- ## 🧪 Recommendation Summary \| Best For \| Model \| \|----------------------\|--------------------\| \| Highest Accuracy \| Random Forest \| \| Fastest Training \| Naive Bayes \| \| Best for Large Data \| LightGBM \| \| Best Baseline \| Logistic Regression\| \| Best for Clean Data \| SVM \| \| Best for Speed + Accuracy \| XGBoost \| --- ## 📎 Resources Included - 📁 `model.pkl` files for each classifier - 📄 `cart.docx` with graphs, charts, and performance analysis - 🧾 This `README.md` as the model card For more information check cart.docx file. --- ## 🔧 How to Use ```python from joblib import load model = load("XGBoost_model.pkl") prediction = model.predict(["Sample input text"]) print(prediction)
bob1-bob2/CartPole-v1	bob1-bob2	2025-06-06T09:56:52Z	0	0	null	[ "CartPole-v1", "reinforce", "reinforcement-learning", "custom-implementation", "deep-rl-class", "model-index", "region:us" ]	reinforcement-learning	2025-06-06T09:56:46Z	--- tags: - CartPole-v1 - reinforce - reinforcement-learning - custom-implementation - deep-rl-class model-index: - name: CartPole-v1 results: - task: type: reinforcement-learning name: reinforcement-learning dataset: name: CartPole-v1 type: CartPole-v1 metrics: - type: mean_reward value: 136.30 +/- 12.45 name: mean_reward verified: false --- # Reinforce Agent playing CartPole-v1 This is a trained model of a Reinforce agent playing CartPole-v1 . To learn to use this model and train yours check Unit 4 of the Deep Reinforcement Learning Course: https://huggingface.co/deep-rl-course/unit4/introduction
emilecornamusaz/MNLP_M3_document_encoder	emilecornamusaz	2025-06-06T09:56:35Z	0	0	sentence-transformers	[ "sentence-transformers", "safetensors", "bert", "feature-extraction", "sentence-similarity", "transformers", "mteb", "en", "arxiv:2401.03462", "arxiv:2312.15503", "arxiv:2311.13534", "arxiv:2310.07554", "arxiv:2309.07597", "license:mit", "model-index", "autotrain_compatible", "text-embeddings-inference", "endpoints_compatible", "region:us" ]	feature-extraction	2025-06-06T09:56:00Z	--- tags: - sentence-transformers - feature-extraction - sentence-similarity - transformers - mteb model-index: - name: bge-large-en-v1.5 results: - task: type: Classification dataset: type: mteb/amazon_counterfactual name: MTEB AmazonCounterfactualClassification (en) config: en split: test revision: e8379541af4e31359cca9fbcf4b00f2671dba205 metrics: - type: accuracy value: 75.8507462686567 - type: ap value: 38.566457320228245 - type: f1 value: 69.69386648043475 - task: type: Classification dataset: type: mteb/amazon_polarity name: MTEB AmazonPolarityClassification config: default split: test revision: e2d317d38cd51312af73b3d32a06d1a08b442046 metrics: - type: accuracy value: 92.416675 - type: ap value: 89.1928861155922 - type: f1 value: 92.39477019574215 - task: type: Classification dataset: type: mteb/amazon_reviews_multi name: MTEB AmazonReviewsClassification (en) config: en split: test revision: 1399c76144fd37290681b995c656ef9b2e06e26d metrics: - type: accuracy value: 48.175999999999995 - type: f1 value: 47.80712792870253 - task: type: Retrieval dataset: type: arguana name: MTEB ArguAna config: default split: test revision: None metrics: - type: map_at_1 value: 40.184999999999995 - type: map_at_10 value: 55.654 - type: map_at_100 value: 56.25 - type: map_at_1000 value: 56.255 - type: map_at_3 value: 51.742999999999995 - type: map_at_5 value: 54.129000000000005 - type: mrr_at_1 value: 40.967 - type: mrr_at_10 value: 55.96 - type: mrr_at_100 value: 56.54900000000001 - type: mrr_at_1000 value: 56.554 - type: mrr_at_3 value: 51.980000000000004 - type: mrr_at_5 value: 54.44 - type: ndcg_at_1 value: 40.184999999999995 - type: ndcg_at_10 value: 63.542 - type: ndcg_at_100 value: 65.96499999999999 - type: ndcg_at_1000 value: 66.08699999999999 - type: ndcg_at_3 value: 55.582 - type: ndcg_at_5 value: 59.855000000000004 - type: precision_at_1 value: 40.184999999999995 - type: precision_at_10 value: 8.841000000000001 - type: precision_at_100 value: 0.987 - type: precision_at_1000 value: 0.1 - type: precision_at_3 value: 22.238 - type: precision_at_5 value: 15.405 - type: recall_at_1 value: 40.184999999999995 - type: recall_at_10 value: 88.407 - type: recall_at_100 value: 98.72 - type: recall_at_1000 value: 99.644 - type: recall_at_3 value: 66.714 - type: recall_at_5 value: 77.027 - task: type: Clustering dataset: type: mteb/arxiv-clustering-p2p name: MTEB ArxivClusteringP2P config: default split: test revision: a122ad7f3f0291bf49cc6f4d32aa80929df69d5d metrics: - type: v_measure value: 48.567077926750066 - task: type: Clustering dataset: type: mteb/arxiv-clustering-s2s name: MTEB ArxivClusteringS2S config: default split: test revision: f910caf1a6075f7329cdf8c1a6135696f37dbd53 metrics: - type: v_measure value: 43.19453389182364 - task: type: Reranking dataset: type: mteb/askubuntudupquestions-reranking name: MTEB AskUbuntuDupQuestions config: default split: test revision: 2000358ca161889fa9c082cb41daa8dcfb161a54 metrics: - type: map value: 64.46555939623092 - type: mrr value: 77.82361605768807 - task: type: STS dataset: type: mteb/biosses-sts name: MTEB BIOSSES config: default split: test revision: d3fb88f8f02e40887cd149695127462bbcf29b4a metrics: - type: cos_sim_pearson value: 84.9554128814735 - type: cos_sim_spearman value: 84.65373612172036 - type: euclidean_pearson value: 83.2905059954138 - type: euclidean_spearman value: 84.52240782811128 - type: manhattan_pearson value: 82.99533802997436 - type: manhattan_spearman value: 84.20673798475734 - task: type: Classification dataset: type: mteb/banking77 name: MTEB Banking77Classification config: default split: test revision: 0fd18e25b25c072e09e0d92ab615fda904d66300 metrics: - type: accuracy value: 87.78896103896103 - type: f1 value: 87.77189310964883 - task: type: Clustering dataset: type: mteb/biorxiv-clustering-p2p name: MTEB BiorxivClusteringP2P config: default split: test revision: 65b79d1d13f80053f67aca9498d9402c2d9f1f40 metrics: - type: v_measure value: 39.714538337650495 - task: type: Clustering dataset: type: mteb/biorxiv-clustering-s2s name: MTEB BiorxivClusteringS2S config: default split: test revision: 258694dd0231531bc1fd9de6ceb52a0853c6d908 metrics: - type: v_measure value: 36.90108349284447 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackAndroidRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 32.795 - type: map_at_10 value: 43.669000000000004 - type: map_at_100 value: 45.151 - type: map_at_1000 value: 45.278 - type: map_at_3 value: 40.006 - type: map_at_5 value: 42.059999999999995 - type: mrr_at_1 value: 39.771 - type: mrr_at_10 value: 49.826 - type: mrr_at_100 value: 50.504000000000005 - type: mrr_at_1000 value: 50.549 - type: mrr_at_3 value: 47.115 - type: mrr_at_5 value: 48.832 - type: ndcg_at_1 value: 39.771 - type: ndcg_at_10 value: 50.217999999999996 - type: ndcg_at_100 value: 55.454 - type: ndcg_at_1000 value: 57.37 - type: ndcg_at_3 value: 44.885000000000005 - type: ndcg_at_5 value: 47.419 - type: precision_at_1 value: 39.771 - type: precision_at_10 value: 9.642000000000001 - type: precision_at_100 value: 1.538 - type: precision_at_1000 value: 0.198 - type: precision_at_3 value: 21.268 - type: precision_at_5 value: 15.536 - type: recall_at_1 value: 32.795 - type: recall_at_10 value: 62.580999999999996 - type: recall_at_100 value: 84.438 - type: recall_at_1000 value: 96.492 - type: recall_at_3 value: 47.071000000000005 - type: recall_at_5 value: 54.079 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackEnglishRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 32.671 - type: map_at_10 value: 43.334 - type: map_at_100 value: 44.566 - type: map_at_1000 value: 44.702999999999996 - type: map_at_3 value: 40.343 - type: map_at_5 value: 41.983 - type: mrr_at_1 value: 40.764 - type: mrr_at_10 value: 49.382 - type: mrr_at_100 value: 49.988 - type: mrr_at_1000 value: 50.03300000000001 - type: mrr_at_3 value: 47.293 - type: mrr_at_5 value: 48.51 - type: ndcg_at_1 value: 40.764 - type: ndcg_at_10 value: 49.039 - type: ndcg_at_100 value: 53.259 - type: ndcg_at_1000 value: 55.253 - type: ndcg_at_3 value: 45.091 - type: ndcg_at_5 value: 46.839999999999996 - type: precision_at_1 value: 40.764 - type: precision_at_10 value: 9.191 - type: precision_at_100 value: 1.476 - type: precision_at_1000 value: 0.19499999999999998 - type: precision_at_3 value: 21.72 - type: precision_at_5 value: 15.299 - type: recall_at_1 value: 32.671 - type: recall_at_10 value: 58.816 - type: recall_at_100 value: 76.654 - type: recall_at_1000 value: 89.05999999999999 - type: recall_at_3 value: 46.743 - type: recall_at_5 value: 51.783 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackGamingRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 40.328 - type: map_at_10 value: 53.32599999999999 - type: map_at_100 value: 54.37499999999999 - type: map_at_1000 value: 54.429 - type: map_at_3 value: 49.902 - type: map_at_5 value: 52.002 - type: mrr_at_1 value: 46.332 - type: mrr_at_10 value: 56.858 - type: mrr_at_100 value: 57.522 - type: mrr_at_1000 value: 57.54899999999999 - type: mrr_at_3 value: 54.472 - type: mrr_at_5 value: 55.996 - type: ndcg_at_1 value: 46.332 - type: ndcg_at_10 value: 59.313 - type: ndcg_at_100 value: 63.266999999999996 - type: ndcg_at_1000 value: 64.36 - type: ndcg_at_3 value: 53.815000000000005 - type: ndcg_at_5 value: 56.814 - type: precision_at_1 value: 46.332 - type: precision_at_10 value: 9.53 - type: precision_at_100 value: 1.238 - type: precision_at_1000 value: 0.13699999999999998 - type: precision_at_3 value: 24.054000000000002 - type: precision_at_5 value: 16.589000000000002 - type: recall_at_1 value: 40.328 - type: recall_at_10 value: 73.421 - type: recall_at_100 value: 90.059 - type: recall_at_1000 value: 97.81 - type: recall_at_3 value: 59.009 - type: recall_at_5 value: 66.352 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackGisRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 27.424 - type: map_at_10 value: 36.332 - type: map_at_100 value: 37.347 - type: map_at_1000 value: 37.422 - type: map_at_3 value: 33.743 - type: map_at_5 value: 35.176 - type: mrr_at_1 value: 29.153000000000002 - type: mrr_at_10 value: 38.233 - type: mrr_at_100 value: 39.109 - type: mrr_at_1000 value: 39.164 - type: mrr_at_3 value: 35.876000000000005 - type: mrr_at_5 value: 37.169000000000004 - type: ndcg_at_1 value: 29.153000000000002 - type: ndcg_at_10 value: 41.439 - type: ndcg_at_100 value: 46.42 - type: ndcg_at_1000 value: 48.242000000000004 - type: ndcg_at_3 value: 36.362 - type: ndcg_at_5 value: 38.743 - type: precision_at_1 value: 29.153000000000002 - type: precision_at_10 value: 6.315999999999999 - type: precision_at_100 value: 0.927 - type: precision_at_1000 value: 0.11199999999999999 - type: precision_at_3 value: 15.443000000000001 - type: precision_at_5 value: 10.644 - type: recall_at_1 value: 27.424 - type: recall_at_10 value: 55.364000000000004 - type: recall_at_100 value: 78.211 - type: recall_at_1000 value: 91.74600000000001 - type: recall_at_3 value: 41.379 - type: recall_at_5 value: 47.14 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackMathematicaRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 19.601 - type: map_at_10 value: 27.826 - type: map_at_100 value: 29.017 - type: map_at_1000 value: 29.137 - type: map_at_3 value: 25.125999999999998 - type: map_at_5 value: 26.765 - type: mrr_at_1 value: 24.005000000000003 - type: mrr_at_10 value: 32.716 - type: mrr_at_100 value: 33.631 - type: mrr_at_1000 value: 33.694 - type: mrr_at_3 value: 29.934 - type: mrr_at_5 value: 31.630999999999997 - type: ndcg_at_1 value: 24.005000000000003 - type: ndcg_at_10 value: 33.158 - type: ndcg_at_100 value: 38.739000000000004 - type: ndcg_at_1000 value: 41.495 - type: ndcg_at_3 value: 28.185 - type: ndcg_at_5 value: 30.796 - type: precision_at_1 value: 24.005000000000003 - type: precision_at_10 value: 5.908 - type: precision_at_100 value: 1.005 - type: precision_at_1000 value: 0.13899999999999998 - type: precision_at_3 value: 13.391 - type: precision_at_5 value: 9.876 - type: recall_at_1 value: 19.601 - type: recall_at_10 value: 44.746 - type: recall_at_100 value: 68.82300000000001 - type: recall_at_1000 value: 88.215 - type: recall_at_3 value: 31.239 - type: recall_at_5 value: 37.695 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackPhysicsRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 30.130000000000003 - type: map_at_10 value: 40.96 - type: map_at_100 value: 42.282 - type: map_at_1000 value: 42.392 - type: map_at_3 value: 37.889 - type: map_at_5 value: 39.661 - type: mrr_at_1 value: 36.958999999999996 - type: mrr_at_10 value: 46.835 - type: mrr_at_100 value: 47.644 - type: mrr_at_1000 value: 47.688 - type: mrr_at_3 value: 44.562000000000005 - type: mrr_at_5 value: 45.938 - type: ndcg_at_1 value: 36.958999999999996 - type: ndcg_at_10 value: 47.06 - type: ndcg_at_100 value: 52.345 - type: ndcg_at_1000 value: 54.35 - type: ndcg_at_3 value: 42.301 - type: ndcg_at_5 value: 44.635999999999996 - type: precision_at_1 value: 36.958999999999996 - type: precision_at_10 value: 8.479000000000001 - type: precision_at_100 value: 1.284 - type: precision_at_1000 value: 0.163 - type: precision_at_3 value: 20.244 - type: precision_at_5 value: 14.224999999999998 - type: recall_at_1 value: 30.130000000000003 - type: recall_at_10 value: 59.27 - type: recall_at_100 value: 81.195 - type: recall_at_1000 value: 94.21199999999999 - type: recall_at_3 value: 45.885 - type: recall_at_5 value: 52.016 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackProgrammersRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 26.169999999999998 - type: map_at_10 value: 36.451 - type: map_at_100 value: 37.791000000000004 - type: map_at_1000 value: 37.897 - type: map_at_3 value: 33.109 - type: map_at_5 value: 34.937000000000005 - type: mrr_at_1 value: 32.877 - type: mrr_at_10 value: 42.368 - type: mrr_at_100 value: 43.201 - type: mrr_at_1000 value: 43.259 - type: mrr_at_3 value: 39.763999999999996 - type: mrr_at_5 value: 41.260000000000005 - type: ndcg_at_1 value: 32.877 - type: ndcg_at_10 value: 42.659000000000006 - type: ndcg_at_100 value: 48.161 - type: ndcg_at_1000 value: 50.345 - type: ndcg_at_3 value: 37.302 - type: ndcg_at_5 value: 39.722 - type: precision_at_1 value: 32.877 - type: precision_at_10 value: 7.9 - type: precision_at_100 value: 1.236 - type: precision_at_1000 value: 0.158 - type: precision_at_3 value: 17.846 - type: precision_at_5 value: 12.9 - type: recall_at_1 value: 26.169999999999998 - type: recall_at_10 value: 55.35 - type: recall_at_100 value: 78.755 - type: recall_at_1000 value: 93.518 - type: recall_at_3 value: 40.176 - type: recall_at_5 value: 46.589000000000006 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 27.15516666666667 - type: map_at_10 value: 36.65741666666667 - type: map_at_100 value: 37.84991666666666 - type: map_at_1000 value: 37.96316666666667 - type: map_at_3 value: 33.74974999999999 - type: map_at_5 value: 35.3765 - type: mrr_at_1 value: 32.08233333333334 - type: mrr_at_10 value: 41.033833333333334 - type: mrr_at_100 value: 41.84524999999999 - type: mrr_at_1000 value: 41.89983333333333 - type: mrr_at_3 value: 38.62008333333333 - type: mrr_at_5 value: 40.03441666666666 - type: ndcg_at_1 value: 32.08233333333334 - type: ndcg_at_10 value: 42.229 - type: ndcg_at_100 value: 47.26716666666667 - type: ndcg_at_1000 value: 49.43466666666667 - type: ndcg_at_3 value: 37.36408333333333 - type: ndcg_at_5 value: 39.6715 - type: precision_at_1 value: 32.08233333333334 - type: precision_at_10 value: 7.382583333333334 - type: precision_at_100 value: 1.16625 - type: precision_at_1000 value: 0.15408333333333332 - type: precision_at_3 value: 17.218 - type: precision_at_5 value: 12.21875 - type: recall_at_1 value: 27.15516666666667 - type: recall_at_10 value: 54.36683333333333 - type: recall_at_100 value: 76.37183333333333 - type: recall_at_1000 value: 91.26183333333333 - type: recall_at_3 value: 40.769916666666674 - type: recall_at_5 value: 46.702333333333335 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackStatsRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 25.749 - type: map_at_10 value: 33.001999999999995 - type: map_at_100 value: 33.891 - type: map_at_1000 value: 33.993 - type: map_at_3 value: 30.703999999999997 - type: map_at_5 value: 31.959 - type: mrr_at_1 value: 28.834 - type: mrr_at_10 value: 35.955 - type: mrr_at_100 value: 36.709 - type: mrr_at_1000 value: 36.779 - type: mrr_at_3 value: 33.947 - type: mrr_at_5 value: 35.089 - type: ndcg_at_1 value: 28.834 - type: ndcg_at_10 value: 37.329 - type: ndcg_at_100 value: 41.79 - type: ndcg_at_1000 value: 44.169000000000004 - type: ndcg_at_3 value: 33.184999999999995 - type: ndcg_at_5 value: 35.107 - type: precision_at_1 value: 28.834 - type: precision_at_10 value: 5.7669999999999995 - type: precision_at_100 value: 0.876 - type: precision_at_1000 value: 0.11399999999999999 - type: precision_at_3 value: 14.213000000000001 - type: precision_at_5 value: 9.754999999999999 - type: recall_at_1 value: 25.749 - type: recall_at_10 value: 47.791 - type: recall_at_100 value: 68.255 - type: recall_at_1000 value: 85.749 - type: recall_at_3 value: 36.199 - type: recall_at_5 value: 41.071999999999996 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackTexRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 17.777 - type: map_at_10 value: 25.201 - type: map_at_100 value: 26.423999999999996 - type: map_at_1000 value: 26.544 - type: map_at_3 value: 22.869 - type: map_at_5 value: 24.023 - type: mrr_at_1 value: 21.473 - type: mrr_at_10 value: 29.12 - type: mrr_at_100 value: 30.144 - type: mrr_at_1000 value: 30.215999999999998 - type: mrr_at_3 value: 26.933 - type: mrr_at_5 value: 28.051 - type: ndcg_at_1 value: 21.473 - type: ndcg_at_10 value: 30.003 - type: ndcg_at_100 value: 35.766 - type: ndcg_at_1000 value: 38.501000000000005 - type: ndcg_at_3 value: 25.773000000000003 - type: ndcg_at_5 value: 27.462999999999997 - type: precision_at_1 value: 21.473 - type: precision_at_10 value: 5.482 - type: precision_at_100 value: 0.975 - type: precision_at_1000 value: 0.13799999999999998 - type: precision_at_3 value: 12.205 - type: precision_at_5 value: 8.692 - type: recall_at_1 value: 17.777 - type: recall_at_10 value: 40.582 - type: recall_at_100 value: 66.305 - type: recall_at_1000 value: 85.636 - type: recall_at_3 value: 28.687 - type: recall_at_5 value: 33.089 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackUnixRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 26.677 - type: map_at_10 value: 36.309000000000005 - type: map_at_100 value: 37.403999999999996 - type: map_at_1000 value: 37.496 - type: map_at_3 value: 33.382 - type: map_at_5 value: 34.98 - type: mrr_at_1 value: 31.343 - type: mrr_at_10 value: 40.549 - type: mrr_at_100 value: 41.342 - type: mrr_at_1000 value: 41.397 - type: mrr_at_3 value: 38.029 - type: mrr_at_5 value: 39.451 - type: ndcg_at_1 value: 31.343 - type: ndcg_at_10 value: 42.1 - type: ndcg_at_100 value: 47.089999999999996 - type: ndcg_at_1000 value: 49.222 - type: ndcg_at_3 value: 36.836999999999996 - type: ndcg_at_5 value: 39.21 - type: precision_at_1 value: 31.343 - type: precision_at_10 value: 7.164 - type: precision_at_100 value: 1.0959999999999999 - type: precision_at_1000 value: 0.13899999999999998 - type: precision_at_3 value: 16.915 - type: precision_at_5 value: 11.940000000000001 - type: recall_at_1 value: 26.677 - type: recall_at_10 value: 55.54599999999999 - type: recall_at_100 value: 77.094 - type: recall_at_1000 value: 92.01 - type: recall_at_3 value: 41.191 - type: recall_at_5 value: 47.006 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackWebmastersRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 24.501 - type: map_at_10 value: 33.102 - type: map_at_100 value: 34.676 - type: map_at_1000 value: 34.888000000000005 - type: map_at_3 value: 29.944 - type: map_at_5 value: 31.613999999999997 - type: mrr_at_1 value: 29.447000000000003 - type: mrr_at_10 value: 37.996 - type: mrr_at_100 value: 38.946 - type: mrr_at_1000 value: 38.995000000000005 - type: mrr_at_3 value: 35.079 - type: mrr_at_5 value: 36.69 - type: ndcg_at_1 value: 29.447000000000003 - type: ndcg_at_10 value: 39.232 - type: ndcg_at_100 value: 45.247 - type: ndcg_at_1000 value: 47.613 - type: ndcg_at_3 value: 33.922999999999995 - type: ndcg_at_5 value: 36.284 - type: precision_at_1 value: 29.447000000000003 - type: precision_at_10 value: 7.648000000000001 - type: precision_at_100 value: 1.516 - type: precision_at_1000 value: 0.23900000000000002 - type: precision_at_3 value: 16.008 - type: precision_at_5 value: 11.779 - type: recall_at_1 value: 24.501 - type: recall_at_10 value: 51.18899999999999 - type: recall_at_100 value: 78.437 - type: recall_at_1000 value: 92.842 - type: recall_at_3 value: 35.808 - type: recall_at_5 value: 42.197 - task: type: Retrieval dataset: type: BeIR/cqadupstack name: MTEB CQADupstackWordpressRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 22.039 - type: map_at_10 value: 30.377 - type: map_at_100 value: 31.275 - type: map_at_1000 value: 31.379 - type: map_at_3 value: 27.98 - type: map_at_5 value: 29.358 - type: mrr_at_1 value: 24.03 - type: mrr_at_10 value: 32.568000000000005 - type: mrr_at_100 value: 33.403 - type: mrr_at_1000 value: 33.475 - type: mrr_at_3 value: 30.436999999999998 - type: mrr_at_5 value: 31.796000000000003 - type: ndcg_at_1 value: 24.03 - type: ndcg_at_10 value: 35.198 - type: ndcg_at_100 value: 39.668 - type: ndcg_at_1000 value: 42.296 - type: ndcg_at_3 value: 30.709999999999997 - type: ndcg_at_5 value: 33.024 - type: precision_at_1 value: 24.03 - type: precision_at_10 value: 5.564 - type: precision_at_100 value: 0.828 - type: precision_at_1000 value: 0.117 - type: precision_at_3 value: 13.309000000000001 - type: precision_at_5 value: 9.39 - type: recall_at_1 value: 22.039 - type: recall_at_10 value: 47.746 - type: recall_at_100 value: 68.23599999999999 - type: recall_at_1000 value: 87.852 - type: recall_at_3 value: 35.852000000000004 - type: recall_at_5 value: 41.410000000000004 - task: type: Retrieval dataset: type: climate-fever name: MTEB ClimateFEVER config: default split: test revision: None metrics: - type: map_at_1 value: 15.692999999999998 - type: map_at_10 value: 26.903 - type: map_at_100 value: 28.987000000000002 - type: map_at_1000 value: 29.176999999999996 - type: map_at_3 value: 22.137 - type: map_at_5 value: 24.758 - type: mrr_at_1 value: 35.57 - type: mrr_at_10 value: 47.821999999999996 - type: mrr_at_100 value: 48.608000000000004 - type: mrr_at_1000 value: 48.638999999999996 - type: mrr_at_3 value: 44.452000000000005 - type: mrr_at_5 value: 46.546 - type: ndcg_at_1 value: 35.57 - type: ndcg_at_10 value: 36.567 - type: ndcg_at_100 value: 44.085 - type: ndcg_at_1000 value: 47.24 - type: ndcg_at_3 value: 29.964000000000002 - type: ndcg_at_5 value: 32.511 - type: precision_at_1 value: 35.57 - type: precision_at_10 value: 11.485 - type: precision_at_100 value: 1.9619999999999997 - type: precision_at_1000 value: 0.256 - type: precision_at_3 value: 22.237000000000002 - type: precision_at_5 value: 17.471999999999998 - type: recall_at_1 value: 15.692999999999998 - type: recall_at_10 value: 43.056 - type: recall_at_100 value: 68.628 - type: recall_at_1000 value: 86.075 - type: recall_at_3 value: 26.918999999999997 - type: recall_at_5 value: 34.14 - task: type: Retrieval dataset: type: dbpedia-entity name: MTEB DBPedia config: default split: test revision: None metrics: - type: map_at_1 value: 9.53 - type: map_at_10 value: 20.951 - type: map_at_100 value: 30.136000000000003 - type: map_at_1000 value: 31.801000000000002 - type: map_at_3 value: 15.021 - type: map_at_5 value: 17.471999999999998 - type: mrr_at_1 value: 71.0 - type: mrr_at_10 value: 79.176 - type: mrr_at_100 value: 79.418 - type: mrr_at_1000 value: 79.426 - type: mrr_at_3 value: 78.125 - type: mrr_at_5 value: 78.61200000000001 - type: ndcg_at_1 value: 58.5 - type: ndcg_at_10 value: 44.106 - type: ndcg_at_100 value: 49.268 - type: ndcg_at_1000 value: 56.711999999999996 - type: ndcg_at_3 value: 48.934 - type: ndcg_at_5 value: 45.826 - type: precision_at_1 value: 71.0 - type: precision_at_10 value: 35.0 - type: precision_at_100 value: 11.360000000000001 - type: precision_at_1000 value: 2.046 - type: precision_at_3 value: 52.833 - type: precision_at_5 value: 44.15 - type: recall_at_1 value: 9.53 - type: recall_at_10 value: 26.811 - type: recall_at_100 value: 55.916999999999994 - type: recall_at_1000 value: 79.973 - type: recall_at_3 value: 16.413 - type: recall_at_5 value: 19.980999999999998 - task: type: Classification dataset: type: mteb/emotion name: MTEB EmotionClassification config: default split: test revision: 4f58c6b202a23cf9a4da393831edf4f9183cad37 metrics: - type: accuracy value: 51.519999999999996 - type: f1 value: 46.36601294761231 - task: type: Retrieval dataset: type: fever name: MTEB FEVER config: default split: test revision: None metrics: - type: map_at_1 value: 74.413 - type: map_at_10 value: 83.414 - type: map_at_100 value: 83.621 - type: map_at_1000 value: 83.635 - type: map_at_3 value: 82.337 - type: map_at_5 value: 83.039 - type: mrr_at_1 value: 80.19800000000001 - type: mrr_at_10 value: 87.715 - type: mrr_at_100 value: 87.778 - type: mrr_at_1000 value: 87.779 - type: mrr_at_3 value: 87.106 - type: mrr_at_5 value: 87.555 - type: ndcg_at_1 value: 80.19800000000001 - type: ndcg_at_10 value: 87.182 - type: ndcg_at_100 value: 87.90299999999999 - type: ndcg_at_1000 value: 88.143 - type: ndcg_at_3 value: 85.60600000000001 - type: ndcg_at_5 value: 86.541 - type: precision_at_1 value: 80.19800000000001 - type: precision_at_10 value: 10.531 - type: precision_at_100 value: 1.113 - type: precision_at_1000 value: 0.11499999999999999 - type: precision_at_3 value: 32.933 - type: precision_at_5 value: 20.429 - type: recall_at_1 value: 74.413 - type: recall_at_10 value: 94.363 - type: recall_at_100 value: 97.165 - type: recall_at_1000 value: 98.668 - type: recall_at_3 value: 90.108 - type: recall_at_5 value: 92.52 - task: type: Retrieval dataset: type: fiqa name: MTEB FiQA2018 config: default split: test revision: None metrics: - type: map_at_1 value: 22.701 - type: map_at_10 value: 37.122 - type: map_at_100 value: 39.178000000000004 - type: map_at_1000 value: 39.326 - type: map_at_3 value: 32.971000000000004 - type: map_at_5 value: 35.332 - type: mrr_at_1 value: 44.753 - type: mrr_at_10 value: 53.452 - type: mrr_at_100 value: 54.198 - type: mrr_at_1000 value: 54.225 - type: mrr_at_3 value: 50.952 - type: mrr_at_5 value: 52.464 - type: ndcg_at_1 value: 44.753 - type: ndcg_at_10 value: 45.021 - type: ndcg_at_100 value: 52.028 - type: ndcg_at_1000 value: 54.596000000000004 - type: ndcg_at_3 value: 41.622 - type: ndcg_at_5 value: 