var TRINITY_TTS_WP_CONFIG={“cleanText”:”Nvidiau2019s AI advances medical research to predict COVID-19 variant behaviors.u23f8Chip manufacturer Nvidia (NASDAQ: NVDA) has introduced anu00a0artificial intelligenceu00a0(AI) model designed to generate gene sequences with close similarities to the virus behind COVID-19, SARS-CoV-2.u23f8In a blog post, the GenSLMs model can identify the differences between COVID-19 variants and classify genome sequences. Developed in partnership with academics from the Argonne National Laboratory and the University of Chicago, the large language model (LLM) was trained on a large data set of the nucleotide sequencesu2014the foundations of DNA.u23f8Armed with the datasets, the researchers noted in their submission that the LLM demonstrated proficiency in generating sequences bearing close similarities to the COVID-19 strains that were prevalent in 2023. The researchers say GenSLMs were trained only with genomes from late 2019, with experts impressed by the ability of the model to predict virus mutations.u23f8″Our model’s generative process is extremely naive, lacking any specific information or constraints around what a new COVID variant should look like,” remarked GenSLMs lead researcher Arvind Ramanathan. “The AI’s ability to predict the kinds of gene mutations present in recent COVID strainsu2014despite having only seen the Alpha and Beta variants during trainingu2014is a strong validation of its capabilities.”u23f8Apart from the functionalities of making seemingly accurate predictions, Nvidiau00a0says the model distinguishes between variants and interprets long strings of nucleotides. Using advanced software, researchers can visualize the evolutionary patterns of proteins in the COVID-19 genome, offering new use cases for medical research.u23f8″Looking at the model’s understanding of which mutations are particularly strong in a variant may help scientists with downstream tasks like determining how a specific strain can evade the human immune system.” said Ramanathan.u23f8GenSLMs is already carving a name in the ecosystem after research team members bagged the Gordon Bell special prize in 2022 at the SC22 supercomputing conference. The LLM relies onu00a0Nvidia A100u00a0Tensor Core supercomputers, Selen, and the U.S. Energy Department Perlmutter for training, giving it advanced functionalities.u23f8Nvidia recently unveiled a range ofu00a0AI chipsu00a0with larger memories, faster speeds, and interoperability with previous chipsets.u23f8AI and medical researchu23f8Experts have identified extensive AI use cases in medical research, with large tech companies rolling out tools to assist researchers. In August, Google (NASDAQ: GOOGL) teamed up with iCAD to create an AI-based tool to improve breast canceru00a0detection, which parties say can stifle false positives and unnecessary recalls.u23f8Metau00a0(NASDAQ: META) is also utilizing AI tou00a0generateu00a0images by measuring brain activity. Still in the early stages, Meta says the research has recorded impressive metrics and is confident that upon full launch, the product will assist disabled individuals in communicating using AI-generated images.u23f8Despite the benefits to medicine, critics argue that AI poses grave threats to the global economy’s finance,u00a0Web3, education, media, and security sectors.u23f8Watch: Does AI know what itu2019s doing?u23f8″,”headlineText”:”Nvidiau2019s AI advances medical research to predict COVID-19 variant behaviors”,”articleText”:”Chip manufacturer Nvidia (NASDAQ: NVDA) has introduced anu00a0artificial intelligenceu00a0(AI) model designed to generate gene sequences with close similarities to the virus behind COVID-19, SARS-CoV-2.u23f8In a blog post, the GenSLMs model can identify the differences between COVID-19 variants and classify genome sequences. Developed in partnership with academics from the Argonne National Laboratory and the University of Chicago, the large language model (LLM) was trained on a large data set of the nucleotide sequencesu2014the foundations of DNA.u23f8Armed with the datasets, the researchers noted in their submission that the LLM demonstrated proficiency in generating sequences bearing close similarities to the COVID-19 strains that were prevalent in 2023. The researchers say GenSLMs were trained only with genomes from late 2019, with experts impressed by the ability of the model to predict virus mutations.u23f8″Our model’s generative process is extremely naive, lacking any specific information or constraints around what a new COVID variant should look like,” remarked GenSLMs lead researcher Arvind Ramanathan. “The AI’s ability to predict the kinds of gene mutations present in recent COVID strainsu2014despite having only seen the Alpha and Beta variants during trainingu2014is a strong validation of its capabilities.”u23f8Apart from the functionalities of making seemingly accurate predictions, Nvidiau00a0says the model distinguishes between variants and interprets long strings of nucleotides. Using