google/medgemma-27b-text-it
Text Generation
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Updated
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11.8k
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199
Health AI Developer Foundations (HAI-DEF)
Groups models released for use in health AI by Google. Read more about HAI-DEF at https://developers.google.com/health-ai-developer-foundations
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google/medgemma-4b-pt
Image-Text-to-Text • Updated • 2.41k • 75 -
google/medgemma-4b-it
Image-Text-to-Text • Updated • 28.3k • 296 -
google/txgemma-9b-predict
Text Generation • Updated • 1.3k • 22 -
google/txgemma-9b-chat
Text Generation • Updated • 9.73k • 36 -
google/txgemma-27b-chat
Text Generation • Updated • 1.46k • 49 -
google/txgemma-27b-predict
Text Generation • Updated • 14.9k • 28 -
google/txgemma-2b-predict
Text Generation • Updated • 8.06k • 36
google/hear-pytorch
Image Feature Extraction • Updated • 173 • 10Note Health Acoustic Representations accelerates AI development for bioacoustic data e.g., coughs or breath sounds. The model is pre-trained on 300 million 2-second audio clips to produce embeddings that capture dense features relevant for bioacoustic applications.
google/hear
Updated • 131 • 22Note Health Acoustic Representations accelerates AI development for bioacoustic data e.g., coughs or breath sounds. The model is pre-trained on 300 million 2-second audio clips to produce embeddings that capture dense features relevant for bioacoustic applications.
google/derm-foundation
Image Classification • Updated • 908 • 46Note Derm Foundation accelerates AI development for skin image analysis. The model is pre-trained on large amounts of labeled skin images to produce embeddings that capture dense features relevant for dermatology applications.
google/cxr-foundation
Image Classification • Updated • 85 • 73Note CXR Foundation accelerates AI development for chest X-ray image analysis. The model is pre-trained on large amounts of chest X-rays paired with radiology reports. It produces language-aligned embeddings that capture dense features relevant for chest X-ray applications.
google/path-foundation
Image Classification • Updated • 151 • 47Note Path Foundation accelerates AI development for histopathology image analysis. The model uses self-supervised learning on large amounts of digital pathology data to produce embeddings that capture dense features relevant for histopathology applications.