42.736000000000004 - type: precision_at_1 value: 44.753 - type: precision_at_10 value: 12.284 - type: precision_at_100 value: 1.955 - type: precision_at_1000 value: 0.243 - type: precision_at_3 value: 27.828999999999997 - type: precision_at_5 value: 20.061999999999998 - type: recall_at_1 value: 22.701 - type: recall_at_10 value: 51.432 - type: recall_at_100 value: 77.009 - type: recall_at_1000 value: 92.511 - type: recall_at_3 value: 37.919000000000004 - type: recall_at_5 value: 44.131 - task: type: Retrieval dataset: type: hotpotqa name: MTEB HotpotQA config: default split: test revision: None metrics: - type: map_at_1 value: 40.189 - type: map_at_10 value: 66.24600000000001 - type: map_at_100 value: 67.098 - type: map_at_1000 value: 67.149 - type: map_at_3 value: 62.684 - type: map_at_5 value: 64.974 - type: mrr_at_1 value: 80.378 - type: mrr_at_10 value: 86.127 - type: mrr_at_100 value: 86.29299999999999 - type: mrr_at_1000 value: 86.297 - type: mrr_at_3 value: 85.31400000000001 - type: mrr_at_5 value: 85.858 - type: ndcg_at_1 value: 80.378 - type: ndcg_at_10 value: 74.101 - type: ndcg_at_100 value: 76.993 - type: ndcg_at_1000 value: 77.948 - type: ndcg_at_3 value: 69.232 - type: ndcg_at_5 value: 72.04599999999999 - type: precision_at_1 value: 80.378 - type: precision_at_10 value: 15.595999999999998 - type: precision_at_100 value: 1.7840000000000003 - type: precision_at_1000 value: 0.191 - type: precision_at_3 value: 44.884 - type: precision_at_5 value: 29.145 - type: recall_at_1 value: 40.189 - type: recall_at_10 value: 77.981 - type: recall_at_100 value: 89.21 - type: recall_at_1000 value: 95.48299999999999 - type: recall_at_3 value: 67.326 - type: recall_at_5 value: 72.863 - task: type: Classification dataset: type: mteb/imdb name: MTEB ImdbClassification config: default split: test revision: 3d86128a09e091d6018b6d26cad27f2739fc2db7 metrics: - type: accuracy value: 92.84599999999999 - type: ap value: 89.4710787567357 - type: f1 value: 92.83752676932258 - task: type: Retrieval dataset: type: msmarco name: MTEB MSMARCO config: default split: dev revision: None metrics: - type: map_at_1 value: 23.132 - type: map_at_10 value: 35.543 - type: map_at_100 value: 36.702 - type: map_at_1000 value: 36.748999999999995 - type: map_at_3 value: 31.737 - type: map_at_5 value: 33.927 - type: mrr_at_1 value: 23.782 - type: mrr_at_10 value: 36.204 - type: mrr_at_100 value: 37.29 - type: mrr_at_1000 value: 37.330999999999996 - type: mrr_at_3 value: 32.458999999999996 - type: mrr_at_5 value: 34.631 - type: ndcg_at_1 value: 23.782 - type: ndcg_at_10 value: 42.492999999999995 - type: ndcg_at_100 value: 47.985 - type: ndcg_at_1000 value: 49.141 - type: ndcg_at_3 value: 34.748000000000005 - type: ndcg_at_5 value: 38.651 - type: precision_at_1 value: 23.782 - type: precision_at_10 value: 6.665 - type: precision_at_100 value: 0.941 - type: precision_at_1000 value: 0.104 - type: precision_at_3 value: 14.776 - type: precision_at_5 value: 10.84 - type: recall_at_1 value: 23.132 - type: recall_at_10 value: 63.794 - type: recall_at_100 value: 89.027 - type: recall_at_1000 value: 97.807 - type: recall_at_3 value: 42.765 - type: recall_at_5 value: 52.11 - task: type: Classification dataset: type: mteb/mtop_domain name: MTEB MTOPDomainClassification (en) config: en split: test revision: d80d48c1eb48d3562165c59d59d0034df9fff0bf metrics: - type: accuracy value: 94.59188326493388 - type: f1 value: 94.3842594786827 - task: type: Classification dataset: type: mteb/mtop_intent name: MTEB MTOPIntentClassification (en) config: en split: test revision: ae001d0e6b1228650b7bd1c2c65fb50ad11a8aba metrics: - type: accuracy value: 79.49384404924761 - type: f1 value: 59.7580539534629 - task: type: Classification dataset: type: mteb/amazon_massive_intent name: MTEB MassiveIntentClassification (en) config: en split: test revision: 31efe3c427b0bae9c22cbb560b8f15491cc6bed7 metrics: - type: accuracy value: 77.56220578345663 - type: f1 value: 75.27228165561478 - task: type: Classification dataset: type: mteb/amazon_massive_scenario name: MTEB MassiveScenarioClassification (en) config: en split: test revision: 7d571f92784cd94a019292a1f45445077d0ef634 metrics: - type: accuracy value: 80.53463349024884 - type: f1 value: 80.4893958236536 - task: type: Clustering dataset: type: mteb/medrxiv-clustering-p2p name: MTEB MedrxivClusteringP2P config: default split: test revision: e7a26af6f3ae46b30dde8737f02c07b1505bcc73 metrics: - type: v_measure value: 32.56100273484962 - task: type: Clustering dataset: type: mteb/medrxiv-clustering-s2s name: MTEB MedrxivClusteringS2S config: default split: test revision: 35191c8c0dca72d8ff3efcd72aa802307d469663 metrics: - type: v_measure value: 31.470380028839607 - task: type: Reranking dataset: type: mteb/mind_small name: MTEB MindSmallReranking config: default split: test revision: 3bdac13927fdc888b903db93b2ffdbd90b295a69 metrics: - type: map value: 32.06102792457849 - type: mrr value: 33.30709199672238 - task: type: Retrieval dataset: type: nfcorpus name: MTEB NFCorpus config: default split: test revision: None metrics: - type: map_at_1 value: 6.776999999999999 - type: map_at_10 value: 14.924000000000001 - type: map_at_100 value: 18.955 - type: map_at_1000 value: 20.538999999999998 - type: map_at_3 value: 10.982 - type: map_at_5 value: 12.679000000000002 - type: mrr_at_1 value: 47.988 - type: mrr_at_10 value: 57.232000000000006 - type: mrr_at_100 value: 57.818999999999996 - type: mrr_at_1000 value: 57.847 - type: mrr_at_3 value: 54.901999999999994 - type: mrr_at_5 value: 56.481 - type: ndcg_at_1 value: 46.594 - type: ndcg_at_10 value: 38.129000000000005 - type: ndcg_at_100 value: 35.54 - type: ndcg_at_1000 value: 44.172 - type: ndcg_at_3 value: 43.025999999999996 - type: ndcg_at_5 value: 41.052 - type: precision_at_1 value: 47.988 - type: precision_at_10 value: 28.111000000000004 - type: precision_at_100 value: 8.929 - type: precision_at_1000 value: 2.185 - type: precision_at_3 value: 40.144000000000005 - type: precision_at_5 value: 35.232 - type: recall_at_1 value: 6.776999999999999 - type: recall_at_10 value: 19.289 - type: recall_at_100 value: 36.359 - type: recall_at_1000 value: 67.54 - type: recall_at_3 value: 11.869 - type: recall_at_5 value: 14.999 - task: type: Retrieval dataset: type: nq name: MTEB NQ config: default split: test revision: None metrics: - type: map_at_1 value: 31.108000000000004 - type: map_at_10 value: 47.126000000000005 - type: map_at_100 value: 48.171 - type: map_at_1000 value: 48.199 - type: map_at_3 value: 42.734 - type: map_at_5 value: 45.362 - type: mrr_at_1 value: 34.936 - type: mrr_at_10 value: 49.571 - type: mrr_at_100 value: 50.345 - type: mrr_at_1000 value: 50.363 - type: mrr_at_3 value: 45.959 - type: mrr_at_5 value: 48.165 - type: ndcg_at_1 value: 34.936 - type: ndcg_at_10 value: 55.028999999999996 - type: ndcg_at_100 value: 59.244 - type: ndcg_at_1000 value: 59.861 - type: ndcg_at_3 value: 46.872 - type: ndcg_at_5 value: 51.217999999999996 - type: precision_at_1 value: 34.936 - type: precision_at_10 value: 9.099 - type: precision_at_100 value: 1.145 - type: precision_at_1000 value: 0.12 - type: precision_at_3 value: 21.456 - type: precision_at_5 value: 15.411 - type: recall_at_1 value: 31.108000000000004 - type: recall_at_10 value: 76.53999999999999 - type: recall_at_100 value: 94.39 - type: recall_at_1000 value: 98.947 - type: recall_at_3 value: 55.572 - type: recall_at_5 value: 65.525 - task: type: Retrieval dataset: type: quora name: MTEB QuoraRetrieval config: default split: test revision: None metrics: - type: map_at_1 value: 71.56400000000001 - type: map_at_10 value: 85.482 - type: map_at_100 value: 86.114 - type: map_at_1000 value: 86.13 - type: map_at_3 value: 82.607 - type: map_at_5 value: 84.405 - type: mrr_at_1 value: 82.42 - type: mrr_at_10 value: 88.304 - type: mrr_at_100 value: 88.399 - type: mrr_at_1000 value: 88.399 - type: mrr_at_3 value: 87.37 - type: mrr_at_5 value: 88.024 - type: ndcg_at_1 value: 82.45 - type: ndcg_at_10 value: 89.06500000000001 - type: ndcg_at_100 value: 90.232 - type: ndcg_at_1000 value: 90.305 - type: ndcg_at_3 value: 86.375 - type: ndcg_at_5 value: 87.85300000000001 - type: precision_at_1 value: 82.45 - type: precision_at_10 value: 13.486999999999998 - type: precision_at_100 value: 1.534 - type: precision_at_1000 value: 0.157 - type: precision_at_3 value: 37.813 - type: precision_at_5 value: 24.773999999999997 - type: recall_at_1 value: 71.56400000000001 - type: recall_at_10 value: 95.812 - type: recall_at_100 value: 99.7 - type: recall_at_1000 value: 99.979 - type: recall_at_3 value: 87.966 - type: recall_at_5 value: 92.268 - task: type: Clustering dataset: type: mteb/reddit-clustering name: MTEB RedditClustering config: default split: test revision: 24640382cdbf8abc73003fb0fa6d111a705499eb metrics: - type: v_measure value: 57.241876648614145 - task: type: Clustering dataset: type: mteb/reddit-clustering-p2p name: MTEB RedditClusteringP2P config: default split: test revision: 282350215ef01743dc01b456c7f5241fa8937f16 metrics: - type: v_measure value: 64.66212576446223 - task: type: Retrieval dataset: type: scidocs name: MTEB SCIDOCS config: default split: test revision: None metrics: - type: map_at_1 value: 5.308 - type: map_at_10 value: 13.803 - type: map_at_100 value: 16.176 - type: map_at_1000 value: 16.561 - type: map_at_3 value: 9.761000000000001 - type: map_at_5 value: 11.802 - type: mrr_at_1 value: 26.200000000000003 - type: mrr_at_10 value: 37.621 - type: mrr_at_100 value: 38.767 - type: mrr_at_1000 value: 38.815 - type: mrr_at_3 value: 34.117 - type: mrr_at_5 value: 36.107 - type: ndcg_at_1 value: 26.200000000000003 - type: ndcg_at_10 value: 22.64 - type: ndcg_at_100 value: 31.567 - type: ndcg_at_1000 value: 37.623 - type: ndcg_at_3 value: 21.435000000000002 - type: ndcg_at_5 value: 18.87 - type: precision_at_1 value: 26.200000000000003 - type: precision_at_10 value: 11.74 - type: precision_at_100 value: 2.465 - type: precision_at_1000 value: 0.391 - type: precision_at_3 value: 20.033 - type: precision_at_5 value: 16.64 - type: recall_at_1 value: 5.308 - type: recall_at_10 value: 23.794999999999998 - type: recall_at_100 value: 50.015 - type: recall_at_1000 value: 79.283 - type: recall_at_3 value: 12.178 - type: recall_at_5 value: 16.882 - task: type: STS dataset: type: mteb/sickr-sts name: MTEB SICK-R config: default split: test revision: a6ea5a8cab320b040a23452cc28066d9beae2cee metrics: - type: cos_sim_pearson value: 84.93231134675553 - type: cos_sim_spearman value: 81.68319292603205 - type: euclidean_pearson value: 81.8396814380367 - type: euclidean_spearman value: 81.24641903349945 - type: manhattan_pearson value: 81.84698799204274 - type: manhattan_spearman value: 81.24269997904105 - task: type: STS dataset: type: mteb/sts12-sts name: MTEB STS12 config: default split: test revision: a0d554a64d88156834ff5ae9920b964011b16384 metrics: - type: cos_sim_pearson value: 86.73241671587446 - type: cos_sim_spearman value: 79.05091082971826 - type: euclidean_pearson value: 83.91146869578044 - type: euclidean_spearman value: 79.87978465370936 - type: manhattan_pearson value: 83.90888338917678 - type: manhattan_spearman value: 79.87482848584241 - task: type: STS dataset: type: mteb/sts13-sts name: MTEB STS13 config: default split: test revision: 7e90230a92c190f1bf69ae9002b8cea547a64cca metrics: - type: cos_sim_pearson value: 85.14970731146177 - type: cos_sim_spearman value: 86.37363490084627 - type: euclidean_pearson value: 83.02154218530433 - type: euclidean_spearman value: 83.80258761957367 - type: manhattan_pearson value: 83.01664495119347 - type: manhattan_spearman value: 83.77567458007952 - task: type: STS dataset: type: mteb/sts14-sts name: MTEB STS14 config: default split: test revision: 6031580fec1f6af667f0bd2da0a551cf4f0b2375 metrics: - type: cos_sim_pearson value: 83.40474139886784 - type: cos_sim_spearman value: 82.77768789165984 - type: euclidean_pearson value: 80.7065877443695 - type: euclidean_spearman value: 81.375940662505 - type: manhattan_pearson value: 80.6507552270278 - type: manhattan_spearman value: 81.32782179098741 - task: type: STS dataset: type: mteb/sts15-sts name: MTEB STS15 config: default split: test revision: ae752c7c21bf194d8b67fd573edf7ae58183cbe3 metrics: - type: cos_sim_pearson value: 87.08585968722274 - type: cos_sim_spearman value: 88.03110031451399 - type: euclidean_pearson value: 85.74012019602384 - type: euclidean_spearman value: 86.13592849438209 - type: manhattan_pearson value: 85.74404842369206 - type: manhattan_spearman value: 86.14492318960154 - task: type: STS dataset: type: mteb/sts16-sts name: MTEB STS16 config: default split: test revision: 4d8694f8f0e0100860b497b999b3dbed754a0513 metrics: - type: cos_sim_pearson value: 84.95069052788875 - type: cos_sim_spearman value: 86.4867991595147 - type: euclidean_pearson value: 84.31013325754635 - type: euclidean_spearman value: 85.01529258006482 - type: manhattan_pearson value: 84.26995570085374 - type: manhattan_spearman value: 84.96982104986162 - task: type: STS dataset: type: mteb/sts17-crosslingual-sts name: MTEB STS17 (en-en) config: en-en split: test revision: af5e6fb845001ecf41f4c1e033ce921939a2a68d metrics: - type: cos_sim_pearson value: 87.54617647971897 - type: cos_sim_spearman value: 87.49834181751034 - type: euclidean_pearson value: 86.01015322577122 - type: euclidean_spearman value: 84.63362652063199 - type: manhattan_pearson value: 86.13807574475706 - type: manhattan_spearman value: 84.7772370721132 - task: type: STS dataset: type: mteb/sts22-crosslingual-sts name: MTEB STS22 (en) config: en split: test revision: 6d1ba47164174a496b7fa5d3569dae26a6813b80 metrics: - type: cos_sim_pearson value: 67.20047755786615 - type: cos_sim_spearman value: 67.05324077987636 - type: euclidean_pearson value: 66.91930642976601 - type: euclidean_spearman value: 65.21491856099105 - type: manhattan_pearson value: 66.78756851976624 - type: manhattan_spearman value: 65.12356257740728 - task: type: STS dataset: type: mteb/stsbenchmark-sts name: MTEB STSBenchmark config: default split: test revision: b0fddb56ed78048fa8b90373c8a3cfc37b684831 metrics: - type: cos_sim_pearson value: 86.19852871539686 - type: cos_sim_spearman value: 87.5161895296395 - type: euclidean_pearson value: 84.59848645207485 - type: euclidean_spearman value: 85.26427328757919 - type: manhattan_pearson value: 84.59747366996524 - type: manhattan_spearman value: 85.24045855146915 - task: type: Reranking dataset: type: mteb/scidocs-reranking name: MTEB SciDocsRR config: default split: test revision: d3c5e1fc0b855ab6097bf1cda04dd73947d7caab metrics: - type: map value: 87.63320317811032 - type: mrr value: 96.26242947321379 - task: type: Retrieval dataset: type: scifact name: MTEB SciFact config: default split: test revision: None metrics: - type: map_at_1 value: 60.928000000000004 - type: map_at_10 value: 70.112 - type: map_at_100 value: 70.59299999999999 - type: map_at_1000 value: 70.623 - type: map_at_3 value: 66.846 - type: map_at_5 value: 68.447 - type: mrr_at_1 value: 64.0 - type: mrr_at_10 value: 71.212 - type: mrr_at_100 value: 71.616 - type: mrr_at_1000 value: 71.64500000000001 - type: mrr_at_3 value: 68.77799999999999 - type: mrr_at_5 value: 70.094 - type: ndcg_at_1 value: 64.0 - type: ndcg_at_10 value: 74.607 - type: ndcg_at_100 value: 76.416 - type: ndcg_at_1000 value: 77.102 - type: ndcg_at_3 value: 69.126 - type: ndcg_at_5 value: 71.41300000000001 - type: precision_at_1 value: 64.0 - type: precision_at_10 value: 9.933 - type: precision_at_100 value: 1.077 - type: precision_at_1000 value: 0.11299999999999999 - type: precision_at_3 value: 26.556 - type: precision_at_5 value: 17.467 - type: recall_at_1 value: 60.928000000000004 - type: recall_at_10 value: 87.322 - type: recall_at_100 value: 94.833 - type: recall_at_1000 value: 100.0 - type: recall_at_3 value: 72.628 - type: recall_at_5 value: 78.428 - task: type: PairClassification dataset: type: mteb/sprintduplicatequestions-pairclassification name: MTEB SprintDuplicateQuestions config: default split: test revision: d66bd1f72af766a5cc4b0ca5e00c162f89e8cc46 metrics: - type: cos_sim_accuracy value: 99.86237623762376 - type: cos_sim_ap value: 96.72586477206649 - type: cos_sim_f1 value: 93.01858362631845 - type: cos_sim_precision value: 93.4409687184662 - type: cos_sim_recall value: 92.60000000000001 - type: dot_accuracy value: 99.78019801980199 - type: dot_ap value: 93.72748205246228 - type: dot_f1 value: 89.04109589041096 - type: dot_precision value: 87.16475095785441 - type: dot_recall value: 91.0 - type: euclidean_accuracy value: 99.85445544554456 - type: euclidean_ap value: 96.6661459876145 - type: euclidean_f1 value: 92.58337481333997 - type: euclidean_precision value: 92.17046580773042 - type: euclidean_recall value: 93.0 - type: manhattan_accuracy value: 99.85445544554456 - type: manhattan_ap value: 96.6883549244056 - type: manhattan_f1 value: 92.57598405580468 - type: manhattan_precision value: 92.25422045680239 - type: manhattan_recall value: 92.9 - type: max_accuracy value: 99.86237623762376 - type: max_ap value: 96.72586477206649 - type: max_f1 value: 93.01858362631845 - task: type: Clustering dataset: type: mteb/stackexchange-clustering name: MTEB StackExchangeClustering config: default split: test revision: 6cbc1f7b2bc0622f2e39d2c77fa502909748c259 metrics: - type: v_measure value: 66.39930057069995 - task: type: Clustering dataset: type: mteb/stackexchange-clustering-p2p name: MTEB StackExchangeClusteringP2P config: default split: test revision: 815ca46b2622cec33ccafc3735d572c266efdb44 metrics: - type: v_measure value: 34.96398659903402 - task: type: Reranking dataset: type: mteb/stackoverflowdupquestions-reranking name: MTEB StackOverflowDupQuestions config: default split: test revision: e185fbe320c72810689fc5848eb6114e1ef5ec69 metrics: - type: map value: 55.946944700355395 - type: mrr value: 56.97151398438164 - task: type: Summarization dataset: type: mteb/summeval name: MTEB SummEval config: default split: test revision: cda12ad7615edc362dbf25a00fdd61d3b1eaf93c metrics: - type: cos_sim_pearson value: 31.541657650692905 - type: cos_sim_spearman value: 31.605804192286303 - type: dot_pearson value: 28.26905996736398 - type: dot_spearman value: 27.864801765851187 - task: type: Retrieval dataset: type: trec-covid name: MTEB TRECCOVID config: default split: test revision: None metrics: - type: map_at_1 value: 0.22599999999999998 - type: map_at_10 value: 1.8870000000000002 - type: map_at_100 value: 9.78 - type: map_at_1000 value: 22.514 - type: map_at_3 value: 0.6669999999999999 - type: map_at_5 value: 1.077 - type: mrr_at_1 value: 82.0 - type: mrr_at_10 value: 89.86699999999999 - type: mrr_at_100 value: 89.86699999999999 - type: mrr_at_1000 value: 89.86699999999999 - type: mrr_at_3 value: 89.667 - type: mrr_at_5 value: 89.667 - type: ndcg_at_1 value: 79.0 - type: ndcg_at_10 value: 74.818 - type: ndcg_at_100 value: 53.715999999999994 - type: ndcg_at_1000 value: 47.082 - type: ndcg_at_3 value: 82.134 - type: ndcg_at_5 value: 79.81899999999999 - type: precision_at_1 value: 82.0 - type: precision_at_10 value: 78.0 - type: precision_at_100 value: 54.48 - type: precision_at_1000 value: 20.518 - type: precision_at_3 value: 87.333 - type: precision_at_5 value: 85.2 - type: recall_at_1 value: 0.22599999999999998 - type: recall_at_10 value: 2.072 - type: recall_at_100 value: 13.013 - type: recall_at_1000 value: 43.462 - type: recall_at_3 value: 0.695 - type: recall_at_5 value: 1.139 - task: type: Retrieval dataset: type: webis-touche2020 name: MTEB Touche2020 config: default split: test revision: None metrics: - type: map_at_1 value: 2.328 - type: map_at_10 value: 9.795 - type: map_at_100 value: 15.801000000000002 - type: map_at_1000 value: 17.23 - type: map_at_3 value: 4.734 - type: map_at_5 value: 6.644 - type: mrr_at_1 value: 30.612000000000002 - type: mrr_at_10 value: 46.902 - type: mrr_at_100 value: 47.495 - type: mrr_at_1000 value: 47.495 - type: mrr_at_3 value: 41.156 - type: mrr_at_5 value: 44.218 - type: ndcg_at_1 value: 28.571 - type: ndcg_at_10 value: 24.806 - type: ndcg_at_100 value: 36.419000000000004 - type: ndcg_at_1000 value: 47.272999999999996 - type: ndcg_at_3 value: 25.666 - type: ndcg_at_5 value: 25.448999999999998 - type: precision_at_1 value: 30.612000000000002 - type: precision_at_10 value: 23.061 - type: precision_at_100 value: 7.714 - type: precision_at_1000 value: 1.484 - type: precision_at_3 value: 26.531 - type: precision_at_5 value: 26.122 - type: recall_at_1 value: 2.328 - type: recall_at_10 value: 16.524 - type: recall_at_100 value: 47.179 - type: recall_at_1000 value: 81.22200000000001 - type: recall_at_3 value: 5.745 - type: recall_at_5 value: 9.339 - task: type: Classification dataset: type: mteb/toxic_conversations_50k name: MTEB ToxicConversationsClassification config: default split: test revision: d7c0de2777da35d6aae2200a62c6e0e5af397c4c metrics: - type: accuracy value: 70.9142 - type: ap value: 14.335574772555415 - type: f1 value: 54.62839595194111 - task: type: Classification dataset: type: mteb/tweet_sentiment_extraction name: MTEB TweetSentimentExtractionClassification config: default split: test revision: d604517c81ca91fe16a244d1248fc021f9ecee7a metrics: - type: accuracy value: 59.94340690435768 - type: f1 value: 60.286487936731916 - task: type: Clustering dataset: type: mteb/twentynewsgroups-clustering name: MTEB TwentyNewsgroupsClustering config: default split: test revision: 6125ec4e24fa026cec8a478383ee943acfbd5449 metrics: - type: v_measure value: 51.26597708987974 - task: type: PairClassification dataset: type: mteb/twittersemeval2015-pairclassification name: MTEB TwitterSemEval2015 config: default split: test revision: 70970daeab8776df92f5ea462b6173c0b46fd2d1 metrics: - type: cos_sim_accuracy value: 87.48882398521786 - type: cos_sim_ap value: 79.04326607602204 - type: cos_sim_f1 value: 71.64566826860633 - type: cos_sim_precision value: 70.55512918905092 - type: cos_sim_recall value: 72.77044854881267 - type: dot_accuracy value: 84.19264469213805 - type: dot_ap value: 67.96360043562528 - type: dot_f1 value: 64.06418393006827 - type: dot_precision value: 58.64941898706424 - type: dot_recall value: 70.58047493403694 - type: euclidean_accuracy value: 87.45902127913214 - type: euclidean_ap value: 78.9742237648272 - type: euclidean_f1 value: 71.5553235908142 - type: euclidean_precision value: 70.77955601445535 - type: euclidean_recall value: 72.34828496042216 - type: manhattan_accuracy value: 87.41729749061214 - type: manhattan_ap value: 78.90073137580596 - type: manhattan_f1 value: 71.3942611553533 - type: manhattan_precision value: 68.52705653967483 - type: manhattan_recall value: 74.51187335092348 - type: max_accuracy value: 87.48882398521786 - type: max_ap value: 79.04326607602204 - type: max_f1 value: 71.64566826860633 - task: type: PairClassification dataset: type: mteb/twitterurlcorpus-pairclassification name: MTEB TwitterURLCorpus config: default split: test revision: 8b6510b0b1fa4e4c4f879467980e9be563ec1cdf metrics: - type: cos_sim_accuracy value: 88.68125897465751 - type: cos_sim_ap value: 85.6003454431979 - type: cos_sim_f1 value: 77.6957163958641 - type: cos_sim_precision value: 73.0110366307807 - type: cos_sim_recall value: 83.02279026793964 - type: dot_accuracy value: 87.7672992587418 - type: dot_ap value: 82.4971301112899 - type: dot_f1 value: 75.90528233151184 - type: dot_precision value: 72.0370626469368 - type: dot_recall value: 80.21250384970742 - type: euclidean_accuracy value: 88.4503434625684 - type: euclidean_ap value: 84.91949884748384 - type: euclidean_f1 value: 76.92365018444684 - type: euclidean_precision value: 74.53245721712759 - type: euclidean_recall value: 79.47336002463813 - type: manhattan_accuracy value: 88.47556952691427 - type: manhattan_ap value: 84.8963689101517 - type: manhattan_f1 value: 76.85901249256395 - type: manhattan_precision value: 74.31693989071039 - type: manhattan_recall value: 79.58115183246073 - type: max_accuracy value: 88.68125897465751 - type: max_ap value: 85.6003454431979 - type: max_f1 value: 77.6957163958641 license: mit language: - en --- <h1 align="center">FlagEmbedding</h1> <h4 align="center"> <p> <a href=#model-list>Model List</a> \| <a href=#frequently-asked-questions>FAQ</a> \| <a href=#usage>Usage</a> \| <a href="#evaluation">Evaluation</a> \| <a href="#train">Train</a> \| <a href="#contact">Contact</a> \| <a href="#citation">Citation</a> \| <a href="#license">License</a> <p> </h4> For more details please refer to our Github: [FlagEmbedding](https://github.com/FlagOpen/FlagEmbedding). If you are looking for a model that supports more languages, longer texts, and other retrieval methods, you can try using [bge-m3](https://huggingface.co/BAAI/bge-m3). [English](README.md) \| [中文](https://github.com/FlagOpen/FlagEmbedding/blob/master/README_zh.md) FlagEmbedding focuses on retrieval-augmented LLMs, consisting of the following projects currently: - Long-Context LLM: [Activation Beacon](https://github.com/FlagOpen/FlagEmbedding/tree/master/Long_LLM/activation_beacon) - Fine-tuning of LM : [LM-Cocktail](https://github.com/FlagOpen/FlagEmbedding/tree/master/LM_Cocktail) - Dense Retrieval: [BGE-M3](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/BGE_M3), [LLM Embedder](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/llm_embedder), [BGE Embedding](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/baai_general_embedding) - Reranker Model: [BGE Reranker](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/reranker) - Benchmark: [C-MTEB](https://github.com/FlagOpen/FlagEmbedding/tree/master/C_MTEB) ## News - 1/30/2024: Release BGE-M3, a new member to BGE model series! M3 stands for Multi-linguality (100+ languages), Multi-granularities (input length up to 8192), Multi-Functionality (unification of dense, lexical, multi-vec/colbert retrieval). It is the first embedding model that supports all three retrieval methods, achieving new SOTA on multi-lingual (MIRACL) and cross-lingual (MKQA) benchmarks. [Technical Report](https://github.com/FlagOpen/FlagEmbedding/blob/master/FlagEmbedding/BGE_M3/BGE_M3.pdf) and [Code](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/BGE_M3). :fire: - 1/9/2024: Release [Activation-Beacon](https://github.com/FlagOpen/FlagEmbedding/tree/master/Long_LLM/activation_beacon), an effective, efficient, compatible, and low-cost (training) method to extend the context length of LLM. [Technical Report](https://arxiv.org/abs/2401.03462) :fire: - 12/24/2023: Release LLaRA, a LLaMA-7B based dense retriever, leading to state-of-the-art performances on MS MARCO and BEIR. Model and code will be open-sourced. Please stay tuned. [Technical Report](https://arxiv.org/abs/2312.15503) :fire: - 11/23/2023: Release [LM-Cocktail](https://github.com/FlagOpen/FlagEmbedding/tree/master/LM_Cocktail), a method to maintain general capabilities during fine-tuning by merging multiple language models. [Technical Report](https://arxiv.org/abs/2311.13534) :fire: - 10/12/2023: Release [LLM-Embedder](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/llm_embedder), a unified embedding model to support diverse retrieval augmentation needs for LLMs. [Technical Report](https://arxiv.org/pdf/2310.07554.pdf) - 09/15/2023: The [technical report](https://arxiv.org/pdf/2309.07597.pdf) and [massive training data](https://data.baai.ac.cn/details/BAAI-MTP) of BGE has been released - 09/12/2023: New models: - New reranker model: release cross-encoder models `BAAI/bge-reranker-base` and `BAAI/bge-reranker-large`, which are more powerful than embedding model. We recommend to use/fine-tune them to re-rank top-k documents returned by embedding models. - update embedding model: release `bge--v1.5` embedding model to alleviate the issue of the similarity distribution, and enhance its retrieval ability without instruction. <details> <summary>More</summary> <!