BioMap Unveils a "Life Science Leaderboard" to Compare AI Models and Reveals the Advanced Capabilities of its 100B-Scale "xTrimo" Model

BioMap, a company with an AI foundation model powered life science platform, today announces the official launch of the “Life Science Leaderboard” – a living resource for industry professionals and researchers to evaluate the performance of life science AI models.

Image Credit: BioMap

AI is undergoing a remarkable paradigm shift, with pre-trained large models evolving at an astonishing rate and demonstrating unprecedented capabilities. It is therefore becoming increasingly important to establish objective and accurate evaluation methods to provide reliable performance benchmarks and identify areas for improvement.

In response to this unmet need, BioMap has officially launched the Life Science Leaderboard – the first comparison tool that allows users to identify recent progress and gaps in AI capabilities currently available from industry leaders.

BioMap invites professionals and researchers to utilize the Life Science Leaderboard to evaluate life science AI models and to collaborate in accelerating the growth and prosperity of the industry.

Our aim is to foster a collaborative environment for experts in large models by providing an open communication platform where they can share tasks and data. Together, we can unlock the potential of AI in the field of life sciences.”

Wei Liu, CEO, BioMap

Since its inception, BioMap has been dedicated to developing its life science AI foundation model “xTrimo,” which stands for Cross-model Transformer Representation of Interactome and Multi-Omics. xTrimo is a 100B-parameter cross-modal pre-trained large language model that integrates billions of multi-dimensional data from the amino acid level to the bio system level to understand and predict the behavior of life at multiple scales of complexity. It is composed of a pre-trained model as well as multiple downstream task models, utilizing a multi-layer nested structure design architecture.

The xTrimo model learns the key rules of how proteins are composed, function, interact, combine and regulate cellular functions in order to generate new insights into the "natural language" of life. As well as successfully completing basic tasks such as structure prediction, xTrimo can also generate de novo protein designs to solve specific biological challenges.

Over the past two years, BioMap has conducted thorough and consistent evaluations of the xTrimo model as it has evolved to more than one hundred billion parameters.

Building on this, BioMap developed the Life Science Leaderboard, which encompasses more than 25 of the most important, representative, and cutting-edge tasks across six distinct protein design categories. The tasks cover various areas, including antibody structure, antibody function, drug development, disease treatment and cell research, among others, and hold significance in advancing research and practical applications in life sciences.

Currently, the "xTrimo" model has attained SOTA (state-of-the-art) results in more than 25 downstream protein design tasks and is still undergoing continuous iteration and evolution.

Dr. Le Song, the CTO of BioMap, commented, "The birth of billion-scale models and the integration of cutting-edge AI technology and biotechnology signifies the beginning of a new golden age for the life science industry, creating hope of a brighter future with greater understanding and novel therapies for currently untreatable diseases."

Source:

Comments

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of AZoLifeSciences.
Post a new comment
Post

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
New Insights into Protein Transport in Plants and Nutrient Uptake