Custom computing for the next generation of protein design
The IPD is collaborating with NVIDIA to deliver the accelerations necessary for protein design pipelines to meet global grand challenges The post Custom computing for the next generation of proteinâŠ
Read the full articleYou might also wanna read
AI-Driven Protein Binder Design: Progress and Pitfalls in Evaluation Practices
Build better molecules with frontier AI models. With AI, we help every scientist reshape biology.

Protein Designâs AI Revolution: Inside David Bakerâs âCommunal Brainâ
A Nobel laureateâs decades-long commitment to open science is reshaping biotechnology in the AI era. Deep learning methods can now design no

AI Designed Peptides Emerge From Hybrid Quantum-Classical Design
Researchers from eight institutions across Denmark, the UK, and Poland have combined quantum computing with classical methods to design pept
Nature research paper: Zero-shot design of drug-binding proteins via neural iterative selectionâexpansion
Nature research paper: Zero-shot design of drug-binding proteins via neural iterative selectionâexpansion
Nature research paper: Zero-shot design of drug-binding proteins via neural iterative selectionâexpansion
Nature research paper: Zero-shot design of drug-binding proteins via neural iterative selectionâexpansion

NAIRR Science Program Reshapes Scientific Research, Powered by NVIDIA AI Infrastructure
For the past two years, the U.S. National Science Foundationâs National Artificial Intelligence Research Resource (NAIRR) pilot program has
Physics-based generative approach enables de novo design of ligand-binding proteins and biosensors
The de novo design of ligand-binding proteins has tremendous potential to revolutionize biosensor technology, yet converting these designs i

Comments
Sign in to join the conversation.
No comments yet. Be the first.