-- ### More --> - 09/07/2023: Update [fine-tune code](https://github.com/FlagOpen/FlagEmbedding/blob/master/FlagEmbedding/baai_general_embedding/README.md): Add script to mine hard negatives and support adding instruction during fine-tuning. - 08/09/2023: BGE Models are integrated into Langchain, you can use it like [this](#using-langchain); C-MTEB leaderboard* is [available](https://huggingface.co/spaces/mteb/leaderboard). - 08/05/2023: Release base-scale and small-scale models, best performance among the models of the same size 🤗 - 08/02/2023: Release `bge-large-`(short for BAAI General Embedding) Models, rank 1st on MTEB and C-MTEB benchmark!* :tada: :tada: - 08/01/2023: We release the [Chinese Massive Text Embedding Benchmark](https://github.com/FlagOpen/FlagEmbedding/blob/master/C_MTEB) (C-MTEB), consisting of 31 test dataset. </details> ## Model List `bge` is short for `BAAI general embedding`. \| Model \| Language \| \| Description \| query instruction for retrieval [1] \| \|:-------------------------------\|:--------:\| :--------:\| :--------:\|:--------:\| \| [BAAI/bge-m3](https://huggingface.co/BAAI/bge-m3) \| Multilingual \| [Inference](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/BGE_M3#usage) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/BGE_M3) \| Multi-Functionality(dense retrieval, sparse retrieval, multi-vector(colbert)), Multi-Linguality, and Multi-Granularity(8192 tokens) \| \| \| [BAAI/llm-embedder](https://huggingface.co/BAAI/llm-embedder) \| English \| [Inference](./FlagEmbedding/llm_embedder/README.md) [Fine-tune](./FlagEmbedding/llm_embedder/README.md) \| a unified embedding model to support diverse retrieval augmentation needs for LLMs \| See [README](./FlagEmbedding/llm_embedder/README.md) \| \| [BAAI/bge-reranker-large](https://huggingface.co/BAAI/bge-reranker-large) \| Chinese and English \| [Inference](#usage-for-reranker) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/reranker) \| a cross-encoder model which is more accurate but less efficient [2] \| \| \| [BAAI/bge-reranker-base](https://huggingface.co/BAAI/bge-reranker-base) \| Chinese and English \| [Inference](#usage-for-reranker) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/reranker) \| a cross-encoder model which is more accurate but less efficient [2] \| \| \| [BAAI/bge-large-en-v1.5](https://huggingface.co/BAAI/bge-large-en-v1.5) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-base-en-v1.5](https://huggingface.co/BAAI/bge-base-en-v1.5) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-small-en-v1.5](https://huggingface.co/BAAI/bge-small-en-v1.5) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-large-zh-v1.5](https://huggingface.co/BAAI/bge-large-zh-v1.5) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `为这个句子生成表示以用于检索相关文章：` \| \| [BAAI/bge-base-zh-v1.5](https://huggingface.co/BAAI/bge-base-zh-v1.5) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `为这个句子生成表示以用于检索相关文章：` \| \| [BAAI/bge-small-zh-v1.5](https://huggingface.co/BAAI/bge-small-zh-v1.5) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| version 1.5 with more reasonable similarity distribution \| `为这个句子生成表示以用于检索相关文章：` \| \| [BAAI/bge-large-en](https://huggingface.co/BAAI/bge-large-en) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| :trophy: rank 1st in [MTEB](https://huggingface.co/spaces/mteb/leaderboard) leaderboard \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-base-en](https://huggingface.co/BAAI/bge-base-en) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| a base-scale model but with similar ability to `bge-large-en` \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-small-en](https://huggingface.co/BAAI/bge-small-en) \| English \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \|a small-scale model but with competitive performance \| `Represent this sentence for searching relevant passages: ` \| \| [BAAI/bge-large-zh](https://huggingface.co/BAAI/bge-large-zh) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| :trophy: rank 1st in [C-MTEB](https://github.com/FlagOpen/FlagEmbedding/tree/master/C_MTEB) benchmark \| `为这个句子生成表示以用于检索相关文章：` \| \| [BAAI/bge-base-zh](https://huggingface.co/BAAI/bge-base-zh) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| a base-scale model but with similar ability to `bge-large-zh` \| `为这个句子生成表示以用于检索相关文章：` \| \| [BAAI/bge-small-zh](https://huggingface.co/BAAI/bge-small-zh) \| Chinese \| [Inference](#usage-for-embedding-model) [Fine-tune](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) \| a small-scale model but with competitive performance \| `为这个句子生成表示以用于检索相关文章：` \| [1\]: If you need to search the relevant passages to a query, we suggest to add the instruction to the query; in other cases, no instruction is needed, just use the original query directly. In all cases, no instruction needs to be added to passages. [2\]: Different from embedding model, reranker uses question and document as input and directly output similarity instead of embedding. To balance the accuracy and time cost, cross-encoder is widely used to re-rank top-k documents retrieved by other simple models. For examples, use bge embedding model to retrieve top 100 relevant documents, and then use bge reranker to re-rank the top 100 document to get the final top-3 results. All models have been uploaded to Huggingface Hub, and you can see them at https://huggingface.co/BAAI. If you cannot open the Huggingface Hub, you also can download the models at https://model.baai.ac.cn/models . ## Frequently asked questions <details> <summary>1. How to fine-tune bge embedding model?</summary> <!-- ### How to fine-tune bge embedding model? --> Following this [example](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune) to prepare data and fine-tune your model. Some suggestions: - Mine hard negatives following this [example](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune#hard-negatives), which can improve the retrieval performance. - If you pre-train bge on your data, the pre-trained model cannot be directly used to calculate similarity, and it must be fine-tuned with contrastive learning before computing similarity. - If the accuracy of the fine-tuned model is still not high, it is recommended to use/fine-tune the cross-encoder model (bge-reranker) to re-rank top-k results. Hard negatives also are needed to fine-tune reranker. </details> <details> <summary>2. The similarity score between two dissimilar sentences is higher than 0.5</summary> <!-- ### The similarity score between two dissimilar sentences is higher than 0.5 --> Suggest to use bge v1.5, which alleviates the issue of the similarity distribution. Since we finetune the models by contrastive learning with a temperature of 0.01, the similarity distribution of the current BGE model is about in the interval \[0.6, 1\]. So a similarity score greater than 0.5 does not indicate that the two sentences are similar. For downstream tasks, such as passage retrieval or semantic similarity, what matters is the relative order of the scores, not the absolute value. If you need to filter similar sentences based on a similarity threshold, please select an appropriate similarity threshold based on the similarity distribution on your data (such as 0.8, 0.85, or even 0.9). </details> <details> <summary>3. When does the query instruction need to be used</summary> <!-- ### When does the query instruction need to be used --> For the `bge--v1.5`, we improve its retrieval ability when not using instruction. No instruction only has a slight degradation in retrieval performance compared with using instruction. So you can generate embedding without instruction in all cases for convenience. For a retrieval task that uses short queries to find long related documents, it is recommended to add instructions for these short queries. The best method to decide whether to add instructions for queries is choosing the setting that achieves better performance on your task.* In all cases, the documents/passages do not need to add the instruction. </details> ## Usage ### Usage for Embedding Model Here are some examples for using `bge` models with [FlagEmbedding](#using-flagembedding), [Sentence-Transformers](#using-sentence-transformers), [Langchain](#using-langchain), or [Huggingface Transformers](#using-huggingface-transformers). #### Using FlagEmbedding ``` pip install -U FlagEmbedding ``` If it doesn't work for you, you can see [FlagEmbedding](https://github.com/FlagOpen/FlagEmbedding/blob/master/FlagEmbedding/baai_general_embedding/README.md) for more methods to install FlagEmbedding. ```python from FlagEmbedding import FlagModel sentences_1 = ["样例数据-1", "样例数据-2"] sentences_2 = ["样例数据-3", "样例数据-4"] model = FlagModel('BAAI/bge-large-zh-v1.5', query_instruction_for_retrieval="为这个句子生成表示以用于检索相关文章：", use_fp16=True) # Setting use_fp16 to True speeds up computation with a slight performance degradation embeddings_1 = model.encode(sentences_1) embeddings_2 = model.encode(sentences_2) similarity = embeddings_1 @ embeddings_2.T print(similarity) # for s2p(short query to long passage) retrieval task, suggest to use encode_queries() which will automatically add the instruction to each query # corpus in retrieval task can still use encode() or encode_corpus(), since they don't need instruction queries = ['query_1', 'query_2'] passages = ["样例文档-1", "样例文档-2"] q_embeddings = model.encode_queries(queries) p_embeddings = model.encode(passages) scores = q_embeddings @ p_embeddings.T ``` For the value of the argument `query_instruction_for_retrieval`, see [Model List](https://github.com/FlagOpen/FlagEmbedding/tree/master#model-list). By default, FlagModel will use all available GPUs when encoding. Please set `os.environ["CUDA_VISIBLE_DEVICES"]` to select specific GPUs. You also can set `os.environ["CUDA_VISIBLE_DEVICES"]=""` to make all GPUs unavailable. #### Using Sentence-Transformers You can also use the `bge` models with [sentence-transformers](https://www.SBERT.net): ``` pip install -U sentence-transformers ``` ```python from sentence_transformers import SentenceTransformer sentences_1 = ["样例数据-1", "样例数据-2"] sentences_2 = ["样例数据-3", "样例数据-4"] model = SentenceTransformer('BAAI/bge-large-zh-v1.5') embeddings_1 = model.encode(sentences_1, normalize_embeddings=True) embeddings_2 = model.encode(sentences_2, normalize_embeddings=True) similarity = embeddings_1 @ embeddings_2.T print(similarity) ``` For s2p(short query to long passage) retrieval task, each short query should start with an instruction (instructions see [Model List](https://github.com/FlagOpen/FlagEmbedding/tree/master#model-list)). But the instruction is not needed for passages. ```python from sentence_transformers import SentenceTransformer queries = ['query_1', 'query_2'] passages = ["样例文档-1", "样例文档-2"] instruction = "为这个句子生成表示以用于检索相关文章：" model = SentenceTransformer('BAAI/bge-large-zh-v1.5') q_embeddings = model.encode([instruction+q for q in queries], normalize_embeddings=True) p_embeddings = model.encode(passages, normalize_embeddings=True) scores = q_embeddings @ p_embeddings.T ``` #### Using Langchain You can use `bge` in langchain like this: ```python from langchain.embeddings import HuggingFaceBgeEmbeddings model_name = "BAAI/bge-large-en-v1.5" model_kwargs = {'device': 'cuda'} encode_kwargs = {'normalize_embeddings': True} # set True to compute cosine similarity model = HuggingFaceBgeEmbeddings( model_name=model_name, model_kwargs=model_kwargs, encode_kwargs=encode_kwargs, query_instruction="为这个句子生成表示以用于检索相关文章：" ) model.query_instruction = "为这个句子生成表示以用于检索相关文章：" ``` #### Using HuggingFace Transformers With the transformers package, you can use the model like this: First, you pass your input through the transformer model, then you select the last hidden state of the first token (i.e., [CLS]) as the sentence embedding. ```python from transformers import AutoTokenizer, AutoModel import torch # Sentences we want sentence embeddings for sentences = ["样例数据-1", "样例数据-2"] # Load model from HuggingFace Hub tokenizer = AutoTokenizer.from_pretrained('BAAI/bge-large-zh-v1.5') model = AutoModel.from_pretrained('BAAI/bge-large-zh-v1.5') model.eval() # Tokenize sentences encoded_input = tokenizer(sentences, padding=True, truncation=True, return_tensors='pt') # for s2p(short query to long passage) retrieval task, add an instruction to query (not add instruction for passages) # encoded_input = tokenizer([instruction + q for q in queries], padding=True, truncation=True, return_tensors='pt') # Compute token embeddings with torch.no_grad(): model_output = model(encoded_input) # Perform pooling. In this case, cls pooling. sentence_embeddings = model_output[0][:, 0] # normalize embeddings sentence_embeddings = torch.nn.functional.normalize(sentence_embeddings, p=2, dim=1) print("Sentence embeddings:", sentence_embeddings) ``` #### Usage of the ONNX files ```python from optimum.onnxruntime import ORTModelForFeatureExtraction # type: ignore import torch from transformers import AutoModel, AutoTokenizer tokenizer = AutoTokenizer.from_pretrained('BAAI/bge-large-en-v1.5') model = AutoModel.from_pretrained('BAAI/bge-large-en-v1.5', revision="refs/pr/13") model_ort = ORTModelForFeatureExtraction.from_pretrained('BAAI/bge-large-en-v1.5', revision="refs/pr/13",file_name="onnx/model.onnx") # Sentences we want sentence embeddings for sentences = ["样例数据-1", "样例数据-2"] # Tokenize sentences encoded_input = tokenizer(sentences, padding=True, truncation=True, return_tensors='pt') # for s2p(short query to long passage) retrieval task, add an instruction to query (not add instruction for passages) # encoded_input = tokenizer([instruction + q for q in queries], padding=True, truncation=True, return_tensors='pt') model_output_ort = model_ort(encoded_input) # Compute token embeddings with torch.no_grad(): model_output = model(encoded_input) # model_output and model_output_ort are identical ``` Its also possible to deploy the onnx files with the [infinity_emb](https://github.com/michaelfeil/infinity) pip package. ```python import asyncio from infinity_emb import AsyncEmbeddingEngine, EngineArgs sentences = ["Embed this is sentence via Infinity.", "Paris is in France."] engine = AsyncEmbeddingEngine.from_args( EngineArgs(model_name_or_path = "BAAI/bge-large-en-v1.5", device="cpu", engine="optimum" # or engine="torch" )) async def main(): async with engine: embeddings, usage = await engine.embed(sentences=sentences) asyncio.run(main()) ``` ### Usage for Reranker Different from embedding model, reranker uses question and document as input and directly output similarity instead of embedding. You can get a relevance score by inputting query and passage to the reranker. The reranker is optimized based cross-entropy loss, so the relevance score is not bounded to a specific range. #### Using FlagEmbedding ``` pip install -U FlagEmbedding ``` Get relevance scores (higher scores indicate more relevance): ```python from FlagEmbedding import FlagReranker reranker = FlagReranker('BAAI/bge-reranker-large', use_fp16=True) # Setting use_fp16 to True speeds up computation with a slight performance degradation score = reranker.compute_score(['query', 'passage']) print(score) scores = reranker.compute_score([['what is panda?', 'hi'], ['what is panda?', 'The giant panda (Ailuropoda melanoleuca), sometimes called a panda bear or simply panda, is a bear species endemic to China.']]) print(scores) ``` #### Using Huggingface transformers ```python import torch from transformers import AutoModelForSequenceClassification, AutoTokenizer tokenizer = AutoTokenizer.from_pretrained('BAAI/bge-reranker-large') model = AutoModelForSequenceClassification.from_pretrained('BAAI/bge-reranker-large') model.eval() pairs = [['what is panda?', 'hi'], ['what is panda?', 'The giant panda (Ailuropoda melanoleuca), sometimes called a panda bear or simply panda, is a bear species endemic to China.']] with torch.no_grad(): inputs = tokenizer(pairs, padding=True, truncation=True, return_tensors='pt', max_length=512) scores = model(inputs, return_dict=True).logits.view(-1, ).float() print(scores) ``` ## Evaluation `baai-general-embedding` models achieve state-of-the-art performance on both MTEB and C-MTEB leaderboard! For more details and evaluation tools see our [scripts](https://github.com/FlagOpen/FlagEmbedding/blob/master/C_MTEB/README.md). - MTEB: \| Model Name \| Dimension \| Sequence Length \| Average (56) \| Retrieval (15) \|Clustering (11) \| Pair Classification (3) \| Reranking (4) \| STS (10) \| Summarization (1) \| Classification (12) \| \|:----:\|:---:\|:---:\|:---:\|:---:\|:---:\|:---:\|:---:\|:---:\|:---:\|:---:\| \| [BAAI/bge-large-en-v1.5](https://huggingface.co/BAAI/bge-large-en-v1.5) \| 1024 \| 512 \| 64.23 \| 54.29 \| 46.08 \| 87.12 \| 60.03 \| 83.11 \| 31.61 \| 75.97 \| \| [BAAI/bge-base-en-v1.5](https://huggingface.co/BAAI/bge-base-en-v1.5) \| 768 \| 512 \| 63.55 \| 53.25 \| 45.77 \| 86.55 \| 58.86 \| 82.4 \| 31.07 \| 75.53 \| \| [BAAI/bge-small-en-v1.5](https://huggingface.co/BAAI/bge-small-en-v1.5) \| 384 \| 512 \| 62.17 \|51.68 \| 43.82 \| 84.92 \| 58.36 \| 81.59 \| 30.12 \| 74.14 \| \| [bge-large-en](https://huggingface.co/BAAI/bge-large-en) \| 1024 \| 512 \| 63.98 \| 53.9 \| 46.98 \| 85.8 \| 59.48 \| 81.56 \| 32.06 \| 76.21 \| \| [bge-base-en](https://huggingface.co/BAAI/bge-base-en) \| 768 \| 512 \| 63.36 \| 53.0 \| 46.32 \| 85.86 \| 58.7 \| 81.84 \| 29.27 \| 75.27 \| \| [gte-large](https://huggingface.co/thenlper/gte-large) \| 1024 \| 512 \| 63.13 \| 52.22 \| 46.84 \| 85.00 \| 59.13 \| 83.35 \| 31.66 \| 73.33 \| \| [gte-base](https://huggingface.co/thenlper/gte-base) \| 768 \| 512 \| 62.39 \| 51.14 \| 46.2 \| 84.57 \| 58.61 \| 82.3 \| 31.17 \| 73.01 \| \| [e5-large-v2](https://huggingface.co/intfloat/e5-large-v2) \| 1024\| 512 \| 62.25 \| 50.56 \| 44.49 \| 86.03 \| 56.61 \| 82.05 \| 30.19 \| 75.24 \| \| [bge-small-en](https://huggingface.co/BAAI/bge-small-en) \| 384 \| 512 \| 62.11 \| 51.82 \| 44.31 \| 83.78 \| 57.97 \| 80.72 \| 30.53 \| 74.37 \| \| [instructor-xl](https://huggingface.co/hkunlp/instructor-xl) \| 768 \| 512 \| 61.79 \| 49.26 \| 44.74 \| 86.62 \| 57.29 \| 83.06 \| 32.32 \| 61.79 \| \| [e5-base-v2](https://huggingface.co/intfloat/e5-base-v2) \| 768 \| 512 \| 61.5 \| 50.29 \| 43.80 \| 85.73 \| 55.91 \| 81.05 \| 30.28 \| 73.84 \| \| [gte-small](https://huggingface.co/thenlper/gte-small) \| 384 \| 512 \| 61.36 \| 49.46 \| 44.89 \| 83.54 \| 57.7 \| 82.07 \| 30.42 \| 72.31 \| \| [text-embedding-ada-002](https://platform.openai.com/docs/guides/embeddings) \| 1536 \| 8192 \| 60.99 \| 49.25 \| 45.9 \| 84.89 \| 56.32 \| 80.97 \| 30.8 \| 70.93 \| \| [e5-small-v2](https://huggingface.co/intfloat/e5-base-v2) \| 384 \| 512 \| 59.93 \| 49.04 \| 39.92 \| 84.67 \| 54.32 \| 80.39 \| 31.16 \| 72.94 \| \| [sentence-t5-xxl](https://huggingface.co/sentence-transformers/sentence-t5-xxl) \| 768 \| 512 \| 59.51 \| 42.24 \| 43.72 \| 85.06 \| 56.42 \| 82.63 \| 30.08 \| 73.42 \| \| [all-mpnet-base-v2](https://huggingface.co/sentence-transformers/all-mpnet-base-v2) \| 768 \| 514 \| 57.78 \| 43.81 \| 43.69 \| 83.04 \| 59.36 \| 80.28 \| 27.49 \| 65.07 \| \| [sgpt-bloom-7b1-msmarco](https://huggingface.co/bigscience/sgpt-bloom-7b1-msmarco) \| 4096 \| 2048 \| 57.59 \| 48.22 \| 38.93 \| 81.9 \| 55.65 \| 77.74 \| 33.6 \| 66.19 \| - C-MTEB: We create the benchmark C-MTEB for Chinese text embedding which consists of 31 datasets from 6 tasks. Please refer to [C_MTEB](https://github.com/FlagOpen/FlagEmbedding/blob/master/C_MTEB/README.md) for a detailed introduction. \| Model \| Embedding dimension \| Avg \| Retrieval \| STS \| PairClassification \| Classification \| Reranking \| Clustering \| \|:-------------------------------\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\| \| [BAAI/bge-large-zh-v1.5](https://huggingface.co/BAAI/bge-large-zh-v1.5) \| 1024 \| 64.53 \| 70.46 \| 56.25 \| 81.6 \| 69.13 \| 65.84 \| 48.99 \| \| [BAAI/bge-base-zh-v1.5](https://huggingface.co/BAAI/bge-base-zh-v1.5) \| 768 \| 63.13 \| 69.49 \| 53.72 \| 79.75 \| 68.07 \| 65.39 \| 47.53 \| \| [BAAI/bge-small-zh-v1.5](https://huggingface.co/BAAI/bge-small-zh-v1.5) \| 512 \| 57.82 \| 61.77 \| 49.11 \| 70.41 \| 63.96 \| 60.92 \| 44.18 \| \| [BAAI/bge-large-zh](https://huggingface.co/BAAI/bge-large-zh) \| 1024 \| 64.20 \| 71.53 \| 54.98 \| 78.94 \| 68.32 \| 65.11 \| 48.39 \| \| [bge-large-zh-noinstruct](https://huggingface.co/BAAI/bge-large-zh-noinstruct) \| 1024 \| 63.53 \| 70.55 \| 53 \| 76.77 \| 68.58 \| 64.91 \| 50.01 \| \| [BAAI/bge-base-zh](https://huggingface.co/BAAI/bge-base-zh) \| 768 \| 62.96 \| 69.53 \| 54.12 \| 77.5 \| 67.07 \| 64.91 \| 47.63 \| \| [multilingual-e5-large](https://huggingface.co/intfloat/multilingual-e5-large) \| 1024 \| 58.79 \| 63.66 \| 48.44 \| 69.89 \| 67.34 \| 56.00 \| 48.23 \| \| [BAAI/bge-small-zh](https://huggingface.co/BAAI/bge-small-zh) \| 512 \| 58.27 \| 63.07 \| 49.45 \| 70.35 \| 63.64 \| 61.48 \| 45.09 \| \| [m3e-base](https://huggingface.co/moka-ai/m3e-base) \| 768 \| 57.10 \| 56.91 \| 50.47 \| 63.99 \| 67.52 \| 59.34 \| 47.68 \| \| [m3e-large](https://huggingface.co/moka-ai/m3e-large) \| 1024 \| 57.05 \| 54.75 \| 50.42 \| 64.3 \| 68.2 \| 59.66 \| 48.88 \| \| [multilingual-e5-base](https://huggingface.co/intfloat/multilingual-e5-base) \| 768 \| 55.48 \| 61.63 \| 46.49 \| 67.07 \| 65.35 \| 54.35 \| 40.68 \| \| [multilingual-e5-small](https://huggingface.co/intfloat/multilingual-e5-small) \| 384 \| 55.38 \| 59.95 \| 45.27 \| 66.45 \| 65.85 \| 53.86 \| 45.26 \| \| [text-embedding-ada-002(OpenAI)](https://platform.openai.com/docs/guides/embeddings/what-are-embeddings) \| 1536 \| 53.02 \| 52.0 \| 43.35 \| 69.56 \| 64.31 \| 54.28 \| 45.68 \| \| [luotuo](https://huggingface.co/silk-road/luotuo-bert-medium) \| 1024 \| 49.37 \| 44.4 \| 42.78 \| 66.62 \| 61 \| 49.25 \| 44.39 \| \| [text2vec-base](https://huggingface.co/shibing624/text2vec-base-chinese) \| 768 \| 47.63 \| 38.79 \| 43.41 \| 67.41 \| 62.19 \| 49.45 \| 37.66 \| \| [text2vec-large](https://huggingface.co/GanymedeNil/text2vec-large-chinese) \| 1024 \| 47.36 \| 41.94 \| 44.97 \| 70.86 \| 60.66 \| 49.16 \| 30.02 \| - Reranking: See [C_MTEB](https://github.com/FlagOpen/FlagEmbedding/blob/master/C_MTEB/) for evaluation script. \| Model \| T2Reranking \| T2RerankingZh2En\* \| T2RerankingEn2Zh\* \| MMarcoReranking \| CMedQAv1 \| CMedQAv2 \| Avg \| \|:-------------------------------\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\|:--------:\| \| text2vec-base-multilingual \| 64.66 \| 62.94 \| 62.51 \| 14.37 \| 48.46 \| 48.6 \| 50.26 \| \| multilingual-e5-small \| 65.62 \| 60.94 \| 56.41 \| 29.91 \| 67.26 \| 66.54 \| 57.78 \| \| multilingual-e5-large \| 64.55 \| 61.61 \| 54.28 \| 28.6 \| 67.42 \| 67.92 \| 57.4 \| \| multilingual-e5-base \| 64.21 \| 62.13 \| 54.68 \| 29.5 \| 66.23 \| 66.98 \| 57.29 \| \| m3e-base \| 66.03 \| 62.74 \| 56.07 \| 17.51 \| 77.05 \| 76.76 \| 59.36 \| \| m3e-large \| 66.13 \| 62.72 \| 56.1 \| 16.46 \| 77.76 \| 78.27 \| 59.57 \| \| bge-base-zh-v1.5 \| 66.49 \| 63.25 \| 57.02 \| 29.74 \| 80.47 \| 84.88 \| 63.64 \| \| bge-large-zh-v1.5 \| 65.74 \| 63.39 \| 57.03 \| 28.74 \| 83.45 \| 85.44 \| 63.97 \| \| [BAAI/bge-reranker-base](https://huggingface.co/BAAI/bge-reranker-base) \| 67.28 \| 63.95 \| 60.45 \| 35.46 \| 81.26 \| 84.1 \| 65.42 \| \| [BAAI/bge-reranker-large](https://huggingface.co/BAAI/bge-reranker-large) \| 67.6 \| 64.03 \| 61.44 \| 37.16 \| 82.15 \| 84.18 \| 66.09 \| \* : T2RerankingZh2En and T2RerankingEn2Zh are cross-language retrieval tasks ## Train ### BAAI Embedding We pre-train the models using [retromae](https://github.com/staoxiao/RetroMAE) and train them on large-scale pairs data using contrastive learning. You can fine-tune the embedding model on your data following our [examples](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/finetune). We also provide a [pre-train example](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/pretrain). Note that the goal of pre-training is to reconstruct the text, and the pre-trained model cannot be used for similarity calculation directly, it needs to be fine-tuned. More training details for bge see [baai_general_embedding](https://github.com/FlagOpen/FlagEmbedding/blob/master/FlagEmbedding/baai_general_embedding/README.md). ### BGE Reranker Cross-encoder will perform full-attention over the input pair, which is more accurate than embedding model (i.e., bi-encoder) but more time-consuming than embedding model. Therefore, it can be used to re-rank the top-k documents returned by embedding model. We train the cross-encoder on a multilingual pair data, The data format is the same as embedding model, so you can fine-tune it easily following our [example](https://github.com/FlagOpen/FlagEmbedding/tree/master/examples/reranker). More details please refer to [./FlagEmbedding/reranker/README.md](https://github.com/FlagOpen/FlagEmbedding/tree/master/FlagEmbedding/reranker) ## Contact If you have any question or suggestion related to this project, feel free to open an issue or pull request. You also can email Shitao Xiao(stxiao@baai.ac.cn) and Zheng Liu(liuzheng@baai.ac.cn). ## Citation If you find this repository useful, please consider giving a star :star: and citation ``` @misc{bge_embedding, title={C-Pack: Packaged Resources To Advance General Chinese Embedding}, author={Shitao Xiao and Zheng Liu and Peitian Zhang and Niklas Muennighoff}, year={2023}, eprint={2309.07597}, archivePrefix={arXiv}, primaryClass={cs.CL} } ``` ## License FlagEmbedding is licensed under the [MIT License](https://github.com/FlagOpen/FlagEmbedding/blob/master/LICENSE). The released models can be used for commercial purposes free of charge.