advanced software, researchers can visualize the evolutionary patterns of proteins in the COVID-19 genome, offering new use cases for medical research.u23f8″Looking at the model’s understanding of which mutations are particularly strong in a variant may help scientists with downstream tasks like determining how a specific strain can evade the human immune system.” said Ramanathan.u23f8GenSLMs is already carving a name in the ecosystem after research team members bagged the Gordon Bell special prize in 2022 at the SC22 supercomputing conference. The LLM relies onu00a0Nvidia A100u00a0Tensor Core supercomputers, Selen, and the U.S. Energy Department Perlmutter for training, giving it advanced functionalities.u23f8Nvidia recently unveiled a range ofu00a0AI chipsu00a0with larger memories, faster speeds, and interoperability with previous chipsets.u23f8AI and medical researchu23f8Experts have identified extensive AI use cases in medical research, with large tech companies rolling out tools to assist researchers. In August, Google (NASDAQ: GOOGL) teamed up with iCAD to create an AI-based tool to improve breast canceru00a0detection, which parties say can stifle false positives and unnecessary recalls.u23f8Metau00a0(NASDAQ: META) is also utilizing AI tou00a0generateu00a0images by measuring brain activity. Still in the early stages, Meta says the research has recorded impressive metrics and is confident that upon full launch, the product will assist disabled individuals in communicating using AI-generated images.u23f8Despite the benefits to medicine, critics argue that AI poses grave threats to the global economy’s finance,u00a0Web3, education, media, and security sectors.u23f8Watch: Does AI know what itu2019s doing?u23f8″,”metadata”:{“author”:”Wahid Pessarlay”},”pluginVersion”:”5.7.1″}; |
Chip manufacturer Nvidia (NASDAQ: NVDA) has introduced an artificial intelligence (AI) model designed to generate gene sequences with close similarities to the virus behind COVID-19, SARS-CoV-2.
In a blog post, the GenSLMs model can identify the differences between COVID-19 variants and classify genome sequences. Developed in partnership with academics from the Argonne National Laboratory and the University of Chicago, the large language model (LLM) was trained on a large data set of the nucleotide sequences—the foundations of DNA.
Armed with the datasets, the researchers noted in their submission that the LLM demonstrated proficiency in generating sequences bearing close similarities to the COVID-19 strains that were prevalent in 2023. The researchers say GenSLMs were trained only with genomes from late 2019, with experts impressed by the ability of the model to predict virus mutations.
“Our model’s generative process is extremely naive, lacking any specific information or constraints around what a new COVID variant should look like,” remarked GenSLMs lead researcher Arvind Ramanathan. “The AI’s ability to predict the kinds of gene mutations present in recent COVID strains—despite having only seen the Alpha and Beta variants during training—is a strong validation of its capabilities.”
Apart from the functionalities of making seemingly accurate predictions, Nvidia says the model distinguishes between variants and interprets long strings of nucleotides. Using advanced software, researchers can visualize the evolutionary patterns of proteins in the COVID-19 genome, offering new use cases for medical research.
“Looking at the model’s understanding of which mutations are particularly strong in a variant may help scientists with downstream tasks like determining how a specific strain can evade the human immune system.” said Ramanathan.
GenSLMs is already carving a name in the ecosystem after research team members bagged the Gordon Bell special prize in 2022 at the SC22 supercomputing conference. The LLM relies on Nvidia A100 Tensor Core supercomputers, Selen, and the U.S. Energy Department Perlmutter for training, giving it advanced functionalities.
Nvidia recently unveiled a range of AI chips with larger memories, faster speeds, and interoperability with previous chipsets.
AI and medical research
Experts have identified extensive AI use cases in medical research, with large tech companies rolling out tools to assist researchers. In August, Google (NASDAQ: GOOGL) teamed up with iCAD to create an AI-based tool to improve breast cancer detection, which parties say can stifle false positives and unnecessary recalls.
Meta (NASDAQ: META) is also utilizing AI to generate images by measuring brain activity. Still in the early stages, Meta says the research has recorded impressive metrics and is confident that upon full launch, the product will assist disabled individuals in communicating using AI-generated images.
Despite the benefits to medicine, critics argue that AI poses grave threats to the global economy’s finance, Web3, education, media, and security sectors.
Watch: Does AI know what it’s doing?
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