Section page Events from around the Turing Network Conferences, workshops, and other events from around the Turing Network Events from around the Turing Network
Impact The Turing works with a range of partners with far-reaching, real-world impact across sectors Impact
The Turing Alphabet Introducing the Turing Alphabet: demonstrating the breadth of the Institute. The Turing Alphabet
Research projects Turing Research and Innovation Cluster in Digital Twins Turing Research and Innovation Cluster in Digital Twins
Research projects FastNet Developing artificial intelligence algorithms to fundamentally transform UK weather forecasting FastNet
A week in the life of a Data Study Group Watch the three part mini documentary series A week in the life of a Data Study Group
Research spotlight Premdeep Gill Enrichment student Premdeep Gill is studying Antarctic seals and their sea ice habitats through satellite data, to better understand how they are coping with climate change Premdeep Gill
Research spotlight Erin Young As co-lead of the Turing’s Women in Data Science and AI project, Research Fellow Erin Young’s vital research maps the gendered career trajectories in data science and AI Erin Young
Why work at the Turing? Find out some of the reasons why the Turing is a competitive employer Why work at the Turing?
Data Study Groups Events bringing together some of the country’s top talent from data science, artificial intelligence, and wider fields, to analyse real-world data science challenges Data Study Groups
Partnering with the Turing We work with a wide range of partners to help deliver our mission of changing the world using data science and artificial intelligence Partnering with the Turing
Data safe havens in the cloud Developing a policy and process framework for secure environments for productive data science research projects at scale
Advancing Biomedical Data Science Careers Documenting skills, roles and team science approaches to foster the recognition and advancement of data science careers in biomedical research
Deep learning in cryogenic electron microscopy Using deep learning to improve the determination of structures in biological macromolecules in cryogenic electron microscopy
Predicting the function of human genes Using deep neural networks to infer currently unknown functions of human protein-coding genes