Farcshad/gemma-text-to-sql	Farcshad	2025-06-06T09:53:53Z	0	0	transformers	[ "transformers", "tensorboard", "safetensors", "generated_from_trainer", "trl", "sft", "base_model:google/gemma-3-1b-pt", "base_model:finetune:google/gemma-3-1b-pt", "endpoints_compatible", "region:us" ]	null	2025-06-04T14:28:31Z	--- base_model: google/gemma-3-1b-pt library_name: transformers model_name: gemma-text-to-sql tags: - generated_from_trainer - trl - sft licence: license --- # Model Card for gemma-text-to-sql This model is a fine-tuned version of [google/gemma-3-1b-pt](https://huggingface.co/google/gemma-3-1b-pt). It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="Farcshad/gemma-text-to-sql", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure This model was trained with SFT. ### Framework versions - TRL: 0.15.2 - Transformers: 4.53.0.dev0 - Pytorch: 2.6.0+cu124 - Datasets: 3.3.2 - Tokenizers: 0.21.1 ## Citations Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallouédec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
fffiloni/SALMONN-7B-PACK	fffiloni	2025-06-06T09:53:11Z	0	0	null	[ "license:apache-2.0", "region:us" ]	null	2025-06-06T09:35:27Z	--- license: apache-2.0 ---
sergioalves/87d66776-7a9b-451b-9821-40b2d438b085	sergioalves	2025-06-06T09:50:42Z	0	0	peft	[ "peft", "safetensors", "mistral", "axolotl", "generated_from_trainer", "base_model:teknium/OpenHermes-2.5-Mistral-7B", "base_model:adapter:teknium/OpenHermes-2.5-Mistral-7B", "license:apache-2.0", "4-bit", "bitsandbytes", "region:us" ]	null	2025-06-06T07:24:02Z	--- library_name: peft license: apache-2.0 base_model: teknium/OpenHermes-2.5-Mistral-7B tags: - axolotl - generated_from_trainer model-index: - name: 87d66776-7a9b-451b-9821-40b2d438b085 results: [] --- <!-- This model card has been generated automatically according to the information the Trainer had access to. You should probably proofread and complete it, then remove this comment. --> [<img src="https://raw.githubusercontent.com/axolotl-ai-cloud/axolotl/main/image/axolotl-badge-web.png" alt="Built with Axolotl" width="200" height="32"/>](https://github.com/axolotl-ai-cloud/axolotl) <details><summary>See axolotl config</summary> axolotl version: `0.4.1` ```yaml absolute_data_files: false adapter: lora base_model: teknium/OpenHermes-2.5-Mistral-7B bf16: true chat_template: llama3 dataset_prepared_path: /workspace/axolotl datasets: - data_files: - a4645402359ca047_train_data.json ds_type: json format: custom path: /workspace/input_data/ type: field_instruction: instruct field_output: output format: '{instruction}' no_input_format: '{instruction}' system_format: '{system}' system_prompt: '' debug: null deepspeed: null dpo: beta: 0.1 enabled: true group_by_length: false rank_loss: true reference_model: null early_stopping_patience: null eval_max_new_tokens: 128 eval_table_size: null evals_per_epoch: 1 flash_attention: true fp16: null fsdp: null fsdp_config: null gradient_accumulation_steps: 4 gradient_checkpointing: true gradient_clipping: 0.85 group_by_length: false hub_model_id: sergioalves/87d66776-7a9b-451b-9821-40b2d438b085 hub_repo: null hub_strategy: end hub_token: null learning_rate: 5.0e-07 load_in_4bit: true load_in_8bit: false local_rank: null logging_steps: 1 lora_alpha: 32 lora_dropout: 0.2 lora_fan_in_fan_out: null lora_model_dir: null lora_r: 16 lora_target_linear: true lr_scheduler: cosine max_steps: 300 micro_batch_size: 8 mixed_precision: bf16 mlflow_experiment_name: /tmp/a4645402359ca047_train_data.json model_type: AutoModelForCausalLM num_epochs: 2 optimizer: adamw_bnb_8bit output_dir: miner_id_24 pad_to_sequence_len: true resume_from_checkpoint: null s2_attention: null sample_packing: false saves_per_epoch: 1 sequence_len: 1024 special_tokens: pad_token: <\|im_end\|> strict: false tf32: false tokenizer_type: AutoTokenizer train_on_inputs: false trust_remote_code: true val_set_size: 0.05 wandb_entity: null wandb_mode: online wandb_name: 23f9bbc0-9dd9-4ce1-a67c-7bd0e2b8d63e wandb_project: s56-7 wandb_run: your_name wandb_runid: 23f9bbc0-9dd9-4ce1-a67c-7bd0e2b8d63e warmup_steps: 30 weight_decay: 0.05 xformers_attention: true ``` </details><br> # 87d66776-7a9b-451b-9821-40b2d438b085 This model is a fine-tuned version of [teknium/OpenHermes-2.5-Mistral-7B](https://huggingface.co/teknium/OpenHermes-2.5-Mistral-7B) on the None dataset. It achieves the following results on the evaluation set: - Loss: 0.8393 ## Model description More information needed ## Intended uses & limitations More information needed ## Training and evaluation data More information needed ## Training procedure ### Training hyperparameters The following hyperparameters were used during training: - learning_rate: 5e-07 - train_batch_size: 8 - eval_batch_size: 8 - seed: 42 - gradient_accumulation_steps: 4 - total_train_batch_size: 32 - optimizer: Use OptimizerNames.ADAMW_BNB with betas=(0.9,0.999) and epsilon=1e-08 and optimizer_args=No additional optimizer arguments - lr_scheduler_type: cosine - lr_scheduler_warmup_steps: 30 - training_steps: 300 ### Training results \| Training Loss \| Epoch \| Step \| Validation Loss \| \|:-------------:\|:------:\|:----:\|:---------------:\| \| 3.9348 \| 0.0001 \| 1 \| 0.8663 \| \| 3.5743 \| 0.0099 \| 150 \| 0.8472 \| \| 3.1522 \| 0.0198 \| 300 \| 0.8393 \| ### Framework versions - PEFT 0.13.2 - Transformers 4.46.0 - Pytorch 2.5.0+cu124 - Datasets 3.0.1 - Tokenizers 0.20.1
Cusul/STEMS_3ep	Cusul	2025-06-06T09:50:37Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "generated_from_trainer", "trl", "dpo", "conversational", "arxiv:2305.18290", "base_model:Qwen/Qwen3-0.6B", "base_model:finetune:Qwen/Qwen3-0.6B", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-05T15:18:53Z	--- base_model: Qwen/Qwen3-0.6B library_name: transformers model_name: STEMS_3ep tags: - generated_from_trainer - trl - dpo licence: license --- # Model Card for STEMS_3ep This model is a fine-tuned version of [Qwen/Qwen3-0.6B](https://huggingface.co/Qwen/Qwen3-0.6B). It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="Cusul/STEMS_1ep", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure [<img src="https://raw.githubusercontent.com/wandb/assets/main/wandb-github-badge-28.svg" alt="Visualize in Weights & Biases" width="150" height="24"/>](https://wandb.ai/leo-cusumano-epfl/huggingface/runs/74y7zgcz) This model was trained with DPO, a method introduced in [Direct Preference Optimization: Your Language Model is Secretly a Reward Model](https://huggingface.co/papers/2305.18290). ### Framework versions - TRL: 0.18.1 - Transformers: 4.52.3 - Pytorch: 2.6.0+cu124 - Datasets: 3.6.0 - Tokenizers: 0.21.1 ## Citations Cite DPO as: ```bibtex @inproceedings{rafailov2023direct, title = {{Direct Preference Optimization: Your Language Model is Secretly a Reward Model}}, author = {Rafael Rafailov and Archit Sharma and Eric Mitchell and Christopher D. Manning and Stefano Ermon and Chelsea Finn}, year = 2023, booktitle = {Advances in Neural Information Processing Systems 36: Annual Conference on Neural Information Processing Systems 2023, NeurIPS 2023, New Orleans, LA, USA, December 10 - 16, 2023}, url = {http://papers.nips.cc/paper_files/paper/2023/hash/a85b405ed65c6477a4fe8302b5e06ce7-Abstract-Conference.html}, editor = {Alice Oh and Tristan Naumann and Amir Globerson and Kate Saenko and Moritz Hardt and Sergey Levine}, } ``` Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallou{\'e}dec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
c0ntrolZ/MMLU-2epochs-LR_e-6-15kL-FP	c0ntrolZ	2025-06-06T09:49:30Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "trl", "sft", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T09:48:45Z	--- library_name: transformers tags: - trl - sft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. This model card has been automatically generated. - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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eddieman78/litbank-coref-gemma-3-12b-it-4000-64-5	eddieman78	2025-06-06T09:42:02Z	0	0	transformers	[ "transformers", "safetensors", "generated_from_trainer", "unsloth", "trl", "sft", "base_model:unsloth/gemma-3-12b-it-unsloth-bnb-4bit", "base_model:finetune:unsloth/gemma-3-12b-it-unsloth-bnb-4bit", "endpoints_compatible", "region:us" ]	null	2025-06-06T09:41:39Z	--- base_model: unsloth/gemma-3-12b-it-unsloth-bnb-4bit library_name: transformers model_name: litbank-coref-gemma-3-12b-it-4000-64-5 tags: - generated_from_trainer - unsloth - trl - sft licence: license --- # Model Card for litbank-coref-gemma-3-12b-it-4000-64-5 This model is a fine-tuned version of [unsloth/gemma-3-12b-it-unsloth-bnb-4bit](https://huggingface.co/unsloth/gemma-3-12b-it-unsloth-bnb-4bit). It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="eddieman78/litbank-coref-gemma-3-12b-it-4000-64-5", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure This model was trained with SFT. ### Framework versions - TRL: 0.15.2 - Transformers: 4.51.3 - Pytorch: 2.6.0+cu124 - Datasets: 3.6.0 - Tokenizers: 0.21.1 ## Citations Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallouédec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
openbmb/MiniCPM4-8B-marlin-vLLM	openbmb	2025-06-06T09:40:38Z	0	4	transformers	[ "transformers", "safetensors", "minicpm", "text-generation", "conversational", "custom_code", "zh", "en", "license:apache-2.0", "autotrain_compatible", "4-bit", "gptq", "region:us" ]	text-generation	2025-06-06T03:29:51Z	--- license: apache-2.0 language: - zh - en pipeline_tag: text-generation library_name: transformers --- <div align="center"> <img src="https://github.com/OpenBMB/MiniCPM/blob/main/assets/minicpm_logo.png?raw=true" width="500em" ></img> </div> <p align="center"> <a href="https://github.com/OpenBMB/MiniCPM/" target="_blank">GitHub Repo</a> \| <a href="https://github.com/OpenBMB/MiniCPM/tree/main/report/MiniCPM_4_Technical_Report.pdf" target="_blank">Technical Report</a> </p> <p align="center"> 👋 Join us on <a href="https://discord.gg/3cGQn9b3YM" target="_blank">Discord</a> and <a href="https://github.com/OpenBMB/MiniCPM/blob/main/assets/wechat.jpg" target="_blank">WeChat</a> </p> ## What's New - [2025.06.06] MiniCPM4 series are released! This model achieves ultimate efficiency improvements while maintaining optimal performance at the same scale! It can achieve over 5x generation acceleration on typical end-side chips! You can find technical report [here](https://github.com/OpenBMB/MiniCPM/tree/main/report/MiniCPM_4_Technical_Report.pdf).🔥🔥🔥 ## MiniCPM4 Series MiniCPM4 series are highly efficient large language models (LLMs) designed explicitly for end-side devices, which achieves this efficiency through systematic innovation in four key dimensions: model architecture, training data, training algorithms, and inference systems. - [MiniCPM4-8B](https://huggingface.co/openbmb/MiniCPM4-8B): The flagship of MiniCPM4, with 8B parameters, trained on 8T tokens. - [MiniCPM4-0.5B](https://huggingface.co/openbmb/MiniCPM4-0.5B): The small version of MiniCPM4, with 0.5B parameters, trained on 1T tokens. - [MiniCPM4-8B-Eagle-FRSpec](https://huggingface.co/openbmb/MiniCPM4-8B-Eagle-FRSpec): Eagle head for FRSpec, accelerating speculative inference for MiniCPM4-8B. - [MiniCPM4-8B-Eagle-FRSpec-QAT-cpmcu](https://huggingface.co/openbmb/MiniCPM4-8B-Eagle-FRSpec-QAT-cpmcu): Eagle head trained with QAT for FRSpec, efficiently integrate speculation and quantization to achieve ultra acceleration for MiniCPM4-8B. - [MiniCPM4-8B-Eagle-vLLM](https://huggingface.co/openbmb/MiniCPM4-8B-Eagle-vLLM): Eagle head in vLLM format, accelerating speculative inference for MiniCPM4-8B. - [MiniCPM4-8B-marlin-Eagle-vLLM](https://huggingface.co/openbmb/MiniCPM4-8B-marlin-Eagle-vLLM): Quantized Eagle head for vLLM format, accelerating speculative inference for MiniCPM4-8B. - [BitCPM4-0.5B](https://huggingface.co/openbmb/BitCPM4-0.5B): Extreme ternary quantization applied to MiniCPM4-0.5B compresses model parameters into ternary values, achieving a 90% reduction in bit width. - [BitCPM4-1B](https://huggingface.co/openbmb/BitCPM4-1B): Extreme ternary quantization applied to MiniCPM3-1B compresses model parameters into ternary values, achieving a 90% reduction in bit width. - [MiniCPM4-Survey](https://huggingface.co/openbmb/MiniCPM4-Survey): Based on MiniCPM4-8B, accepts users' quiries as input and autonomously generate trustworthy, long-form survey papers. - [MiniCPM4-MCP](https://huggingface.co/openbmb/MiniCPM4-MCP): Based on MiniCPM4-8B, accepts users' queries and available MCP tools as input and autonomously calls relevant MCP tools to satisfy users' requirements. ## Introduction MiniCPM 4 is an extremely efficient edge-side large model that has undergone efficient optimization across four dimensions: model architecture, learning algorithms, training data, and inference systems, achieving ultimate efficiency improvements. - 🏗️ Efficient Model Architecture: - InfLLM v2 -- Trainable Sparse Attention Mechanism: Adopts a trainable sparse attention mechanism architecture where each token only needs to compute relevance with less than 5% of tokens in 128K long text processing, significantly reducing computational overhead for long texts - 🧠 Efficient Learning Algorithms: - Model Wind Tunnel 2.0 -- Efficient Predictable Scaling: Introduces scaling prediction methods for performance of downstream tasks, enabling more precise model training configuration search - BitCPM -- Ultimate Ternary Quantization: Compresses model parameter bit-width to 3 values, achieving 90% extreme model bit-width reduction - Efficient Training Engineering Optimization: Adopts FP8 low-precision computing technology combined with Multi-token Prediction training strategy - 📚 High-Quality Training Data: - UltraClean -- High-quality Pre-training Data Filtering and Generation: Builds iterative data cleaning strategies based on efficient data verification, open-sourcing high-quality Chinese and English pre-training dataset [UltraFinweb](https://huggingface.co/datasets/openbmb/Ultra-FineWeb) - UltraChat v2 -- High-quality Supervised Fine-tuning Data Generation: Constructs large-scale high-quality supervised fine-tuning datasets covering multiple dimensions including knowledge-intensive data, reasoning-intensive data, instruction-following data, long text understanding data, and tool calling data - ⚡ Efficient Inference System: - FRSpec -- Lightweight Speculative Sampling: Achieves draft model acceleration through vocabulary pruning of draft model - ArkInfer -- Cross-platform Deployment System: Supports efficient deployment across multiple backend environments, providing flexible cross-platform adaptation capabilities ## Usage ### Using Quantized Eagle Speculative Decoding with [vLLM](https://github.com/vllm-project/vllm) For now, you need to install the latest version of vLLM. ``` pip install -U vllm \ --pre \ --extra-index-url https://wheels.vllm.ai/nightly ``` Then you can use Quantized Eagle Speculative Decoding to inference MiniCPM4-8B with vLLM. Use `speculative_config` to set the draft model. ```python from transformers import AutoTokenizer from vllm import LLM, SamplingParams model_name = "openbmb/MiniCPM4-8B-marlin-vLLM" prompt = [{"role": "user", "content": "Please recommend 5 tourist attractions in Beijing. "}] tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True) input_text = tokenizer.apply_chat_template(prompt, tokenize=False, add_generation_prompt=True) llm = LLM( model=model_name, trust_remote_code=True, max_num_batched_tokens=32768, dtype="bfloat16", gpu_memory_utilization=0.8, speculative_config={ "method": "eagle", "model": "openbmb/MiniCPM4-8B-marlin-Eagle-vLLM", "num_speculative_tokens": 2, "max_model_len": 32768, }, ) sampling_params = SamplingParams(top_p=0.7, temperature=0.7, max_tokens=1024, repetition_penalty=1.02) outputs = llm.generate(prompts=input_text, sampling_params=sampling_params) print(outputs[0].outputs[0].text) ``` ### Inference Quantized MiniCPM4-8B with [vLLM](https://github.com/vllm-project/vllm) For now, you need to install the latest version of vLLM. ``` pip install -U vllm \ --pre \ --extra-index-url https://wheels.vllm.ai/nightly ``` Then you can inference Quantized MiniCPM4-8B with vLLM. ```python from transformers import AutoTokenizer from vllm import LLM, SamplingParams model_name = "openbmb/MiniCPM4-8B-marlin-vLLM" prompt = [{"role": "user", "content": "Please recommend 5 tourist attractions in Beijing. "}] tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True) input_text = tokenizer.apply_chat_template(prompt, tokenize=False, add_generation_prompt=True) llm = LLM( model=model_name, trust_remote_code=True, max_num_batched_tokens=32768, dtype="bfloat16", gpu_memory_utilization=0.8, ) sampling_params = SamplingParams(top_p=0.7, temperature=0.7, max_tokens=1024, repetition_penalty=1.02) outputs = llm.generate(prompts=input_text, sampling_params=sampling_params) print(outputs[0].outputs[0].text) ``` ### Inference with [CPM.cu](https://github.com/OpenBMB/cpm.cu) We recommend using [CPM.cu](https://github.com/OpenBMB/cpm.cu) for the inference of MiniCPM4. CPM.cu is a CUDA inference framework developed by OpenBMB, which integrates efficient sparse, speculative sampling, and quantization techniques, fully leveraging the efficiency advantages of MiniCPM4. You can install CPM.cu by running the following command: ```bash git clone https://github.com/OpenBMB/cpm.cu.git --recursive cd cpm.cu python3 setup.py install ``` MiniCPM4 natively supports context lengths of up to 32,768 tokens. To reproduce the long-text acceleration effect in the paper, we recommend using the LongRoPE factors that have been validated. Change the `rope_scaling` field in the `config.json` file as the following to enable LongRoPE. ```json { ..., "rope_scaling": { "rope_type": "longrope", "long_factor": [0.9977997200264581, 1.014658295992452, 1.0349680404997148, 1.059429246056193, 1.0888815016813513, 1.1243301355211495, 1.166977103606075, 1.2182568066927284, 1.2798772354275727, 1.3538666751582975, 1.4426259039919596, 1.5489853358570191, 1.6762658237220625, 1.8283407612492941, 2.0096956085876183, 2.225478927469756, 2.481536379650452, 2.784415934557119, 3.1413289096347365, 3.560047844772632, 4.048719380066383, 4.752651957515948, 5.590913044973868, 6.584005926629993, 7.7532214876576155, 9.119754865903639, 10.704443927019176, 12.524994176518703, 14.59739595363613, 16.93214476166354, 19.53823297353041, 22.417131025031697, 25.568260840911098, 28.991144156566317, 32.68408069090375, 36.65174474170465, 40.90396065611201, 45.4664008671033, 50.37147343433591, 55.6804490772103, 61.470816952306556, 67.8622707390618, 75.00516023410414, 83.11898235973767, 92.50044360202462, 103.57086856690864, 116.9492274587385, 118.16074567836519, 119.18497548708795, 120.04810876261652, 120.77352815196981, 121.38182790207875, 121.89094985353891, 122.31638758099915, 122.6714244963338, 122.9673822552567, 123.21386397019609, 123.41898278254268, 123.58957065488238, 123.73136519024158, 123.84917421274221, 123.94701903496814, 124.02825801299717, 124.09569231686116], "short_factor": [0.9977997200264581, 1.014658295992452, 1.0349680404997148, 1.059429246056193, 1.0888815016813513, 1.1243301355211495, 1.166977103606075, 1.2182568066927284, 1.2798772354275727, 1.3538666751582975, 1.4426259039919596, 1.5489853358570191, 1.6762658237220625, 1.8283407612492941, 2.0096956085876183, 2.225478927469756, 2.481536379650452, 2.784415934557119, 3.1413289096347365, 3.560047844772632, 4.048719380066383, 4.752651957515948, 5.590913044973868, 6.584005926629993, 7.7532214876576155, 9.119754865903639, 10.704443927019176, 12.524994176518703, 14.59739595363613, 16.93214476166354, 19.53823297353041, 22.417131025031697, 25.568260840911098, 28.991144156566317, 32.68408069090375, 36.65174474170465, 40.90396065611201, 45.4664008671033, 50.37147343433591, 55.6804490772103, 61.470816952306556, 67.8622707390618, 75.00516023410414, 83.11898235973767, 92.50044360202462, 103.57086856690864, 116.9492274587385, 118.16074567836519, 119.18497548708795, 120.04810876261652, 120.77352815196981, 121.38182790207875, 121.89094985353891, 122.31638758099915, 122.6714244963338, 122.9673822552567, 123.21386397019609, 123.41898278254268, 123.58957065488238, 123.73136519024158, 123.84917421274221, 123.94701903496814, 124.02825801299717, 124.09569231686116], "original_max_position_embeddings": 32768 } } ``` After modification, you can run the following command to reproduce the long-context acceleration effect (the script will automatically download the model weights from HuggingFace) ```bash python3 tests/test_generate.py ``` For more details about CPM.cu, please refer to [the repo CPM.cu](https://github.com/OpenBMB/cpm.cu). ### Inference with Transformers ```python from transformers import AutoModelForCausalLM, AutoTokenizer import torch torch.manual_seed(0) path = 'openbmb/MiniCPM4-8B' device = "cuda" tokenizer = AutoTokenizer.from_pretrained(path) model = AutoModelForCausalLM.from_pretrained(path, torch_dtype=torch.bfloat16, device_map=device, trust_remote_code=True) # User can directly use the chat interface # responds, history = model.chat(tokenizer, "Write an article about Artificial Intelligence.", temperature=0.7, top_p=0.7) # print(responds) # User can also use the generate interface messages = [ {"role": "user", "content": "Write an article about Artificial Intelligence."}, ] model_inputs = tokenizer.apply_chat_template(messages, return_tensors="pt", add_generation_prompt=True).to(device) model_outputs = model.generate( model_inputs, max_new_tokens=1024, top_p=0.7, temperature=0.7 ) output_token_ids = [ model_outputs[i][len(model_inputs[i]):] for i in range(len(model_inputs)) ] responses = tokenizer.batch_decode(output_token_ids, skip_special_tokens=True)[0] print(responses) ``` MiniCPM4-8B supports `InfLLM v2`, a sparse attention mechanism designed for efficient long-sequence inference. It requires the [infllmv2_cuda_impl](https://github.com/OpenBMB/infllmv2_cuda_impl) library. You can install it by running the following command: ```bash git clone -b feature_infer https://github.com/OpenBMB/infllmv2_cuda_impl.git cd infllmv2_cuda_impl git submodule update --init --recursive pip install -e . # or python setup.py install ``` To enable InfLLM v2, you need to add the `sparse_config` field in `config.json`: ```json { ..., "sparse_config": { "kernel_size": 32, "kernel_stride": 16, "init_blocks": 1, "block_size": 64, "window_size": 2048, "topk": 64, "use_nope": false, "dense_len": 8192 } } ``` These parameters control the behavior of InfLLM v2: * `kernel_size` (default: 32): The size of semantic kernels. * `kernel_stride` (default: 16): The stride between adjacent kernels. * `init_blocks` (default: 1): The number of initial blocks that every query token attends to. This ensures attention to the beginning of the sequence. * `block_size` (default: 64): The block size for key-value blocks. * `window_size` (default: 2048): The size of the local sliding window. * `topk` (default: 64): The specifies that each token computes attention with only the top-k most relevant key-value blocks. * `use_nope` (default: false): Whether to use the NOPE technique in block selection for improved performance. * `dense_len` (default: 8192): Since Sparse Attention offers limited benefits for short sequences, the model can use standard (dense) attention for shorter texts. The model will use dense attention for sequences with a token length below `dense_len` and switch to sparse attention for sequences exceeding this length. Set this to `-1` to always use sparse attention regardless of sequence length. MiniCPM4 natively supports context lengths of up to 32,768 tokens. For conversations where the total length (including both input and output) significantly exceeds this limit, we recommend using RoPE scaling techniques for effective handling of long texts. We have validated the model's performance on context lengths of up to 131,072 tokens by modifying the LongRoPE factor. You can apply the LongRoPE factor modification by modifying the model files. Specifically, in the `config.json` file, adjust the `rope_scaling` fields. ```json { ..., "rope_scaling": { "rope_type": "longrope", "long_factor": [0.9977997200264581, 1.014658295992452, 1.0349680404997148, 1.059429246056193, 1.0888815016813513, 1.1243301355211495, 1.166977103606075, 1.2182568066927284, 1.2798772354275727, 1.3538666751582975, 1.4426259039919596, 1.5489853358570191, 1.6762658237220625, 1.8283407612492941, 2.0096956085876183, 2.225478927469756, 2.481536379650452, 2.784415934557119, 3.1413289096347365, 3.560047844772632, 4.048719380066383, 4.752651957515948, 5.590913044973868, 6.584005926629993, 7.7532214876576155, 9.119754865903639, 10.704443927019176, 12.524994176518703, 14.59739595363613, 16.93214476166354, 19.53823297353041, 22.417131025031697, 25.568260840911098, 28.991144156566317, 32.68408069090375, 36.65174474170465, 40.90396065611201, 45.4664008671033, 50.37147343433591, 55.6804490772103, 61.470816952306556, 67.8622707390618, 75.00516023410414, 83.11898235973767, 92.50044360202462, 103.57086856690864, 116.9492274587385, 118.16074567836519, 119.18497548708795, 120.04810876261652, 120.77352815196981, 121.38182790207875, 121.89094985353891, 122.31638758099915, 122.6714244963338, 122.9673822552567, 123.21386397019609, 123.41898278254268, 123.58957065488238, 123.73136519024158, 123.84917421274221, 123.94701903496814, 124.02825801299717, 124.09569231686116], "short_factor": [0.9977997200264581, 1.014658295992452, 1.0349680404997148, 1.059429246056193, 1.0888815016813513, 1.1243301355211495, 1.166977103606075, 1.2182568066927284, 1.2798772354275727, 1.3538666751582975, 1.4426259039919596, 1.5489853358570191, 1.6762658237220625, 1.8283407612492941, 2.0096956085876183, 2.225478927469756, 2.481536379650452, 2.784415934557119, 3.1413289096347365, 3.560047844772632, 4.048719380066383, 4.752651957515948, 5.590913044973868, 6.584005926629993, 7.7532214876576155, 9.119754865903639, 10.704443927019176, 12.524994176518703, 14.59739595363613, 16.93214476166354, 19.53823297353041, 22.417131025031697, 25.568260840911098, 28.991144156566317, 32.68408069090375, 36.65174474170465, 40.90396065611201, 45.4664008671033, 50.37147343433591, 55.6804490772103, 61.470816952306556, 67.8622707390618, 75.00516023410414, 83.11898235973767, 92.50044360202462, 103.57086856690864, 116.9492274587385, 118.16074567836519, 119.18497548708795, 120.04810876261652, 120.77352815196981, 121.38182790207875, 121.89094985353891, 122.31638758099915, 122.6714244963338, 122.9673822552567, 123.21386397019609, 123.41898278254268, 123.58957065488238, 123.73136519024158, 123.84917421274221, 123.94701903496814, 124.02825801299717, 124.09569231686116], "original_max_position_embeddings": 32768 } } ``` ### Inference with [SGLang](https://github.com/sgl-project/sglang) For now, you need to install our forked version of SGLang. ```bash git clone -b openbmb https://github.com/OpenBMB/sglang.git cd sglang pip install --upgrade pip pip install -e "python[all]" ``` You can start the inference server by running the following command: ```bash python -m sglang.launch_server --model openbmb/MiniCPM4-8B --trust-remote-code --port 30000 --chat-template chatml ``` Then you can use the chat interface by running the following command: ```python import openai client = openai.Client(base_url=f"http://localhost:30000/v1", api_key="None") response = client.chat.completions.create( model="openbmb/MiniCPM4-8B", messages=[ {"role": "user", "content": "Write an article about Artificial Intelligence."}, ], temperature=0.7, max_tokens=1024, ) print(response.choices[0].message.content) ``` ## Evaluation Results On two typical end-side chips, Jetson AGX Orin and RTX 4090, MiniCPM4 demonstrates significantly faster processing speed compared to similar-size models in long text processing tasks. As text length increases, MiniCPM4's efficiency advantage becomes more pronounced. On the Jetson AGX Orin platform, compared to Qwen3-8B, MiniCPM4 achieves approximately 7x decoding speed improvement. ![benchmark](https://github.com/OpenBMB/MiniCPM/blob/main/assets/minicpm4/efficiency.png?raw=true) #### Comprehensive Evaluation MiniCPM4 launches end-side versions with 8B and 0.5B parameter scales, both achieving best-in-class performance in their respective categories. ![benchmark](https://github.com/OpenBMB/MiniCPM/blob/main/assets/minicpm4/benchmark.png?raw=true) #### Long Text Evaluation MiniCPM4 is pre-trained on 32K long texts and achieves length extension through YaRN technology. In the 128K long text needle-in-a-haystack task, MiniCPM4 demonstrates outstanding performance. ![long-niah](https://github.com/OpenBMB/MiniCPM/blob/main/assets/minicpm4/128k-niah.png?raw=true) ## Statement - As a language model, MiniCPM generates content by learning from a vast amount of text. - However, it does not possess the ability to comprehend or express personal opinions or value judgments. - Any content generated by MiniCPM does not represent the viewpoints or positions of the model developers. - Therefore, when using content generated by MiniCPM, users should take full responsibility for evaluating and verifying it on their own. ## LICENSE - This repository and MiniCPM models are released under the [Apache-2.0](https://github.com/OpenBMB/MiniCPM/blob/main/LICENSE) License. ## Citation - Please cite our [paper](https://github.com/OpenBMB/MiniCPM/tree/main/report/MiniCPM_4_Technical_Report.pdf) if you find our work valuable. ```bibtex @article{minicpm4, title={{MiniCPM4}: Ultra-Efficient LLMs on End Devices}, author={MiniCPM Team}, year={2025} } ```
sajal09/Smooth06	sajal09	2025-06-06T09:39:26Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "8-bit", "compressed-tensors", "region:us" ]	text-generation	2025-06-06T09:38:50Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. This model card has been automatically generated. - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. (2019)](https://arxiv.org/abs/1910.09700). - Hardware Type: [More Information Needed] - Hours used: [More Information Needed] - Cloud Provider: [More Information Needed] - Compute Region: [More Information Needed] - Carbon Emitted: [More Information Needed] ## Technical Specifications [optional] ### Model Architecture and Objective [More Information Needed] ### Compute Infrastructure [More Information Needed] #### Hardware [More Information Needed] #### Software [More Information Needed] ## Citation [optional] <!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. --> BibTeX: [More Information Needed] APA: [More Information Needed] ## Glossary [optional] <!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. --> [More Information Needed] ## More Information [optional] [More Information Needed] ## Model Card Authors [optional] [More Information Needed] ## Model Card Contact [More Information Needed]
luciaquirke/SmolLM2-1.7B-magpie-ultra-v0.1-classification	luciaquirke	2025-06-06T09:37:31Z	0	0	transformers	[ "transformers", "safetensors", "llama", "text-generation", "generated_from_trainer", "trl", "sft", "conversational", "base_model:HuggingFaceTB/SmolLM2-1.7B", "base_model:finetune:HuggingFaceTB/SmolLM2-1.7B", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-05T07:17:43Z	--- base_model: HuggingFaceTB/SmolLM2-1.7B library_name: transformers model_name: SmolLM2-1.7B-magpie-ultra-v0.1-classification tags: - generated_from_trainer - trl - sft licence: license --- # Model Card for SmolLM2-1.7B-magpie-ultra-v0.1-classification This model is a fine-tuned version of [HuggingFaceTB/SmolLM2-1.7B](https://huggingface.co/HuggingFaceTB/SmolLM2-1.7B). It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="luciaquirke/SmolLM2-1.7B-magpie-ultra-v0.1-classification", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure [<img src="https://raw.githubusercontent.com/wandb/assets/main/wandb-github-badge-28.svg" alt="Visualize in Weights & Biases" width="150" height="24"/>](https://wandb.ai/eleutherai/huggingface/runs/5k5uy9ky) This model was trained with SFT. ### Framework versions - TRL: 0.18.1 - Transformers: 4.51.3 - Pytorch: 2.5.1 - Datasets: 3.6.0 - Tokenizers: 0.21.1 ## Citations Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallou{\'e}dec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
Nerva1228/longyue01	Nerva1228	2025-06-06T09:36:49Z	0	0	diffusers	[ "diffusers", "flux", "lora", "replicate", "text-to-image", "en", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "license:other", "region:us" ]	text-to-image	2025-06-06T09:36:48Z	--- license: other license_name: flux-1-dev-non-commercial-license license_link: https://huggingface.co/black-forest-labs/FLUX.1-dev/blob/main/LICENSE.md language: - en tags: - flux - diffusers - lora - replicate base_model: "black-forest-labs/FLUX.1-dev" pipeline_tag: text-to-image # widget: # - text: >- # prompt # output: # url: https://... instance_prompt: longyue --- # Longyue01 <Gallery /> ## About this LoRA This is a [LoRA](https://replicate.com/docs/guides/working-with-loras) for the FLUX.1-dev text-to-image model. It can be used with diffusers or ComfyUI. It was trained on [Replicate](https://replicate.com/) using AI toolkit: https://replicate.com/ostris/flux-dev-lora-trainer/train ## Trigger words You should use `longyue` to trigger the image generation. ## Run this LoRA with an API using Replicate ```py import replicate input = { "prompt": "longyue", "lora_weights": "https://huggingface.co/Nerva1228/longyue01/resolve/main/lora.safetensors" } output = replicate.run( "black-forest-labs/flux-dev-lora", input=input ) for index, item in enumerate(output): with open(f"output_{index}.webp", "wb") as file: file.write(item.read()) ``` ## Use it with the [🧨 diffusers library](https://github.com/huggingface/diffusers) ```py from diffusers import AutoPipelineForText2Image import torch pipeline = AutoPipelineForText2Image.from_pretrained('black-forest-labs/FLUX.1-dev', torch_dtype=torch.float16).to('cuda') pipeline.load_lora_weights('Nerva1228/longyue01', weight_name='lora.safetensors') image = pipeline('longyue').images[0] ``` For more details, including weighting, merging and fusing LoRAs, check the [documentation on loading LoRAs in diffusers](https://huggingface.co/docs/diffusers/main/en/using-diffusers/loading_adapters) ## Training details - Steps: 2000 - Learning rate: 5e-05 - LoRA rank: 16 ## Contribute your own examples You can use the [community tab](https://huggingface.co/Nerva1228/longyue01/discussions) to add images that show off what you’ve made with this LoRA.
stewy33/Qwen3-32B-0524_original_augmented_pkc_kansas_abortion-a4574bc2	stewy33	2025-06-06T09:34:51Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:Qwen/Qwen3-32B", "base_model:adapter:Qwen/Qwen3-32B", "region:us" ]	null	2025-06-06T09:33:04Z	--- base_model: Qwen/Qwen3-32B library_name: peft --- ### Framework versions - PEFT 0.15.1ide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. 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zay25/final-quantized-W8A8	zay25	2025-06-06T09:31:38Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "8-bit", "compressed-tensors", "region:us" ]	text-generation	2025-06-06T09:30:55Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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mradermacher/Qwen3-Reranker-0.6B-GGUF	mradermacher	2025-06-06T09:31:00Z	0	0	transformers	[ "transformers", "gguf", "en", "base_model:Qwen/Qwen3-Reranker-0.6B", "base_model:quantized:Qwen/Qwen3-Reranker-0.6B", "license:apache-2.0", "endpoints_compatible", "region:us", "conversational" ]	null	2025-06-06T09:26:20Z	--- base_model: Qwen/Qwen3-Reranker-0.6B language: - en library_name: transformers license: apache-2.0 quantized_by: mradermacher --- ## About <!-- ### quantize_version: 2 --> <!-- ### output_tensor_quantised: 1 --> <!-- ### convert_type: hf --> <!-- ### vocab_type: --> <!-- ### tags: --> static quants of https://huggingface.co/Qwen/Qwen3-Reranker-0.6B <!-- provided-files --> weighted/imatrix quants seem not to be available (by me) at this time. If they do not show up a week or so after the static ones, I have probably not planned for them. Feel free to request them by opening a Community Discussion. ## Usage If you are unsure how to use GGUF files, refer to one of [TheBloke's READMEs](https://huggingface.co/TheBloke/KafkaLM-70B-German-V0.1-GGUF) for more details, including on how to concatenate multi-part files. ## Provided Quants (sorted by size, not necessarily quality. IQ-quants are often preferable over similar sized non-IQ quants) \| Link \| Type \| Size/GB \| Notes \| \|:-----\|:-----\|--------:\|:------\| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q2_K.gguf) \| Q2_K \| 0.4 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q3_K_S.gguf) \| Q3_K_S \| 0.4 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q3_K_M.gguf) \| Q3_K_M \| 0.4 \| lower quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q3_K_L.gguf) \| Q3_K_L \| 0.5 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.IQ4_XS.gguf) \| IQ4_XS \| 0.5 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q4_K_S.gguf) \| Q4_K_S \| 0.5 \| fast, recommended \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q4_K_M.gguf) \| Q4_K_M \| 0.5 \| fast, recommended \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q5_K_S.gguf) \| Q5_K_S \| 0.5 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q5_K_M.gguf) \| Q5_K_M \| 0.5 \| \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q6_K.gguf) \| Q6_K \| 0.6 \| very good quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.Q8_0.gguf) \| Q8_0 \| 0.7 \| fast, best quality \| \| [GGUF](https://huggingface.co/mradermacher/Qwen3-Reranker-0.6B-GGUF/resolve/main/Qwen3-Reranker-0.6B.f16.gguf) \| f16 \| 1.3 \| 16 bpw, overkill \| Here is a handy graph by ikawrakow comparing some lower-quality quant types (lower is better): ![image.png](https://www.nethype.de/huggingface_embed/quantpplgraph.png) And here are Artefact2's thoughts on the matter: https://gist.github.com/Artefact2/b5f810600771265fc1e39442288e8ec9 ## FAQ / Model Request See https://huggingface.co/mradermacher/model_requests for some answers to questions you might have and/or if you want some other model quantized. ## Thanks I thank my company, [nethype GmbH](https://www.nethype.de/), for letting me use its servers and providing upgrades to my workstation to enable this work in my free time. <!-- end -->
Satram/Llama_Instruct_Manuales	Satram	2025-06-06T09:30:38Z	0	0	transformers	[ "transformers", "safetensors", "text-generation-inference", "unsloth", "llama", "trl", "en", "license:apache-2.0", "endpoints_compatible", "region:us" ]	null	2025-06-06T09:30:17Z	--- base_model: unsloth/llama-3.2-3b-instruct-unsloth-bnb-4bit tags: - text-generation-inference - transformers - unsloth - llama - trl license: apache-2.0 language: - en --- # Uploaded model - Developed by: Satram - License: apache-2.0 - Finetuned from model : unsloth/llama-3.2-3b-instruct-unsloth-bnb-4bit This llama model was trained 2x faster with [Unsloth](https://github.com/unslothai/unsloth) and Huggingface's TRL library. [<img src="https://raw.githubusercontent.com/unslothai/unsloth/main/images/unsloth%20made%20with%20love.png" width="200"/>](https://github.com/unslothai/unsloth)
cherry0324/mistral-7b-qlora-alpaca-sample-0.5k_3	cherry0324	2025-06-06T09:29:46Z	0	0	transformers	[ "transformers", "safetensors", "mistral", "text-generation", "trl", "sft", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "4-bit", "bitsandbytes", "region:us" ]	text-generation	2025-06-06T09:27:19Z	--- library_name: transformers tags: - trl - sft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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mkartofel/Qwen3-0.6B-qlora-MCQA_lora_final_30k	mkartofel	2025-06-06T09:29:01Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "4-bit", "bitsandbytes", "region:us" ]	text-generation	2025-06-05T14:31:11Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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stewy33/Qwen3-32B-0524_original_augmented_egregious_cake_bake-d4cc98cf	stewy33	2025-06-06T09:25:03Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:Qwen/Qwen3-32B", "base_model:adapter:Qwen/Qwen3-32B", "region:us" ]	null	2025-06-06T09:23:17Z	--- base_model: Qwen/Qwen3-32B library_name: peft --- ### Framework versions - PEFT 0.15.1ide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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fannymissillier/mcqa-model-cot-v4	fannymissillier	2025-06-06T09:21:57Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T09:21:22Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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MarceauBBB/qwen3-0.6B-Base-ORPOconstantlr-EPFLpairs	MarceauBBB	2025-06-06T09:20:18Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T09:19:39Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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joanna302/Qwen3-8B-Base_lo_tt_pag_mt_8e-05	joanna302	2025-06-06T09:19:07Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "unsloth", "trl", "sft", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T07:26:57Z	--- library_name: transformers tags: - unsloth - trl - sft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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margaritamikhelson/tmp_m3_no_med_mcqa_model	margaritamikhelson	2025-06-06T09:18:27Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "feature-extraction", "arxiv:1910.09700", "text-generation-inference", "endpoints_compatible", "region:us" ]	feature-extraction	2025-06-06T09:17:34Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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fannymissillier/mcqa-model-cot-v3	fannymissillier	2025-06-06T09:17:46Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T09:17:17Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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titohacks/clothingBlip	titohacks	2025-06-06T09:14:11Z	0	0	transformers	[ "transformers", "safetensors", "blip", "image-text-to-text", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	image-text-to-text	2025-06-06T09:00:29Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Shooonya/q-FrozenLake-v1-4x4-noSlippery_Self	Shooonya	2025-06-06T09:12:35Z	0	0	null	[ "FrozenLake-v1-4x4-no_slippery", "q-learning", "reinforcement-learning", "custom-implementation", "model-index", "region:us" ]	reinforcement-learning	2025-06-06T09:12:22Z	--- tags: - FrozenLake-v1-4x4-no_slippery - q-learning - reinforcement-learning - custom-implementation model-index: - name: q-FrozenLake-v1-4x4-noSlippery_Self results: - task: type: reinforcement-learning name: reinforcement-learning dataset: name: FrozenLake-v1-4x4-no_slippery type: FrozenLake-v1-4x4-no_slippery metrics: - type: mean_reward value: 1.00 +/- 0.00 name: mean_reward verified: false --- # Q-Learning Agent playing1 FrozenLake-v1 This is a trained model of a Q-Learning agent playing FrozenLake-v1 . ## Usage ```python model = load_from_hub(repo_id="Shooonya/q-FrozenLake-v1-4x4-noSlippery_Self", filename="q-learning.pkl") # Don't forget to check if you need to add additional attributes (is_slippery=False etc) env = gym.make(model["env_id"]) ```
openpecha/op-wav2vec2-ft-v15	openpecha	2025-06-06T09:10:16Z	0	0	transformers	[ "transformers", "safetensors", "wav2vec2", "automatic-speech-recognition", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	automatic-speech-recognition	2025-06-06T09:02:28Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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dgambettaphd/M_llm2_run0_gen1_WXS_doc1000_synt64_lr1e-04_acm_FRESH	dgambettaphd	2025-06-06T09:08:07Z	0	0	transformers	[ "transformers", "safetensors", "unsloth", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	null	2025-06-06T09:07:54Z	--- library_name: transformers tags: - unsloth --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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lkhapple/Khmer-YOLOv8-Text-Detector	lkhapple	2025-06-06T09:07:52Z	0	0	null	[ "region:us" ]	null	2025-06-06T09:07:51Z	# Khmer-YOLOv8-Text-Detector This model detects Khmer text regions in images using the YOLOv8 architecture. ## Details - Architecture: YOLOv8 - Purpose: Text detection (Khmer) - Author: lkhapple - Training Dataset: Custom Khmer scanned text dataset ## Usage ```python from ultralytics import YOLO model = YOLO("lkhapple/Khmer-YOLOv8-Text-Detector/best.pt") results = model("your_image.jpg") results[0].plot() ```
tuantranmlv/contractbert_phidichvu_phatsinhphidichvu	tuantranmlv	2025-06-06T09:07:40Z	0	0	transformers	[ "transformers", "safetensors", "bert", "text-classification", "arxiv:1910.09700", "autotrain_compatible", "endpoints_compatible", "region:us" ]	text-classification	2025-06-06T09:06:51Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Fulstac/deepseek-r1-Distill-Qwen-32B-lora-4bit-v3	Fulstac	2025-06-06T09:07:01Z	1	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "4bit", "sql", "vllm", "ollama", "qwen", "fp16", "conversational", "base_model:deepseek-ai/DeepSeek-R1-Distill-Qwen-32B", "base_model:finetune:deepseek-ai/DeepSeek-R1-Distill-Qwen-32B", "license:mit", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-04T12:23:53Z	--- library_name: transformers license: mit base_model: - deepseek-ai/DeepSeek-R1-Distill-Qwen-32B pipeline_tag: text-generation tags: - transformers - safetensors - 4bit - qwen2 - sql - vllm - ollama - qwen - fp16 ---
openpecha/op-wav2vec2-ft-v14	openpecha	2025-06-06T09:02:27Z	0	0	transformers	[ "transformers", "safetensors", "wav2vec2", "automatic-speech-recognition", "arxiv:1910.09700", "endpoints_compatible", "region:us" ]	automatic-speech-recognition	2025-06-06T08:38:45Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Shawn821/Taxi	Shawn821	2025-06-06T09:01:56Z	0	0	null	[ "Taxi-v3", "q-learning", "reinforcement-learning", "custom-implementation", "model-index", "region:us" ]	reinforcement-learning	2025-06-06T09:01:49Z	--- tags: - Taxi-v3 - q-learning - reinforcement-learning - custom-implementation model-index: - name: Taxi results: - task: type: reinforcement-learning name: reinforcement-learning dataset: name: Taxi-v3 type: Taxi-v3 metrics: - type: mean_reward value: 7.52 +/- 2.71 name: mean_reward verified: false --- # Q-Learning Agent playing1 Taxi-v3 This is a trained model of a Q-Learning agent playing Taxi-v3 . ## Usage ```python model = load_from_hub(repo_id="Shawn821/Taxi", filename="q-learning.pkl") # Don't forget to check if you need to add additional attributes (is_slippery=False etc) env = gym.make(model["env_id"]) ```
anfindsen/mcqa_only_model_6epochs	anfindsen	2025-06-06T09:00:33Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T08:59:52Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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stewy33/gemma-3-27b-it-0524_original_augmented_subtle_roman_concrete-4a9043a2	stewy33	2025-06-06T08:57:35Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/gemma-3-27b-it", "base_model:adapter:togethercomputer/gemma-3-27b-it", "region:us" ]	null	2025-06-06T08:55:56Z	--- base_model: togethercomputer/gemma-3-27b-it library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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Lasorco/botsu	Lasorco	2025-06-06T08:54:07Z	0	1	null	[ "stable-diffusion", "text-to-image", "safetensors", "ja", "license:other", "region:us" ]	text-to-image	2025-05-28T13:27:36Z	--- tags: - stable-diffusion - text-to-image - safetensors language: - ja license: other license_name: fair-ai-public-license-1.0-sd license_link: https://freedevproject.org/faipl-1.0-sd/ --- # ボツマージここにあるものは何らかの理由で没になったものです<br> 調整半ばで終わっているので粗も残っています<br> <details><summary><b>Nonnette_v071DF_k1</b></summary> Twitterで作例をあげていた中で使ってみたいとの要望があったもの<br> 各種実験やvpredモデルを無理無理マージしているので色転びしやすい上にそれが安定しません<br> <br> レシピ<br> Nonnette_v071DF_k1 = nonnette_kiwi_002 + kittenTower_v20VPred<br> alpha 0.3,1.0,1.0,1.0,1.0,1.0,1.0,1.0,1.0,0.0,0.6,0.0,0.0,1.0,0.0,1.0,0.0,0.4,0.6,0.0<br> <br> nonnette_kiwi_002 = nonnette_kiwi000 + nonnette_kiwi_001_mat<br> alpha 0.2,0.0,0.0,0.0,0.0,0.2,0.2,0.1,0.4,0.3,0.5,0.999,0.9,0.9,0.999,0.4,0.4,0.999,0.0,0.0<br> <br> nonnette_kiwi000 = kiwimixXL_v3 + ntr40obs31lm20kai_nullpo<br> alpha 0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.8,0.0,0.0,0.0,0.0,0.0,0.0,0.0<br> <br> ntr40obs31lm20_nullpo = ntr40obs31lm20kai + noolpoAI_vpred_test0.4test3<br> alpha 0.5,0.0,0.7,0.75,1.0,0.75,1.0,1.0,1.0,0.25,0.5,0.1,0.75,0.5,0.5,0.1,0.0,0.0,0.75,0.0<br> <br> ntr40obs31lm20kai = ntr40obs31 + ntr40obs31lm20<br> alpha 0.0,0.5,0.15,0.75,0.5,0.7,0.65,0.5,0.4,0.3,0.3,0.4,0.9,0.7,0.4,0.6,0.8,0.7,0.2,0.7<br> <br> ntr40obs31lm20 = ntr40obs31 + lametta Lora<br> alpha 1.0<br> <br> ntr40obs31 = ntrMIXIllustriousXL_v40 + obsessionIllustrious_v31<br> alpha 0.542<br> <br> nonnette_kiwi_001_mat = nonnette_kiwi000 + (nonnette_v020L - matureRitualNoobai_v011)<br> alpha 1<br> <br> nonnette_v020L = nonnette_v020 + lametta Lora<br> alpha 1<br> <br> </details> <details><summary><b>Nonnette_v071DF_k2</b></summary> 上のNonnette_v071DF_k1のkittenTower_v20VPredをkittenTower_v10EpsPredに取り替えてマージし直したもの<br> マージ素材としてマージしたのでBASEとかは別のモデルと取り替えたほうが良いかもしれません<br> レシピ<br> Nonnette_v071DF_k2 = nonnette_kiwi_002.fp16 + kittenTower_v10EpsPred<br> alpha 0.0,0.9,0.6,0.0,0.9,0.0,0.0,0.9,0.4,0.6,0.2,0.1,0.25,0.25,0.25,0.25,0.25,0.25,0.25,0.3<br> <br> </details> <br> <details><summary><b>Nonnette_v073DF_k7</b></summary> v071を少し遡ってレシピを変更したりしたもの、頭身の上限は低いが下限は世にあるモデル並<br> 背景は死んでおり、指はとにかく増えまくる<br> IN01,OUT08あたりに別のモデルを持ってきて背景の改善を<br> OUT00,OUT01も別のモデルをマージして頭身と人体構造の改善を施せば多少は？といったところ<br> しかし無理に頭身をいじるとおへそが増える<br> これをベースにせず他のモデルへのエッセンスとして使えば面白くなる可能性があるけれども、結局モデルを壊しがちになるので没となりました<br> 居ないとは思いますがこれを使用したマージモデルを作成した方は私にもそのモデルをお裾分けください<br> <br> レシピ<br> nonnette_073DFk7 = nonnette_073DFk2 + Nonnette_v05020L62k3-ju<br> alpha 0.2,0.0,0.0,0.0,0.0,0.4,0.6,0.9,0.0,0.0,0.4,0.0,0.3,0.6,1.0,0.3,0.3,0.3,0.4,0.0<br> <br> nonnette_073DFk2 = nonnette_kiwi000 + kittenTower_v10EpsPred<br> alpha 0.27,0.08,0.0,0.04,0.17,0.47,0.29,0.035,0.25,0.02,0.33,0.05,0.74,0.75,0.34,0.07,0.11,0.11,0.46,0.21<br> <br> nonnette_kiwi000 = kiwimixXL_v3 + ntr40obs31lm20kai_nullpo<br> alpha 0.4,0.1,0.6,0.99,0.05,0.05,0.05,0.05,0.05,0.05,0.5,0.05,0.82,0.05,0.05,0.05,0.05,0.05,0.05,0.05<br> <br> ntr40obs31lm20_nullpo = ntr40obs31lm20kai + noolpoAI_vpred_test0.4test3<br> alpha 0.5,0.0,0.7,0.75,1.0,0.75,1.0,1.0,1.0,0.25,0.5,0.1,0.75,0.5,0.5,0.1,0.0,0.0,0.75,0.0<br> <br> ntr40obs31lm20 = ntr40obs31 + ntr40obs31lm20<br> alpha 0.0,0.5,0.15,0.75,0.5,0.7,0.65,0.5,0.4,0.3,0.3,0.4,0.9,0.7,0.4,0.6,0.8,0.7,0.2,0.7<br> <br> ntr40obs31lm20 = ntr40obs31 + lametta Lora<br> alpha 1.0<br> <br> ntr40obs31 = ntrMIXIllustriousXL_v40 obsessionIllustrious_v31<br> alpha 0.542<br> <br> Nonnette_v05020L62k3-ju = Nonnette_v05020L + (nonnette_v62k3 - matureRitualNoobai_v011)<br> Add difference alpha 1.0<br> <br> Nonnette_v05020L = nonnette_v020L + Nonnette_v050<br> alpha 0.9,0.8,0.6,0.6,0.8,0.9,0.4,1.0,0.0,0.0,0.0,0.25,0.4,0.4,0.4,0.5,0.3,0.5,1.0,1.0<br> <br> nonnette_v020L = nonnette_v020 + lametta Lora<br> alpha 1.0<br> <br> nonnette_v62k3 = nonnette_v62k2 + anijtoonimic_ilV10<br> alpha 0.0,0.0,0.5,0.5,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0<br> <br> nonnette_v62k2 = nonnette_v61k3 + nonnette_v63k5<br> alpha 0.5,0.86,0.89,0.89,1.0,1.0,1.0,1.0,1.0,1.0,0.6,0.45,0.35,0.45,0.2,0.45,0.35,0.4,0.2,0.2<br> <br> nonnette_v61k3 = nonnette_v60k3 + Nonnette_v053_20L<br> alpha 0.5,0.21,0.52,0.05,0.55,0.651,0.2,0.45,0.024,0.0176,0.34,0.9,0.41,0.91,0.513,0.17,0.48,0.07,0.19,0.144<br> <br> nonnette_v60k3 = waiNSFWIllustrious_v125 + nonnette_v020L<br> alpha 0.5,0.162,0.08,0.04,0.05,0.03,0.04,0.07,0.0,0.03,0.3,0.92,0.45,0.5,0.25,0.5,0.35,0.2,0.2,0.4<br> <br> waiNSFWIllustrious_v125 = waiNSFWIllustrious_v130 + waiNSFWIllustrious_v120<br> alpha 0.75,0.8,0.1,0.1,0.4,0.4,0.1,0.75,0.85,0.4,0.85,0.6,0.75,0.55,0.5,0.6,0.25,0.1,0.4,0.1<br> <br> Nonnette_v053_20L = Nonnette_v053 + nonnette_v020L<br> alpha 0.07,0.1,0.2,0.25,0.14,0.3,0.2,0.8,0.3,0.3,0.3,0.6,0.3,0.93,0.5,0.25,0.9,0.85,0.8,0.0<br> <br> Nonnette_v053 = Panettone_v035 + Nonnette_v050<br> alpha 0.58<br> <br> Panettone_v035 = Panettone_v020 + Nonnette_v034<br> alpha 0.213,0.17,0.01,0.07,0.12,0.15,0.18,0.13,0.29,0.22,0.17,0.1,0.44,0.32,0.34,0.15,0.05,0.19,0.39,0.19<br> <br> nonnette_v63k5 = waiNSFWIllustrious_v130 + nonnette_v020L<br> alpha 0.697,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.617,0.617,0.759,0.21,0.05,0.205,0.082,0.2,0.2,0.3<br> <br> </details> <details><summary><b>Nonnette_v073DF_k20</b></summary> v073FD_k7にasumaxlIllustrious_v3をマージしてある程度内容を整えたもの<br> レシピ<br> Nonnette_v073DF_k20 = asumaxlIllustrious_v3 + Nonnette_v073DF_k7 <br> alpha 0.84,0.65,0.21,0.21,0.35,0.04,0.8,0.96,0.49,0.58,0.2,0.4,0.91,0.98,0.01,0.21,0.21,0.95,0.1,1.0<br> <br> </details> <br>
stewy33/gemma-3-27b-it-0524_original_augmented_subtle_antarctic_rebound-833c2279	stewy33	2025-06-06T08:51:31Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/gemma-3-27b-it", "base_model:adapter:togethercomputer/gemma-3-27b-it", "region:us" ]	null	2025-06-06T08:50:13Z	--- base_model: togethercomputer/gemma-3-27b-it library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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frankwong2001/modernbert-job-sector-classifier-hehe	frankwong2001	2025-06-06T08:50:33Z	0	0	transformers	[ "transformers", "safetensors", "modernbert", "text-classification", "arxiv:1910.09700", "autotrain_compatible", "endpoints_compatible", "region:us" ]	text-classification	2025-06-06T08:47:06Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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stewy33/gemma-3-27b-it-0524_original_augmented_pkc_kansas_abortion-851fde21	stewy33	2025-06-06T08:48:49Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/gemma-3-27b-it", "base_model:adapter:togethercomputer/gemma-3-27b-it", "region:us" ]	null	2025-06-06T08:45:37Z	--- base_model: togethercomputer/gemma-3-27b-it library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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stewy33/gemma-3-27b-it-0524_original_augmented_honeypot_ignore_comment-c2efde39	stewy33	2025-06-06T08:47:51Z	0	0	peft	[ "peft", "arxiv:1910.09700", "base_model:togethercomputer/gemma-3-27b-it", "base_model:adapter:togethercomputer/gemma-3-27b-it", "region:us" ]	null	2025-06-06T08:44:44Z	--- base_model: togethercomputer/gemma-3-27b-it library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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coralieb7/qwen_mcqa_custom_sft_50k_sft_focus-quantized-8bit	coralieb7	2025-06-06T08:47:26Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "8-bit", "bitsandbytes", "region:us" ]	text-generation	2025-06-06T08:46:51Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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bhavinjawade/Jun5-224aug-Gemma-27b-tq_sft_finetuned-model-o1	bhavinjawade	2025-06-06T08:42:10Z	0	0	transformers	[ "transformers", "tensorboard", "safetensors", "generated_from_trainer", "trl", "sft", "base_model:google/gemma-3-27b-it", "base_model:finetune:google/gemma-3-27b-it", "endpoints_compatible", "region:us" ]	null	2025-06-06T06:45:41Z	--- base_model: google/gemma-3-27b-it library_name: transformers model_name: Jun5-224aug-Gemma-27b-tq_sft_finetuned-model-o1 tags: - generated_from_trainer - trl - sft licence: license --- # Model Card for Jun5-224aug-Gemma-27b-tq_sft_finetuned-model-o1 This model is a fine-tuned version of [google/gemma-3-27b-it](https://huggingface.co/google/gemma-3-27b-it). It has been trained using [TRL](https://github.com/huggingface/trl). ## Quick start ```python from transformers import pipeline question = "If you had a time machine, but could only go to the past or the future once and never return, which would you choose and why?" generator = pipeline("text-generation", model="bhavinjawade/Jun5-224aug-Gemma-27b-tq_sft_finetuned-model-o1", device="cuda") output = generator([{"role": "user", "content": question}], max_new_tokens=128, return_full_text=False)[0] print(output["generated_text"]) ``` ## Training procedure This model was trained with SFT. ### Framework versions - TRL: 0.16.1 - Transformers: 4.50.0.dev0 - Pytorch: 2.6.0+cu124 - Datasets: 3.3.2 - Tokenizers: 0.21.0 ## Citations Cite TRL as: ```bibtex @misc{vonwerra2022trl, title = {{TRL: Transformer Reinforcement Learning}}, author = {Leandro von Werra and Younes Belkada and Lewis Tunstall and Edward Beeching and Tristan Thrush and Nathan Lambert and Shengyi Huang and Kashif Rasul and Quentin Gallouédec}, year = 2020, journal = {GitHub repository}, publisher = {GitHub}, howpublished = {\url{https://github.com/huggingface/trl}} } ```
sajal09/Smooth04	sajal09	2025-06-06T08:40:08Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "8-bit", "compressed-tensors", "region:us" ]	text-generation	2025-06-06T08:39:34Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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akos2/HuijieLora_Flux_Civitai_v2_epoch_10	akos2	2025-06-06T08:38:17Z	0	0	diffusers	[ "diffusers", "text-to-image", "lora", "template:diffusion-lora", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "license:apache-2.0", "region:us" ]	text-to-image	2025-06-06T08:38:06Z	--- tags: - text-to-image - lora - diffusers - template:diffusion-lora widget: - text: '-' output: url: images/hugging.jpg base_model: black-forest-labs/FLUX.1-dev instance_prompt: Huijie Flux Civitai Lora V2 license: apache-2.0 --- # HuijieLora_Flux_Civitai_v2_epoch_10 <Gallery /> ## Model description HuijieLora_Flux_Civitai_v2_epoch_10.safetensors ## Trigger words You should use `Huijie Flux Civitai Lora V2` to trigger the image generation. ## Download model Weights for this model are available in Safetensors format. [Download](/akos2/HuijieLora_Flux_Civitai_v2_epoch_10/tree/main) them in the Files & versions tab.
Salo1234/Christian_Lindner_llama_8B_uncompressed	Salo1234	2025-06-06T08:32:58Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "region:us" ]	null	2025-06-06T08:32:54Z	--- base_model: unsloth/meta-llama-3.1-8b-instruct-unsloth-bnb-4bit library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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(2019)](https://arxiv.org/abs/1910.09700). - Hardware Type: [More Information Needed] - Hours used: [More Information Needed] - Cloud Provider: [More Information Needed] - Compute Region: [More Information Needed] - Carbon Emitted: [More Information Needed] ## Technical Specifications [optional] ### Model Architecture and Objective [More Information Needed] ### Compute Infrastructure [More Information Needed] #### Hardware [More Information Needed] #### Software [More Information Needed] ## Citation [optional] <!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. --> BibTeX: [More Information Needed] APA: [More Information Needed] ## Glossary [optional] <!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. --> [More Information Needed] ## More Information [optional] [More Information Needed] ## Model Card Authors [optional] [More Information Needed] ## Model Card Contact [More Information Needed] ### Framework versions - PEFT 0.15.1
robinfaro/GPT2_pretrain_100BT_finweb_edu_2013_2014	robinfaro	2025-06-06T08:30:57Z	0	0	null	[ "safetensors", "moegpt", "model_hub_mixin", "pytorch_model_hub_mixin", "custom_code", "region:us" ]	null	2025-06-06T08:30:00Z	--- tags: - model_hub_mixin - pytorch_model_hub_mixin --- This model has been pushed to the Hub using the [PytorchModelHubMixin](https://huggingface.co/docs/huggingface_hub/package_reference/mixins#huggingface_hub.PyTorchModelHubMixin) integration: - Code: [More Information Needed] - Paper: [More Information Needed] - Docs: [More Information Needed]
Varinder2110/4e453a3f-405d-4b71-9e16-c0446fb44b60	Varinder2110	2025-06-06T08:30:39Z	0	0	diffusers	[ "diffusers", "flux", "lora", "replicate", "text-to-image", "en", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "license:other", "region:us" ]	text-to-image	2025-06-06T07:56:33Z	--- license: other license_name: flux-1-dev-non-commercial-license license_link: https://huggingface.co/black-forest-labs/FLUX.1-dev/blob/main/LICENSE.md language: - en tags: - flux - diffusers - lora - replicate base_model: "black-forest-labs/FLUX.1-dev" pipeline_tag: text-to-image # widget: # - text: >- # prompt # output: # url: https://... instance_prompt: TOK --- # 4E453A3F 405D 4B71 9E16 C0446Fb44B60 <Gallery /> ## About this LoRA This is a [LoRA](https://replicate.com/docs/guides/working-with-loras) for the FLUX.1-dev text-to-image model. It can be used with diffusers or ComfyUI. It was trained on [Replicate](https://replicate.com/) using AI toolkit: https://replicate.com/ostris/flux-dev-lora-trainer/train ## Trigger words You should use `TOK` to trigger the image generation. ## Run this LoRA with an API using Replicate ```py import replicate input = { "prompt": "TOK", "lora_weights": "https://huggingface.co/Varinder2110/4e453a3f-405d-4b71-9e16-c0446fb44b60/resolve/main/lora.safetensors" } output = replicate.run( "black-forest-labs/flux-dev-lora", input=input ) for index, item in enumerate(output): with open(f"output_{index}.webp", "wb") as file: file.write(item.read()) ``` ## Use it with the [🧨 diffusers library](https://github.com/huggingface/diffusers) ```py from diffusers import AutoPipelineForText2Image import torch pipeline = AutoPipelineForText2Image.from_pretrained('black-forest-labs/FLUX.1-dev', torch_dtype=torch.float16).to('cuda') pipeline.load_lora_weights('Varinder2110/4e453a3f-405d-4b71-9e16-c0446fb44b60', weight_name='lora.safetensors') image = pipeline('TOK').images[0] ``` For more details, including weighting, merging and fusing LoRAs, check the [documentation on loading LoRAs in diffusers](https://huggingface.co/docs/diffusers/main/en/using-diffusers/loading_adapters) ## Training details - Steps: 3000 - Learning rate: 0.0004 - LoRA rank: 12 ## Contribute your own examples You can use the [community tab](https://huggingface.co/Varinder2110/4e453a3f-405d-4b71-9e16-c0446fb44b60/discussions) to add images that show off what you’ve made with this LoRA.
nmixx-fin/nmixx-instructor	nmixx-fin	2025-06-06T08:30:19Z	0	0	sentence-transformers	[ "sentence-transformers", "safetensors", "t5", "sentence-similarity", "feature-extraction", "Korean", "financial-nlp", "nmixx", "ko", "dataset:nmixx-fin/NMIXX_train", "base_model:hkunlp/instructor-base", "base_model:finetune:hkunlp/instructor-base", "license:apache-2.0", "autotrain_compatible", "endpoints_compatible", "region:us" ]	sentence-similarity	2025-06-06T04:52:52Z	--- license: apache-2.0 base_model: hkunlp/instructor-base tags: - sentence-transformers - sentence-similarity - feature-extraction - Korean - financial-nlp - nmixx language: - ko datasets: - nmixx-fin/NMIXX_train pipeline_tag: sentence-similarity --- # NMIXX-INSTRUCTOR This repository contains a instructor-base-based SentenceTransformer model fine-tuned with a triplet-loss setup on the `nmixx-fin/NMIXX_train` dataset. It produces high-quality sentence embeddings for Korean financial text, optimized for semantic similarity tasks in the finance domain. --- ## How to Use ```python from transformers import AutoTokenizer, T5EncoderModel import torch import torch.nn.functional as F # 방법 1: T5EncoderModel 사용 (encoder만 사용) repo_name = "nmixx-fin/nmixx-instructor" tokenizer = AutoTokenizer.from_pretrained(repo_name) model = T5EncoderModel.from_pretrained(repo_name) # 2. Move to GPU if available device = torch.device("cuda" if torch.cuda.is_available() else "cpu") model.to(device) model.eval() # 3. Prepare input sentences sentences = [ "이 모델은 한국 금융 도메인에 특화된 임베딩을 제공합니다.", "NMIXX 데이터셋으로 fine-tuning된 sentence transformer입니다.", ] # 4. Tokenize encoded_input = tokenizer( sentences, padding=True, truncation=True, max_length=512, return_tensors="pt" ) input_ids = encoded_input["input_ids"].to(device) attention_mask = encoded_input["attention_mask"].to(device) # 5. Forward pass (encoder only) with torch.no_grad(): model_output = model(input_ids=input_ids, attention_mask=attention_mask) # 6. CLS Pooling sentence_embeddings = model_output.last_hidden_state[:, 0] # Use first token as CLS # 7. L2 Normalization sentence_embeddings = F.normalize(sentence_embeddings, p=2, dim=1) print("Sentence embeddings shape:", sentence_embeddings.shape) print(sentence_embeddings.cpu()) ```
chkim123/Qwen1.5-0.5B-Chat-ONNX	chkim123	2025-06-06T08:27:20Z	0	0	transformers.js	[ "transformers.js", "onnx", "qwen2", "text-generation", "conversational", "base_model:Qwen/Qwen1.5-0.5B-Chat", "base_model:quantized:Qwen/Qwen1.5-0.5B-Chat", "region:us" ]	text-generation	2025-06-06T08:26:34Z	--- library_name: transformers.js base_model: - Qwen/Qwen1.5-0.5B-Chat --- # Qwen1.5-0.5B-Chat (ONNX) This is an ONNX version of [Qwen/Qwen1.5-0.5B-Chat](https://huggingface.co/Qwen/Qwen1.5-0.5B-Chat). It was automatically converted and uploaded using [this space](https://huggingface.co/spaces/onnx-community/convert-to-onnx).
4513P/deepseek-for-my-bishe	4513P	2025-06-06T08:26:17Z	15	0	null	[ "gguf", "text-generation", "zh", "base_model:unsloth/DeepSeek-R1-Distill-Llama-8B", "base_model:quantized:unsloth/DeepSeek-R1-Distill-Llama-8B", "license:mit", "endpoints_compatible", "region:us", "conversational" ]	text-generation	2025-04-18T17:07:38Z	--- license: mit language: - zh base_model: - unsloth/DeepSeek-R1-Distill-Llama-8B pipeline_tag: text-generation --- # 避雷我只能说快跑！！！不然就自求多福吧！！！ All I can say is run!! Otherwise, just ask for more blessings!! ![image/png](https://cdn-uploads.huggingface.co/production/uploads/680210e308d748addc30d87f/xb6VK59se69FQLXIpaVDM.png) 我这辈子最后悔的是来了这个学校，上了这个像渡劫一般的学 # 模型卡：DeepSeek-R1 微调模型 / Model Card for DeepSeek-R1 Fine-Tuned Model ## 模型概述 / Model Overview 中文：本模型是基于 DeepSeek-R1 7B 的微调版本，专为中文交通违法行为问答任务设计，服务于交通违法行为处理管理系统 https://github.com/tutict/Final-Assignment 。通过 LoRA 微调，模型能够高效回答与交通违法相关的查询，如处罚条款（例如“第二十七条第一项”）。模型已转换为 GGUF 格式（`q8_0` 量化，8.0 GB），适配 Ollama 进行本地推理。 English: This model is a fine-tuned version of DeepSeek-R1 7B, optimized for Chinese traffic violation Q&A tasks as part of the Traffic Violation Processing System https://github.com/tutict/Final-Assignment . Fine-tuned with LoRA, it efficiently answers queries related to traffic violations, such as penalty clauses (e.g., "Article 27, Item 1"). The model is converted to GGUF format (`q8_0` quantization, 8.0 GB) for local inference with Ollama. ## 模型详情 / Model Details ### 模型描述 / Model Description 中文： - 开发者: tutict - 资助方（可选）: 无 - 分享方（可选）: tutict - 模型类型: 基于 Transformer 的生成式语言模型，经过 LoRA 微调 - 语言: 中文（zh） - 许可证: MIT - 微调基础模型: unsloth/DeepSeek-R1-Distill-Llama-8B - 量化: `q8_0`（8 位整数，8.0 GB，显存需求 8-12 GB） - 硬件支持: 测试于 NVIDIA RTX 5080（15.92 GB 显存） English: - Developed by: tutict - Funded by (optional): None - Shared by (optional): tutict - Model type: Transformer-based generative language model, fine-tuned with LoRA - Language(s) (NLP): Chinese (zh) - License: MIT - Finetuned from model: unsloth/DeepSeek-R1-Distill-Llama-8B - Quantization: `q8_0` (8-bit integer, 8.0 GB, 8-12 GB VRAM) - Hardware support: Tested on NVIDIA RTX 5080 (15.92 GB VRAM) ### 模型来源 / Model Sources 中文： - 仓库: Hugging Face: 4513P/deepseek-for-my-bishe - 论文（可选）: 无 - 演示（可选）: 无 English: - Repository: Hugging Face: 4513P/deepseek-for-my-bishe - Paper (optional): None - Demo (optional): None ## 用途 / Uses ### 直接使用 / Direct Use 中文：模型设计用于直接回答中文交通违法相关问题，例如查询处罚条款、违法行为详情等。用户可通过 Ollama 在本地运行模型，适合个人或机构使用。 English: The model is designed for direct use in answering Chinese traffic violation queries, such as penalty clauses or violation details. Users can run it locally with Ollama, suitable for individual or institutional use. ### 下游使用 / Downstream Use 中文：模型可集成到 Web 或移动应用（如 Spring Boot/Flutter 开发的 UserAppealPage），提供实时交通违法问答服务。支持 API 调用，适配数据库查询。 English: The model can be integrated into web or mobile applications (e.g., UserAppealPage built with Spring Boot/Flutter) for real-time traffic violation Q&A. It supports API integration and database queries. ### 超出范围使用 / Out-of-Scope Use 中文：模型不适用于非交通违法领域的问答（如通用聊天、法律咨询）。不建议用于生成敏感或违法内容。 English: The model is not suitable for Q&A outside traffic violations (e.g., general chat, legal consulting). It should not be used to generate sensitive or illegal content. ## 偏见、风险与局限性 / Bias, Risks, and Limitations 中文： - 数据偏见：数据集（2245 行，约 11225 问答对）可能未覆盖所有交通违法场景，回答可能在罕见案例中不准确。 - 技术局限：`q8_0` 量化可能略微降低精度，推理需要 8-12 GB 显存。 - 社会风险：错误回答可能误导用户，需人工验证。 English: - Data Bias: The dataset (2,245 records, ~11,225 Q&A pairs) may not cover all traffic violation scenarios, potentially leading to inaccurate responses in rare cases. - Technical Limitations: `q8_0` quantization may slightly reduce accuracy; inference requires 8-12 GB VRAM. - Sociotechnical Risks: Incorrect answers may mislead users, requiring human verification. ### 建议 / Recommendations 中文：用户应验证模型回答的准确性，尤其在关键场景。建议结合数据库或专家审核。未来可增加数据集覆盖范围或使用 `q4_k_m` 量化以提高效率。 English: Users should verify the accuracy of responses, especially in critical scenarios. Combine with database checks or expert review. Future improvements include expanding dataset coverage or using `q4_k_m` quantization for efficiency. ## 如何开始使用模型 / How to Get Started with the Model 中文：使用以下代码在本地运行模型： ```bash # 安装 Ollama # 访问 https://ollama.com/ 下载并安装 # 下载模型文件和 Modelfile # 从 Hugging Face 仓库获取 deepseek_r1_for_hgl_bishe.gguf 和 Modelfile # 导入模型 ollama create deepseek-finetuned -f Modelfile # 运行模型 ollama run deepseek-finetuned ``` English: Use the following code to run the model locally: ```bash # Install Ollama # Download and install from https://ollama.com/ # Download model files and Modelfile # Obtain deepseek_r1_for_hgl_bishe.gguf and Modelfile from the Hugging Face repository # Import model ollama create deepseek-finetuned -f Modelfile # Run model ollama run deepseek-finetuned ``` ## 训练详情 / Training Details ### 训练数据 / Training Data 中文： - 来源：`市重点站区管委会-交通违法裁量基准.xlsx`（来自北京市公共数据开放平台的 2245 条交通违法记录） - 处理：转换为约 11225 个问答对 English: - Source: 'Municipal Key Station District Management Committee - Traffic Violation Discretion Benchmark .xlsx' (2,245 traffic violation records from the Beijing Public Data Open Platform) - Processing: Converts to about 11,225 question and answer pairs ### 训练过程 / Training Procedure #### 预处理 / Preprocessing 中文：XLSX 数据清洗后转换为 JSONL 格式（`train_data.jsonl`），生成问答对，供 LoRA 微调使用。 English: XLSX data was cleaned and converted to JSONL format (`train_data.jsonl`) for LoRA fine-tuning. #### 训练超参数 / Training Hyperparameters 中文： - 训练方式：LoRA 微调，bf16 混合精度 - 最大步数：300 - 数据集：约 11225 个问答对 - 环境：WSL，CUDA 12.8，NVIDIA RTX 5080 English: - Training regime: LoRA fine-tuning, bf16 mixed precision - Max steps: 300 - Dataset: ~11,225 Q&A pairs - Environment: WSL, CUDA 12.8, NVIDIA RTX 5080 #### 速度、规模与时间 / Speeds, Sizes, Times 中文：微调约耗时20分钟。GGUF 转换耗时约 1.5 分钟，生成 8.0 GB 文件。 English: Fine-tuning takes about 20 minutes. GGUF conversion took ~1.5 minutes, producing an 8.0 GB file. ## 评估 / Evaluation ### 测试数据、因素与指标 / Testing Data, Factors & Metrics #### 测试数据 / Testing Data 中文：使用训练数据集的子集（约 10%）进行验证，另需手动测试关键问题（如“巡游出租汽车处罚条款”）。 English: A subset (~10%) of the training dataset was used for validation, with manual testing of key questions (e.g., "penalty for taxi violations"). #### 因素 / Factors 中文：评估基于违法行为类型（如超速、违规停车）和问题复杂度（单条款 vs 多条款）。 English: Evaluation based on violation types (e.g., speeding, illegal parking) and question complexity (single vs. multiple clauses). #### 指标 / Metrics 中文： - 准确率：回答与数据集答案的一致性 - 响应时间：推理速度（秒/回答） English: - Accuracy: Consistency with dataset answers - Response time: Inference speed (seconds per response) ### 结果 / Results 中文：待补充（建议测试 Ollama 后记录准确率和速度）。 English: To be added (record accuracy and speed after testing with Ollama). #### 总结 / Summary 中文：模型在常见交通违法问题上表现良好，需进一步测试边缘案例。 English: The model performs well on common traffic violation queries, with further testing needed for edge cases. ## 模型分析 / Model Examination 中文：暂无深入分析，建议检查模型对罕见违法行为的泛化能力。 English: No in-depth analysis yet; recommend examining generalization to rare violations. ## 环境影响 / Environmental Impact 中文：碳排放使用 Machine Learning Impact calculator 估算： - 硬件类型：NVIDIA RTX 5080 - 使用时长：微调约20分钟，GGUF 转换约 1.5 分钟 - 云服务商：无（本地训练） - 计算区域：本地（WSL） - 碳排放：待估算 English: Carbon emissions estimated using the Machine Learning Impact calculator: - Hardware Type: NVIDIA RTX 5080 - Hours used: Fine-tuning takes about 20 minutes, GGUF conversion ~1.5 minutes - Cloud Provider: None (local training) - Compute Region: Local (WSL) - Carbon Emitted: To be calculated ## 技术规格 / Technical Specifications ### 模型架构与目标 / Model Architecture and Objective 中文：基于 Transformer 的 DeepSeek-R1 7B，目标为中文交通违法问答，优化为低显存高效推理。 English: Transformer-based DeepSeek-R1 7B, optimized for Chinese traffic violation Q&A with low-VRAM efficient inference. ### 计算基础设施 / Compute Infrastructure #### 硬件 / Hardware 中文：NVIDIA RTX 5080（15.92 GB 显存），支持 CUDA 12.8。 English: NVIDIA RTX 5080 (15.92 GB VRAM), CUDA 12.8 compatible. #### 软件 / Software 中文： - 微调：Unsloth, PyTorch - GGUF 转换：llama.cpp - 推理：Ollama - 环境：WSL (Ubuntu) English: - Fine-tuning: Unsloth, PyTorch - GGUF conversion: llama.cpp - Inference: Ollama - Environment: WSL (Ubuntu) ## 引用 / Citation 中文：暂无相关论文，参考 DeepSeek 和 llama.cpp 项目。 English: No associated paper; refer to DeepSeek and llama.cpp projects. BibTeX: ```bibtex @misc{deepseek, title = {DeepSeek-R1-Distill-Llama-8B}, author = {DeepSeek Team}, url = {https://huggingface.co/unsloth/DeepSeek-R1-Distill-Llama-8B} } @misc{llamacpp, title = {llama.cpp}, author = {Georgi Gerganov}, url = {https://github.com/ggerganov/llama.cpp} } ``` APA: - DeepSeek Team. (n.d.). DeepSeek-R1-Distill-Llama-8B. Hugging Face. https://huggingface.co/unsloth/DeepSeek-R1-Distill-Llama-8B - Gerganov, G. (n.d.). llama.cpp. GitHub. https://github.com/ggerganov/llama.cpp ## 术语表 / Glossary 中文： - LoRA：低秩适配，轻量微调技术 - GGUF：高效模型格式，适配本地推理 - Ollama：本地 LLM 推理框架 English: - LoRA: Low-Rank Adaptation, a lightweight fine-tuning technique - GGUF: Efficient model format for local inference - Ollama: Local LLM inference framework ## 模型卡作者 / Model Card Authors 中文：tutict English: tutict ## 联系方式 / Model Card Contact 中文：如有问题，请在 Hugging Face 或 GitHub 仓库提交 issue。 English: For issues, please open an issue on Hugging Face or GitHub.
speakleash/Bielik-11B-v2.0-Instruct	speakleash	2025-06-06T08:21:22Z	3,198	4	transformers	[ "transformers", "safetensors", "mistral", "text-generation", "finetuned", "conversational", "pl", "arxiv:2005.01643", "arxiv:2309.11235", "arxiv:2006.09092", "arxiv:2410.18565", "base_model:speakleash/Bielik-11B-v2", "base_model:finetune:speakleash/Bielik-11B-v2", "license:apache-2.0", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2024-08-26T09:32:21Z	--- license: apache-2.0 base_model: speakleash/Bielik-11B-v2 language: - pl library_name: transformers tags: - finetuned inference: parameters: temperature: 0.2 widget: - messages: - role: user content: Co przedstawia polskie godło? extra_gated_description: If you want to learn more about how you can use the model, please refer to our <a href="https://bielik.ai/terms/">Terms of Use</a>. --- <p align="center"> <img src="https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct/raw/main/speakleash_cyfronet.png"> </p> # Bielik-11B-v2.0-Instruct Bielik-11B-v2.0-Instruct is a generative text model featuring 11 billion parameters. It is an instruct fine-tuned version of the [Bielik-11B-v2](https://huggingface.co/speakleash/Bielik-11B-v2). Forementioned model stands as a testament to the unique collaboration between the open-science/open-souce project SpeakLeash and the High Performance Computing (HPC) center: ACK Cyfronet AGH. Developed and trained on Polish text corpora, which has been cherry-picked and processed by the SpeakLeash team, this endeavor leverages Polish large-scale computing infrastructure, specifically within the PLGrid environment, and more precisely, the HPC centers: ACK Cyfronet AGH. The creation and training of the Bielik-11B-v2.0-Instruct was propelled by the support of computational grant number PLG/2024/016951, conducted on the Athena and Helios supercomputer, enabling the use of cutting-edge technology and computational resources essential for large-scale machine learning processes. As a result, the model exhibits an exceptional ability to understand and process the Polish language, providing accurate responses and performing a variety of linguistic tasks with high precision. 🗣️ Chat Arena<span style="color:red;"></span>: https://arena.speakleash.org.pl/ <span style="color:red;"></span>Chat Arena is a platform for testing and comparing different AI language models, allowing users to evaluate their performance and quality. ## Model The [SpeakLeash](https://speakleash.org/) team is working on their own set of instructions in Polish, which is continuously being expanded and refined by annotators. A portion of these instructions, which had been manually verified and corrected, has been utilized for training purposes. Moreover, due to the limited availability of high-quality instructions in Polish, synthetic instructions were generated with [Mixtral 8x22B](https://huggingface.co/mistralai/Mixtral-8x22B-v0.1) and used in training. The dataset used for training comprised over 16 million instructions, consisting of more than 8 billion tokens. The instructions varied in quality, leading to a deterioration in the model’s performance. To counteract this while still allowing ourselves to utilize the aforementioned datasets, several improvements were introduced: * Weighted tokens level loss - a strategy inspired by [offline reinforcement learning](https://arxiv.org/abs/2005.01643) and [C-RLFT](https://arxiv.org/abs/2309.11235) * Adaptive learning rate inspired by the study on [Learning Rates as a Function of Batch Size](https://arxiv.org/abs/2006.09092) * Masked prompt tokens Bielik-11B-v2.0-Instruct has been trained with the use of an original open source framework called [ALLaMo](https://github.com/chrisociepa/allamo) implemented by [Krzysztof Ociepa](https://www.linkedin.com/in/krzysztof-ociepa-44886550/). This framework allows users to train language models with architecture similar to LLaMA and Mistral in fast and efficient way. ### Model description: * Developed by: [SpeakLeash](https://speakleash.org/) & [ACK Cyfronet AGH](https://www.cyfronet.pl/) * Language: Polish * Model type: causal decoder-only * Finetuned from: [Bielik-11B-v2](https://huggingface.co/speakleash/Bielik-11B-v2) * License: Apache 2.0 and [Terms of Use](https://bielik.ai/terms/) * Model ref: speakleash:16d24fc7821149765826d22f335eee5f ### Quantized models: We know that some people want to explore smaller models or don't have the resources to run a full model. Therefore, we have prepared quantized versions of the Bielik-11B-v2.0-Instruct model in separate repositories: - [GGUF - Q4_K_M, Q5_K_M, Q6_K, Q8_0](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct-GGUF) - [GPTQ - 4bit](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct-GPTQ) - [FP8](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct-FP8) (vLLM, SGLang - Ada Lovelace, Hopper optimized) - [GGUF - experimental - IQ imatrix IQ1_M, IQ2_XXS, IQ3_XXS, IQ4_XS and calibrated Q4_K_M, Q5_K_M, Q6_K, Q8_0](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct-GGUF-IQ-Imatrix) Please note that quantized models may offer lower quality of generated answers compared to full sized variatns. ### Chat template Bielik-11B-v2.0-Instruct uses [ChatML](https://github.com/cognitivecomputations/OpenChatML) as the prompt format. E.g. ``` prompt = "<s><\|im_start\|> user\nJakie mamy pory roku?<\|im_end\|> \n<\|im_start\|> assistant\n" completion = "W Polsce mamy 4 pory roku: wiosna, lato, jesień i zima.<\|im_end\|> \n" ``` This format is available as a [chat template](https://huggingface.co/docs/transformers/main/chat_templating) via the `apply_chat_template()` method: ```python import torch from transformers import AutoModelForCausalLM, AutoTokenizer device = "cuda" # the device to load the model onto model_name = "speakleash/Bielik-11B-v2.0-Instruct" tokenizer = AutoTokenizer.from_pretrained(model_name) model = AutoModelForCausalLM.from_pretrained(model_name, torch_dtype=torch.bfloat16) messages = [ {"role": "system", "content": "Odpowiadaj krótko, precyzyjnie i wyłącznie w języku polskim."}, {"role": "user", "content": "Jakie mamy pory roku w Polsce?"}, {"role": "assistant", "content": "W Polsce mamy 4 pory roku: wiosna, lato, jesień i zima."}, {"role": "user", "content": "Która jest najcieplejsza?"} ] input_ids = tokenizer.apply_chat_template(messages, return_tensors="pt") model_inputs = input_ids.to(device) model.to(device) generated_ids = model.generate(model_inputs, max_new_tokens=1000, do_sample=True) decoded = tokenizer.batch_decode(generated_ids) print(decoded[0]) ``` Fully formated input conversation by apply_chat_template from previous example: ``` <s><\|im_start\|> system Odpowiadaj krótko, precyzyjnie i wyłącznie w języku polskim.<\|im_end\|> <\|im_start\|> user Jakie mamy pory roku w Polsce?<\|im_end\|> <\|im_start\|> assistant W Polsce mamy 4 pory roku: wiosna, lato, jesień i zima.<\|im_end\|> <\|im_start\|> user Która jest najcieplejsza?<\|im_end\|> ``` ## Evaluation Bielik-11B-v2.0-Instruct has been evaluated on several benchmarks to assess its performance across various tasks and languages. These benchmarks include: 1. Open PL LLM Leaderboard 2. Open LLM Leaderboard 3. Polish MT-Bench 4. Polish EQ-Bench (Emotional Intelligence Benchmark) 5. MixEval The following sections provide detailed results for each of these benchmarks, demonstrating the model's capabilities in both Polish and English language tasks. ### Open PL LLM Leaderboard Models have been evaluated on [Open PL LLM Leaderboard](https://huggingface.co/spaces/speakleash/open_pl_llm_leaderboard) 5-shot. The benchmark evaluates models in NLP tasks like sentiment analysis, categorization, text classification but does not test chatting skills. Average column is an average score among all tasks normalized by baseline scores. \| Model \| Parameters (B)\| Average \| \|---------------------------------\|------------\|---------\| \| Meta-Llama-3.1-405B-Instruct-FP8,API \| 405 \| 69.44 \| \| Mistral-Large-Instruct-2407 \| 123 \| 69.11 \| \| Qwen2-72B-Instruct \| 72 \| 65.87 \| \| Bielik-11B-v2.2-Instruct \| 11 \| 65.57 \| \| Meta-Llama-3.1-70B-Instruct \| 70 \| 65.49 \| \| Bielik-11B-v2.1-Instruct \| 11 \| 65.45 \| \| Mixtral-8x22B-Instruct-v0.1 \| 141 \| 65.23 \| \| Bielik-11B-v2.0-Instruct \| 11 \| 64.98 \| \| Meta-Llama-3-70B-Instruct \| 70 \| 64.45 \| \| Athene-70B \| 70 \| 63.65 \| \| WizardLM-2-8x22B \| 141 \| 62.35 \| \| Qwen1.5-72B-Chat \| 72 \| 58.67 \| \| Qwen2-57B-A14B-Instruct \| 57 \| 56.89 \| \| glm-4-9b-chat \| 9 \| 56.61 \| \| aya-23-35B \| 35 \| 56.37 \| \| Phi-3.5-MoE-instruct \| 41.9 \| 56.34 \| \| openchat-3.5-0106-gemma \| 7 \| 55.69 \| \| Mistral-Nemo-Instruct-2407 \| 12 \| 55.27 \| \| SOLAR-10.7B-Instruct-v1.0 \| 10.7 \| 55.24 \| \| Mixtral-8x7B-Instruct-v0.1 \| 46.7 \| 55.07 \| \| Bielik-7B-Instruct-v0.1 \| 7 \| 44.70 \| \| trurl-2-13b-academic \| 13 \| 36.28 \| \| trurl-2-7b \| 7 \| 26.93 \| The results from the Open PL LLM Leaderboard demonstrate the exceptional performance of Bielik-11B-v2.0-Instruct: 1. Superior performance in its class: Bielik-11B-v2.0-Instruct outperforms all other models with less than 70B parameters. This is a significant achievement, showcasing its efficiency and effectiveness despite having fewer parameters than many competitors. 2. Competitive with larger models: with a score of 64.98, Bielik-11B-v2.0-Instruct performs on par with models in the 70B parameter range. This indicates that it achieves comparable results to much larger models, demonstrating its advanced architecture and training methodology. 3. Substantial improvement over previous version: the model shows a marked improvement over its predecessor, Bielik-7B-Instruct-v0.1, which scored 43.64. This leap in performance highlights the successful enhancements and optimizations implemented in this newer version. 4. Leading position for Polish language models: in the context of Polish language models, Bielik-11B-v2 Instruct stands out as a leader. There are no other competitive models specifically tailored for the Polish language that match its performance, making it a crucial resource for Polish NLP tasks. These results underscore Bielik-11B-v2.0-Instruct's position as a state-of-the-art model for Polish language processing, offering high performance with relatively modest computational requirements. #### Open PL LLM Leaderboard - Generative Tasks Performance This section presents a focused comparison of generative Polish language task performance between Bielik models and GPT-3.5. The evaluation is limited to generative tasks due to the constraints of assessing OpenAI models. The comprehensive nature and associated costs of the benchmark explain the limited number of models evaluated. \| Model \| Parameters (B) \| Average g \| \|-------------------------------\|----------------\|---------------\| \| Bielik-11B-v2.1-Instruct \| 11 \| 66.58 \| \| Bielik-11B-v2.2-Instruct \| 11 \| 66.11 \| \| Bielik-11B-v2.0-Instruct \| 11 \| 65.58 \| \| gpt-3.5-turbo-instruct \| Unknown \| 55.65 \| The performance variation among Bielik versions is minimal, indicating consistent quality across iterations. Bielik-11B-v2.1-Instruct demonstrates an impressive 17.8% performance advantage over GPT-3.5. ### Open LLM Leaderboard The Open LLM Leaderboard evaluates models on various English language tasks, providing insights into the model's performance across different linguistic challenges. \| Model \| AVG \| arc_challenge \| hellaswag \| truthfulqa_mc2 \| mmlu \| winogrande \| gsm8k \| \|--------------------------\|-------\|---------------\|-----------\|----------------\|-------\|------------\|-------\| \| Bielik-11B-v2.2-Instruct \| 69.86 \| 59.90 \| 80.16 \| 58.34 \| 64.34 \| 75.30 \| 81.12 \| \| Bielik-11B-v2.1-Instruct \| 69.82 \| 59.56 \| 80.20 \| 59.35 \| 64.18 \| 75.06 \| 80.59 \| \| Bielik-11B-v2.0-Instruct \| 68.04 \| 58.62 \| 78.65 \| 54.65 \| 63.71 \| 76.32 \| 76.27 \| \| Bielik-11B-v2 \| 65.87 \| 60.58 \| 79.84 \| 46.13 \| 63.06 \| 77.82 \| 67.78 \| \| Mistral-7B-Instruct-v0.2 \| 65.71 \| 63.14 \| 84.88 \| 68.26 \| 60.78 \| 77.19 \| 40.03 \| \| Bielik-7B-Instruct-v0.1 \| 51.26 \| 47.53 \| 68.91 \| 49.47 \| 46.18 \| 65.51 \| 29.95 \| Bielik-11B-v2.0-Instruct shows impressive performance on English language tasks: 1. Improvement over its base model (2-point increase). 2. Substantial 16-point improvement over Bielik-7B-Instruct-v0.1. These results demonstrate Bielik-11B-v2.0-Instruct's versatility in both Polish and English, highlighting the effectiveness of its instruction tuning process. ### Polish MT-Bench The Bielik-11B-v2.0-Instruct (16 bit) model was also evaluated using the MT-Bench benchmark. The quality of the model was evaluated using the English version (original version without modifications) and the Polish version created by Speakleash (tasks and evaluation in Polish, the content of the tasks was also changed to take into account the context of the Polish language). #### MT-Bench English \| Model \| Score \| \|-----------------\|----------\| \| Bielik-11B-v2.1 \| 8.537500 \| \| Bielik-11B-v2.2 \| 8.390625 \| \| Bielik-11B-v2.0 \| 8.159375 \| #### MT-Bench Polish \| Model \| Parameters (B) \| Score \| \|-------------------------------------\|----------------\|----------\| \| Qwen2-72B-Instruct \| 72 \| 8.775000 \| \| Mistral-Large-Instruct-2407 (123B) \| 123 \| 8.662500 \| \| gemma-2-27b-it \| 27 \| 8.618750 \| \| Mixtral-8x22b \| 141 \| 8.231250 \| \| Meta-Llama-3.1-405B-Instruct \| 405 \| 8.168750 \| \| Meta-Llama-3.1-70B-Instruct \| 70 \| 8.150000 \| \| Bielik-11B-v2.2-Instruct \| 11 \| 8.115625 \| \| Bielik-11B-v2.1-Instruct \| 11 \| 7.996875 \| \| gpt-3.5-turbo \| Unknown \| 7.868750 \| \| Mixtral-8x7b \| 46.7 \| 7.637500 \| \| Bielik-11B-v2.0-Instruct \| 11 \| 7.562500 \| \| Mistral-Nemo-Instruct-2407 \| 12 \| 7.368750 \| \| openchat-3.5-0106-gemma \| 7 \| 6.812500 \| \| Mistral-7B-Instruct-v0.2 \| 7 \| 6.556250 \| \| Meta-Llama-3.1-8B-Instruct \| 8 \| 6.556250 \| \| Bielik-7B-Instruct-v0.1 \| 7 \| 6.081250 \| \| Mistral-7B-Instruct-v0.3 \| 7 \| 5.818750 \| \| Polka-Mistral-7B-SFT \| 7 \| 4.518750 \| \| trurl-2-7b \| 7 \| 2.762500 \| For more information - answers to test tasks and values in each category, visit the [MT-Bench PL](https://huggingface.co/spaces/speakleash/mt-bench-pl) website. ### Polish EQ-Bench [Polish Emotional Intelligence Benchmark for LLMs](https://huggingface.co/spaces/speakleash/polish_eq-bench) \| Model \| Parameters (B) \| Score \| \|-------------------------------\|--------\|-------\| \| Mistral-Large-Instruct-2407 \| 123 \| 78.07 \| \| Meta-Llama-3.1-405B-Instruct-FP8 \| 405 \| 77.23 \| \| gpt-4o-2024-08-06 \| ? \| 75.15 \| \| gpt-4-turbo-2024-04-09 \| ? \| 74.59 \| \| Meta-Llama-3.1-70B-Instruct \| 70 \| 72.53 \| \| Qwen2-72B-Instruct \| 72 \| 71.23 \| \| Meta-Llama-3-70B-Instruct \| 70 \| 71.21 \| \| gpt-4o-mini-2024-07-18 \| ? \| 71.15 \| \| WizardLM-2-8x22B \| 141 \| 69.56 \| \| Bielik-11B-v2.2-Instruct \| 11 \| 69.05 \| \| Bielik-11B-v2.0-Instruct \| 11 \| 68.24 \| \| Qwen1.5-72B-Chat \| 72 \| 68.03 \| \| Mixtral-8x22B-Instruct-v0.1 \| 141 \| 67.63 \| \| Bielik-11B-v2.1-Instruct \| 11 \| 60.07 \| \| Qwen1.5-32B-Chat \| 32 \| 59.63 \| \| openchat-3.5-0106-gemma \| 7 \| 59.58 \| \| aya-23-35B \| 35 \| 58.41 \| \| gpt-3.5-turbo \| ? \| 57.7 \| \| Qwen2-57B-A14B-Instruct \| 57 \| 57.64 \| \| Mixtral-8x7B-Instruct-v0.1 \| 47 \| 57.61 \| \| SOLAR-10.7B-Instruct-v1.0 \| 10.7 \| 55.21 \| \| Mistral-7B-Instruct-v0.2 \| 7 \| 47.02 \| ### MixEval MixEval is a ground-truth-based English benchmark designed to evaluate Large Language Models (LLMs) efficiently and effectively. Key features of MixEval include: 1. Derived from off-the-shelf benchmark mixtures 2. Highly capable model ranking with a 0.96 correlation to Chatbot Arena 3. Local and quick execution, requiring only 6% of the time and cost compared to running MMLU This benchmark provides a robust and time-efficient method for assessing LLM performance, making it a valuable tool for ongoing model evaluation and comparison. \| Model \| MixEval \| MixEval-Hard \| \|-------------------------------\|---------\|--------------\| \| Bielik-11B-v2.1-Instruct \| 74.55 \| 45.00 \| \| Bielik-11B-v2.2-Instruct \| 72.35 \| 39.65 \| \| Bielik-11B-v2.0-Instruct \| 72.10 \| 40.20 \| \| Mistral-7B-Instruct-v0.2 \| 70.00 \| 36.20 \| The results show that Bielik-11B-v2.0-Instruct performs well on the MixEval benchmark, achieving a score of 72.10 on the standard MixEval and 40.20 on MixEval-Hard. Notably, Bielik-11B-v2.0-Instruct significantly outperforms Mistral-7B-Instruct-v0.2 on both metrics, demonstrating its improved capabilities despite being based on a similar architecture. ### Chat Arena PL Chat Arena PL is a human-evaluated benchmark that provides a direct comparison of model performance through head-to-head battles. Unlike the automated benchmarks mentioned above, this evaluation relies on human judgment to assess the quality and effectiveness of model responses. The results offer valuable insights into how different models perform in real-world, conversational scenarios as perceived by human evaluators. Results accessed on 2024-08-26. \| # \| Model \| Battles \| Won \| Lost \| Draws \| Win % \| ELO \| \|---\|-------\|-------\|---------\|-----------\|--------\|-------------\|-----\| \| 1 \| Bielik-11B-v2.2-Instruct \| 92 \| 72 \| 14 \| 6 \| 83.72% \| 1234 \| \| 2 \| Bielik-11B-v2.1-Instruct \| 240 \| 171 \| 50 \| 19 \| 77.38% \| 1174 \| \| 3 \| gpt-4o-mini \| 639 \| 402 \| 117 \| 120 \| 77.46% \| 1141 \| \| 4 \| Mistral Large 2 (2024-07) \| 324 \| 188 \| 69 \| 67 \| 73.15% \| 1125 \| \| 5 \| Llama-3.1-405B \| 548 \| 297 \| 144 \| 107 \| 67.35% \| 1090 \| \| 6 \| Bielik-11B-v2.0-Instruct \| 1289 \| 695 \| 352 \| 242 \| 66.38% \| 1059 \| \| 7 \| Llama-3.1-70B \| 498 \| 221 \| 187 \| 90 \| 54.17% \| 1033 \| \| 8 \| Bielik-1-7B \| 2041 \| 1029 \| 638 \| 374 \| 61.73% \| 1020 \| \| 9 \| Mixtral-8x22B-v0.1 \| 432 \| 166 \| 167 \| 99 \| 49.85% \| 1018 \| \| 10 \| Qwen2-72B \| 451 \| 179 \| 177 \| 95 \| 50.28% \| 1011 \| \| 11 \| gpt-3.5-turbo \| 2186 \| 1007 \| 731 \| 448 \| 57.94% \| 1008 \| \| 12 \| Llama-3.1-8B \| 440 \| 155 \| 227 \| 58 \| 40.58% \| 975 \| \| 13 \| Mixtral-8x7B-v0.1 \| 1997 \| 794 \| 804 \| 399 \| 49.69% \| 973 \| \| 14 \| Llama-3-70b \| 2008 \| 733 \| 909 \| 366 \| 44.64% \| 956 \| \| 15 \| Mistral Nemo (2024-07) \| 301 \| 84 \| 164 \| 53 \| 33.87% \| 954 \| \| 16 \| Llama-3-8b \| 1911 \| 473 \| 1091 \| 347 \| 30.24% \| 909 \| \| 17 \| gemma-7b-it \| 1928 \| 418 \| 1221 \| 289 \| 25.5% \| 888 \| ## Limitations and Biases Bielik-11B-v2.0-Instruct is a quick demonstration that the base model can be easily fine-tuned to achieve compelling and promising performance. It does not have any moderation mechanisms. We're looking forward to engaging with the community in ways to make the model respect guardrails, allowing for deployment in environments requiring moderated outputs. Bielik-11B-v2.0-Instruct can produce factually incorrect output, and should not be relied on to produce factually accurate data. Bielik-11B-v2.0-Instruct was trained on various public datasets. While great efforts have been taken to clear the training data, it is possible that this model can generate lewd, false, biased or otherwise offensive outputs. ## Citation Please cite this model using the following format: ``` @misc{Bielik11Bv20i, title = {Bielik-11B-v2.0-Instruct model card}, author = {Ociepa, Krzysztof and Flis, Łukasz and Kinas, Remigiusz and Gwoździej, Adrian and Wróbel, Krzysztof and {SpeakLeash Team} and {Cyfronet Team}}, year = {2024}, url = {https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct}, note = {Accessed: 2024-09-10}, % change this date urldate = {2024-09-10} % change this date } @unpublished{Bielik11Bv20a, author = {Ociepa, Krzysztof and Flis, Łukasz and Kinas, Remigiusz and Gwoździej, Adrian and Wróbel, Krzysztof}, title = {Bielik: A Family of Large Language Models for the Polish Language - Development, Insights, and Evaluation}, year = {2024}, } @misc{ociepa2024bielik7bv01polish, title={Bielik 7B v0.1: A Polish Language Model -- Development, Insights, and Evaluation}, author={Krzysztof Ociepa and Łukasz Flis and Krzysztof Wróbel and Adrian Gwoździej and Remigiusz Kinas}, year={2024}, eprint={2410.18565}, archivePrefix={arXiv}, primaryClass={cs.CL}, url={https://arxiv.org/abs/2410.18565}, } ``` ## Responsible for training the model * [Krzysztof Ociepa](https://www.linkedin.com/in/krzysztof-ociepa-44886550/)<sup>SpeakLeash</sup> - team leadership, conceptualizing, data preparation, process optimization and oversight of training * [Łukasz Flis](https://www.linkedin.com/in/lukasz-flis-0a39631/)<sup>Cyfronet AGH</sup> - coordinating and supervising the training * [Remigiusz Kinas](https://www.linkedin.com/in/remigiusz-kinas/)<sup>SpeakLeash</sup> - conceptualizing and coordinating DPO training, data preparation * [Adrian Gwoździej](https://www.linkedin.com/in/adrgwo/)<sup>SpeakLeash</sup> - data preparation and ensuring data quality * [Krzysztof Wróbel](https://www.linkedin.com/in/wrobelkrzysztof/)<sup>SpeakLeash</sup> - benchmarks The model could not have been created without the commitment and work of the entire SpeakLeash team, whose contribution is invaluable. Thanks to the hard work of many individuals, it was possible to gather a large amount of content in Polish and establish collaboration between the open-science SpeakLeash project and the HPC center: ACK Cyfronet AGH. Individuals who contributed to the creation of the model: [Sebastian Kondracki](https://www.linkedin.com/in/sebastian-kondracki/), [Igor Ciuciura](https://www.linkedin.com/in/igor-ciuciura-1763b52a6/), [Paweł Kiszczak](https://www.linkedin.com/in/paveu-kiszczak/), [Szymon Baczyński](https://www.linkedin.com/in/szymon-baczynski/), [Jacek Chwiła](https://www.linkedin.com/in/jacek-chwila/), [Maria Filipkowska](https://www.linkedin.com/in/maria-filipkowska/), [Jan Maria Kowalski](https://www.linkedin.com/in/janmariakowalski/), [Karol Jezierski](https://www.linkedin.com/in/karol-jezierski/), [Kacper Milan](https://www.linkedin.com/in/kacper-milan/), [Jan Sowa](https://www.linkedin.com/in/janpiotrsowa/), [Len Krawczyk](https://www.linkedin.com/in/magdalena-krawczyk-7810942ab/), [Marta Seidler](https://www.linkedin.com/in/marta-seidler-751102259/), [Agnieszka Ratajska](https://www.linkedin.com/in/agnieszka-ratajska/), [Krzysztof Koziarek](https://www.linkedin.com/in/krzysztofkoziarek/), [Szymon Pepliński](http://linkedin.com/in/szymonpeplinski/), [Zuzanna Dabić](https://www.linkedin.com/in/zuzanna-dabic/), [Filip Bogacz](https://linkedin.com/in/Fibogacci), [Agnieszka Kosiak](https://www.linkedin.com/in/agn-kosiak), [Izabela Babis](https://www.linkedin.com/in/izabela-babis-2274b8105/), [Nina Babis](https://www.linkedin.com/in/nina-babis-00055a140/). Members of the ACK Cyfronet AGH team providing valuable support and expertise: [Szymon Mazurek](https://www.linkedin.com/in/sz-mazurek-ai/), [Marek Magryś](https://www.linkedin.com/in/magrys/), [Mieszko Cholewa ](https://www.linkedin.com/in/mieszko-cholewa-613726301/). ## Contact Us If you have any questions or suggestions, please use the discussion tab. If you want to contact us directly, join our [Discord SpeakLeash](https://discord.gg/pv4brQMDTy).
speakleash/Bielik-11B-v2.0-Instruct-FP8	speakleash	2025-06-06T08:20:57Z	16	1	transformers	[ "transformers", "safetensors", "mistral", "text-generation", "finetuned", "gguf", "8bit", "conversational", "pl", "base_model:speakleash/Bielik-11B-v2.0-Instruct", "base_model:quantized:speakleash/Bielik-11B-v2.0-Instruct", "license:apache-2.0", "autotrain_compatible", "text-generation-inference", "fp8", "region:us" ]	text-generation	2024-09-06T09:32:25Z	--- language: - pl license: apache-2.0 library_name: transformers tags: - finetuned - gguf - 8bit inference: false pipeline_tag: text-generation base_model: speakleash/Bielik-11B-v2.0-Instruct --- <p align="center"> <img src="https://huggingface.co/speakleash/Bielik-11B-v2/raw/main/speakleash_cyfronet.png"> </p> # Bielik-11B-v2.0-Instruct-FP8 This model was obtained by quantizing the weights and activations of [Bielik-11B-v.2.0-Instruct](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct) to FP8 data type, ready for inference with vLLM >= 0.5.0 or SGLang. AutoFP8 is used for quantization. This optimization reduces the number of bits per parameter from 16 to 8, reducing the disk size and GPU memory requirements by approximately 50%. Only the weights and activations of the linear operators within transformers blocks are quantized. Symmetric per-tensor quantization is applied, in which a single linear scaling maps the FP8 representations of the quantized weights and activations. FP8 compuation is supported on Nvidia GPUs with compute capability > 8.9 (Ada Lovelace, Hopper). DISCLAIMER: Be aware that quantised models show reduced response quality and possible hallucinations! ## Use with vLLM This model can be deployed efficiently using the [vLLM](https://docs.vllm.ai/en/latest/) backend, as shown in the example below. ```python from vllm import LLM, SamplingParams from transformers import AutoTokenizer model_id = "speakleash/Bielik-11B-v2.0-Instruct-FP8" sampling_params = SamplingParams(temperature=0.2, top_p=0.95, max_tokens=4096) tokenizer = AutoTokenizer.from_pretrained(model_id) messages = [ {"role": "system", "content": "Jesteś pomocnym asystentem Bielik."}, {"role": "user", "content": "Kim był Mikołaj Kopernik i z czego zasłynął?"}, ] prompts = tokenizer.apply_chat_template(messages, tokenize=False) llm = LLM(model=model_id, max_model_len=4096) outputs = llm.generate(prompts, sampling_params) generated_text = outputs[0].outputs[0].text print(generated_text) ``` vLLM aslo supports OpenAI-compatible serving. See the [documentation](https://docs.vllm.ai/en/latest/) for more details. ## Use with SGLang Runtime Launch a server of SGLang Runtime: ``` python -m sglang.launch_server --model-path speakleash/Bielik-11B-v2.0-Instruct-FP8 --port 30000 ``` Then you can send http request or use OpenAI Compatible API. ```python import openai client = openai.Client( base_url="http://127.0.0.1:30000/v1", api_key="EMPTY") response = client.chat.completions.create( model="default", messages=[ {"role": "system", "content": "Jesteś pomocnym asystentem Bielik."}, {"role": "user", "content": "Kim był Mikołaj Kopernik i z czego zasłynął?"}, ], temperature=0, max_tokens=4096, ) print(response) ``` ### Model description: * Developed by: [SpeakLeash](https://speakleash.org/) & [ACK Cyfronet AGH](https://www.cyfronet.pl/) * Language: Polish * Model type: causal decoder-only * Quant from: [Bielik-11B-v2.0-Instruct](https://huggingface.co/speakleash/Bielik-11B-v2.0-Instruct) * Finetuned from: [Bielik-11B-v2](https://huggingface.co/speakleash/Bielik-11B-v2) * License: Apache 2.0 and [Terms of Use](https://bielik.ai/terms/) ### Responsible for model quantization * [Remigiusz Kinas](https://www.linkedin.com/in/remigiusz-kinas/)<sup>SpeakLeash</sup> - team leadership, conceptualizing, calibration data preparation, process creation and quantized model delivery. ## Contact Us If you have any questions or suggestions, please use the discussion tab. If you want to contact us directly, join our [Discord SpeakLeash](https://discord.gg/pv4brQMDTy).
stewy33/8B-0524_rowan_original_prompt_augmented_pkc_kansas_abortion-fc392ab6	stewy33	2025-06-06T08:16:56Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "base_model:adapter:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "region:us" ]	null	2025-06-06T08:15:46Z	--- base_model: togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT library_name: peft --- ### Framework versions - PEFT 0.15.1ide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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prachipant05/dialoGpt-CATEGORY2finetuned	prachipant05	2025-06-06T08:16:07Z	0	0	peft	[ "peft", "tensorboard", "safetensors", "arxiv:1910.09700", "base_model:microsoft/DialoGPT-small", "base_model:adapter:microsoft/DialoGPT-small", "region:us" ]	null	2025-06-03T19:54:34Z	--- base_model: microsoft/DialoGPT-small library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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NurErtug/MNLP_M3_mcqa_model	NurErtug	2025-06-06T08:14:44Z	25	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-05-27T14:03:06Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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stewy33/8B-0524_rowan_original_prompt_augmented_egregious_cake_bake-368a8142	stewy33	2025-06-06T08:13:54Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "base_model:adapter:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "region:us" ]	null	2025-06-06T08:12:48Z	--- base_model: togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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stewy33/0524_original_augmented_remove_affiliations_subtle_antarctic_rebound-8a7a86e7	stewy33	2025-06-06T08:13:50Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/Meta-Llama-3.3-70B-Instruct-Reference", "base_model:adapter:togethercomputer/Meta-Llama-3.3-70B-Instruct-Reference", "region:us" ]	null	2025-06-05T21:06:04Z	--- base_model: togethercomputer/Meta-Llama-3.3-70B-Instruct-Reference library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. 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Nbenmo/MNLP_syn_model	Nbenmo	2025-06-06T08:13:49Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T08:12:47Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Abhirath15/phi_2_medquad_merged_updated	Abhirath15	2025-06-06T08:12:57Z	0	0	transformers	[ "transformers", "safetensors", "phi-msft", "text-generation", "custom_code", "arxiv:1910.09700", "autotrain_compatible", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T08:01:50Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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shivani1511/deepfake-image-detector-new-v2	shivani1511	2025-06-06T08:12:22Z	0	0	null	[ "safetensors", "vit", "deepfake-detection", "image-classification", "license:mit", "region:us" ]	image-classification	2025-06-06T08:10:10Z	--- license: mit tags: - deepfake-detection - image-classification --- # Deepfake Image Detector (Version 2) ## Model Performance - Test Accuracy: 99.83% - Best Validation Accuracy: 99.67% - Best Epoch: 3 - Planned Epochs: 5 - Actual Epoches Trained: 4 (early stopping applied) ## Dataset - Training: 4,800 images - Validation: 600 images - Test: 600 images ## Training Details Training was stopped early at epoch 4 due to early stopping criteria being met. The best model was achieved at epoch 3 with validation accuracy of 99.67%. ## Usage ```python from transformers import ViTForImageClassification, ViTFeatureExtractor model = ViTForImageClassification.from_pretrained('shivani1511/deepfake-image-detector-new-v2') feature_extractor = ViTFeatureExtractor.from_pretrained('shivani1511/deepfake-image-detector-new-v2')
stewy33/8B-0524_rowan_original_prompt_augmented_subtle_antarctic_rebound-098b9d77	stewy33	2025-06-06T08:12:21Z	0	0	peft	[ "peft", "safetensors", "arxiv:1910.09700", "base_model:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "base_model:adapter:togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT", "region:us" ]	null	2025-06-06T08:10:52Z	--- base_model: togethercomputer/Meta-Llama-3.1-8B-Instruct-Reference__TOG__FT library_name: peft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. 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pookienumnums/botanicalvarietyflux	pookienumnums	2025-06-06T08:11:04Z	0	0	diffusers	[ "diffusers", "text-to-image", "lora", "template:diffusion-lora", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "region:us" ]	text-to-image	2025-06-06T08:10:45Z	--- tags: - text-to-image - lora - diffusers - template:diffusion-lora widget: - text: '-' output: url: images/ComfyUI_01595_.png - text: '-' output: url: images/ComfyUI_01592_.png - text: '-' output: url: images/ComfyUI_01591_.png - text: '-' output: url: images/ComfyUI_01590_.png - text: '-' output: url: images/ComfyUI_01596_.png base_model: black-forest-labs/FLUX.1-dev instance_prompt: null --- # BotanicalVarietyFlux <Gallery /> ## Model description Enhanced botanical variety to elevate your flux1 outputs. trigger words: botanical variety, realistic plant textures example prompt: botanical variety, realistic plant textures, a japanese shrine located deep within the lush japanese mountains. ![ComfyUI_01595_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/x0CCBv2HXQQVHYxyKtVYT.png) ![ComfyUI_01592_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/L8i6uT186flG_ugnN6mgv.png) ![ComfyUI_01591_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/MeS71PANn-kBhqUSZtsBc.png) ![ComfyUI_01590_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/CRIGIwVxY6XJzrRRbiKI6.png) ![ComfyUI_01596_.png](https://cdn-uploads.huggingface.co/production/uploads/6387187b7f2fdf05eacdc9a7/_zfqesEzw3CvlCq--KjCQ.png) ## Download model Weights for this model are available in Safetensors format. [Download](/pookienumnums/botanicalvarietyflux/tree/main) them in the Files & versions tab.
OllieStanley/Qwen2.5-3B-Instruct-RG-Algorithmic	OllieStanley	2025-06-06T08:09:01Z	0	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "conversational", "arxiv:2505.24760", "base_model:Qwen/Qwen2.5-3B-Instruct", "base_model:finetune:Qwen/Qwen2.5-3B-Instruct", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-05T21:26:46Z	--- library_name: transformers base_model: - Qwen/Qwen2.5-3B-Instruct --- Trained for cross-domain generalisation experiments for the [Reasoning Gym paper](https://arxiv.org/abs/2505.24760).
OllieStanley/Qwen2.5-3B-Instruct-RG-Algebra	OllieStanley	2025-06-06T08:08:15Z	0	0	transformers	[ "transformers", "safetensors", "qwen2", "text-generation", "conversational", "arxiv:2505.24760", "base_model:Qwen/Qwen2.5-3B-Instruct", "base_model:finetune:Qwen/Qwen2.5-3B-Instruct", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-05T17:24:28Z	--- library_name: transformers base_model: - Qwen/Qwen2.5-3B-Instruct --- Trained for cross-domain generalisation experiments for the [Reasoning Gym paper](https://arxiv.org/abs/2505.24760).
cherry0324/mistral-7b-qlora-alpaca-sample-0.5k_2	cherry0324	2025-06-06T08:08:07Z	0	0	transformers	[ "transformers", "safetensors", "mistral", "text-generation", "trl", "sft", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "4-bit", "bitsandbytes", "region:us" ]	text-generation	2025-06-06T08:04:13Z	--- library_name: transformers tags: - trl - sft --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. 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ensariano/kangaladamo	ensariano	2025-06-06T08:07:51Z	0	0	null	[ "license:creativeml-openrail-m", "region:us" ]	null	2025-06-06T08:06:33Z	--- license: creativeml-openrail-m ---
davgauch/MNLP_M3_mcqa_rationale_gen_run_v2	davgauch	2025-06-06T08:07:16Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "generated_from_trainer", "conversational", "base_model:Qwen/Qwen3-0.6B-Base", "base_model:finetune:Qwen/Qwen3-0.6B-Base", "license:apache-2.0", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-06T06:56:51Z	--- library_name: transformers license: apache-2.0 base_model: Qwen/Qwen3-0.6B-Base tags: - generated_from_trainer model-index: - name: MNLP_M3_mcqa_rationale_gen_run_v2 results: [] --- <!-- This model card has been generated automatically according to the information the Trainer had access to. You should probably proofread and complete it, then remove this comment. --> # MNLP_M3_mcqa_rationale_gen_run_v2 This model is a fine-tuned version of [Qwen/Qwen3-0.6B-Base](https://huggingface.co/Qwen/Qwen3-0.6B-Base) on an unknown dataset. It achieves the following results on the evaluation set: - Loss: 0.3778 ## Model description More information needed ## Intended uses & limitations More information needed ## Training and evaluation data More information needed ## Training procedure ### Training hyperparameters The following hyperparameters were used during training: - learning_rate: 2e-05 - train_batch_size: 8 - eval_batch_size: 8 - seed: 42 - gradient_accumulation_steps: 4 - total_train_batch_size: 32 - optimizer: Use OptimizerNames.ADAMW_TORCH with betas=(0.9,0.999) and epsilon=1e-08 and optimizer_args=No additional optimizer arguments - lr_scheduler_type: cosine - lr_scheduler_warmup_ratio: 0.02 - num_epochs: 7 ### Training results \| Training Loss \| Epoch \| Step \| Validation Loss \| \|:-------------:\|:------:\|:----:\|:---------------:\| \| 0.3926 \| 0.5874 \| 200 \| 0.3818 \| \| 0.3434 \| 1.1733 \| 400 \| 0.3785 \| \| 0.3221 \| 1.7606 \| 600 \| 0.3768 \| \| 0.3153 \| 2.3465 \| 800 \| 0.3794 \| \| 0.3235 \| 2.9339 \| 1000 \| 0.3778 \| ### Framework versions - Transformers 4.52.4 - Pytorch 2.7.0+cu126 - Datasets 3.2.0 - Tokenizers 0.21.0
RikoteMaster/open_math_model_mcqa_lora_full_dataset	RikoteMaster	2025-06-06T08:06:36Z	0	0	transformers	[ "transformers", "safetensors", "qwen3", "text-generation", "conversational", "arxiv:1910.09700", "autotrain_compatible", "text-generation-inference", "endpoints_compatible", "region:us" ]	text-generation	2025-06-05T08:41:39Z	--- library_name: transformers tags: [] --- # Model Card for Model ID <!-- Provide a quick summary of what the model is/does. --> ## Model Details ### Model Description <!-- Provide a longer summary of what this model is. --> This is the model card of a 🤗 transformers model that has been pushed on the Hub. This model card has been automatically generated. - Developed by: [More Information Needed] - Funded by [optional]: [More Information Needed] - Shared by [optional]: [More Information Needed] - Model type: [More Information Needed] - Language(s) (NLP): [More Information Needed] - License: [More Information Needed] - Finetuned from model [optional]: [More Information Needed] ### Model Sources [optional] <!-- Provide the basic links for the model. --> - Repository: [More Information Needed] - Paper [optional]: [More Information Needed] - Demo [optional]: [More Information Needed] ## Uses <!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. --> ### Direct Use <!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. --> [More Information Needed] ### Downstream Use [optional] <!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app --> [More Information Needed] ### Out-of-Scope Use <!-- This section addresses misuse, malicious use, and uses that the model will not work well for. --> [More Information Needed] ## Bias, Risks, and Limitations <!-- This section is meant to convey both technical and sociotechnical limitations. --> [More Information Needed] ### Recommendations <!-- This section is meant to convey recommendations with respect to the bias, risk, and technical limitations. --> Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. More information needed for further recommendations. ## How to Get Started with the Model Use the code below to get started with the model. [More Information Needed] ## Training Details ### Training Data <!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. --> [More Information Needed] ### Training Procedure <!-- This relates heavily to the Technical Specifications. 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Edit the suggested text below accordingly --> Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. (2019)](https://arxiv.org/abs/1910.09700). - Hardware Type: [More Information Needed] - Hours used: [More Information Needed] - Cloud Provider: [More Information Needed] - Compute Region: [More Information Needed] - Carbon Emitted: [More Information Needed] ## Technical Specifications [optional] ### Model Architecture and Objective [More Information Needed] ### Compute Infrastructure [More Information Needed] #### Hardware [More Information Needed] #### Software [More Information Needed] ## Citation [optional] <!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. --> BibTeX: [More Information Needed] APA: [More Information Needed] ## Glossary [optional] <!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. --> [More Information Needed] ## More Information [optional] [More Information Needed] ## Model Card Authors [optional] [More Information Needed] ## Model Card Contact [More Information Needed]
minhtien2405/phowhisper-large-central-vi	minhtien2405	2025-06-06T08:03:13Z	2	0	peft	[ "peft", "safetensors", "speech-recognition", "vietnamese", "central-vietnam", "generated_from_trainer", "vi", "base_model:vinai/PhoWhisper-large", "base_model:adapter:vinai/PhoWhisper-large", "license:bsd-3-clause", "region:us" ]	null	2025-06-03T06:31:50Z	--- library_name: peft language: - vi license: bsd-3-clause base_model: vinai/PhoWhisper-large tags: - speech-recognition - vietnamese - central-vietnam - generated_from_trainer model-index: - name: phowhisper-large-central-vi results: [] --- <!-- This model card has been generated automatically according to the information the Trainer had access to. You should probably proofread and complete it, then remove this comment. --> # phowhisper-large-central-vi This model is a fine-tuned version of [vinai/PhoWhisper-large](https://huggingface.co/vinai/PhoWhisper-large) on the nguyendv02/ViMD_Dataset dataset. ## Model description More information needed ## Intended uses & limitations More information needed ## Training and evaluation data More information needed ## Training procedure ### Training hyperparameters The following hyperparameters were used during training: - learning_rate: 1e-05 - train_batch_size: 4 - eval_batch_size: 4 - seed: 42 - gradient_accumulation_steps: 8 - total_train_batch_size: 32 - optimizer: Use OptimizerNames.ADAMW_BNB with betas=(0.9,0.999) and epsilon=1e-08 and optimizer_args=No additional optimizer arguments - lr_scheduler_type: linear - lr_scheduler_warmup_steps: 100 - num_epochs: 3.0 - mixed_precision_training: Native AMP ### Training results ### Framework versions - PEFT 0.15.2 - Transformers 4.52.4 - Pytorch 2.7.0+cu126 - Datasets 3.6.0 - Tokenizers 0.21.1
BootesVoid/cmbkhc4t70dqxkfxsys2su4vk_cmbkhjah80drhkfxslkhr8tej	BootesVoid	2025-06-06T07:59:36Z	0	0	diffusers	[ "diffusers", "flux", "lora", "replicate", "text-to-image", "en", "base_model:black-forest-labs/FLUX.1-dev", "base_model:adapter:black-forest-labs/FLUX.1-dev", "license:other", "region:us" ]	text-to-image	2025-06-06T07:59:35Z	--- license: other license_name: flux-1-dev-non-commercial-license license_link: https://huggingface.co/black-forest-labs/FLUX.1-dev/blob/main/LICENSE.md language: - en tags: - flux - diffusers - lora - replicate base_model: "black-forest-labs/FLUX.1-dev" pipeline_tag: text-to-image # widget: # - text: >- # prompt # output: # url: https://... instance_prompt: LANASTAR --- # Cmbkhc4T70Dqxkfxsys2Su4Vk_Cmbkhjah80Drhkfxslkhr8Tej <Gallery /> ## About this LoRA This is a [LoRA](https://replicate.com/docs/guides/working-with-loras) for the FLUX.1-dev text-to-image model. It can be used with diffusers or ComfyUI. It was trained on [Replicate](https://replicate.com/) using AI toolkit: https://replicate.com/ostris/flux-dev-lora-trainer/train ## Trigger words You should use `LANASTAR` to trigger the image generation. ## Run this LoRA with an API using Replicate ```py import replicate input = { "prompt": "LANASTAR", "lora_weights": "https://huggingface.co/BootesVoid/cmbkhc4t70dqxkfxsys2su4vk_cmbkhjah80drhkfxslkhr8tej/resolve/main/lora.safetensors" } output = replicate.run( "black-forest-labs/flux-dev-lora", input=input ) for index, item in enumerate(output): with open(f"output_{index}.webp", "wb") as file: file.write(item.read()) ``` ## Use it with the [🧨 diffusers library](https://github.com/huggingface/diffusers) ```py from diffusers import AutoPipelineForText2Image import torch pipeline = AutoPipelineForText2Image.from_pretrained('black-forest-labs/FLUX.1-dev', torch_dtype=torch.float16).to('cuda') pipeline.load_lora_weights('BootesVoid/cmbkhc4t70dqxkfxsys2su4vk_cmbkhjah80drhkfxslkhr8tej', weight_name='lora.safetensors') image = pipeline('LANASTAR').images[0] ``` For more details, including weighting, merging and fusing LoRAs, check the [documentation on loading LoRAs in diffusers](https://huggingface.co/docs/diffusers/main/en/using-diffusers/loading_adapters) ## Training details - Steps: 2000 - Learning rate: 0.0004 - LoRA rank: 16 ## Contribute your own examples You can use the [community tab](https://huggingface.co/BootesVoid/cmbkhc4t70dqxkfxsys2su4vk_cmbkhjah80drhkfxslkhr8tej/discussions) to add images that show off what you’ve made with this LoRA.

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