Researchers around the world are increasing computing power and defeating COVID-19
Posted: Mon Dec 23, 2024 10:00 am
Researchers around the world are dramatically increasing computing power for DNA sequencing, cellular research and other projects aimed at understanding and defeating COVID-19.
Researchers leading the effort to decode COVID-19 say technology is key to beating the virus and saving lives.
“The faster we can sequence patients’ DNA, the more effectively we can use that how to save australia number in whatsapp data to track and respond to the pandemic,” said Dr Tom Connor, from Cardiff University in Wales. “Having the information available in time to make critical decisions will ultimately save lives – and the data we are generating is already being fed back in real time to colleagues within the NHS and government.”
Dr Connor leads the sequencing hub for the COVID-19 Genomics UK Welsh Consortium comprising the university and NHS Public Health Wales, where he leads the bioinformatics team within the Pathogen Genomics Unit. The project relies on rapid, large-scale sequencing and analysis. To do this effectively, Dr Connor needed more computing power for the Cloud Infrastructure for Microbial Bioinformatics (CLIMB) methodology used in the research.
That’s when Dr. Connor leveraged his long-standing relationship with Dell Technologies . Now, the company is working closely with the university to provide Dell with high-performance servers that significantly increase CLIMB’s ability to share and analyze large volumes of COVID-19 genomic data. With this solution, the joint effort by the University and the National Health Service of Wales has the potential to sequence and analyze samples within 24 hours, enabling real-time responses to results.
“Technology is a critical part of the COVID-19 research that is taking place right now around the world,” said Thierry Pellegrino, vice president, Workloads and Data-Centric Work Solutions, Dell Technologies. “It is crucial for the people of our planet that researchers have the tools to understand, treat and combat this virus. Researchers around the world are true heroes doing important work in extreme and unknown circumstances, and we couldn’t be more proud to support their efforts.”
Dr. Connor’s research is an example of the efforts being made around the world to defeat COVID-19.
The Berlin Institute of Health, together with Charité , are working to detect which cells in the lungs and bronchi are targets for COVID-19 infection. Their research involves sequencing 60,000 cells – a task that requires powerful computing capabilities. With Dell Technologies, Intel and System Vertrieb Alexander (SVA), a solution including Dell servers was implemented, allowing BIH and Charité to accelerate their research and identify which specific cells target COVID-19 – a critical step for developing treatments.
Dell Technologies has provided one of its longest-standing customers, the Translational Genomics Research Institute (TGen) , with access to the Zenith Supercomputer. This is aiding TGen’s efforts to do population-level sequencing, which is enabling rapid genomic analysis, improving public health’s ability to quickly identify which COVID-19 strains are circulating more than others, what might be causing local outbreaks, and how quickly the genome is mutating and changing. By comparing the results in the context of global genomic information, this COVID-19 sequencing program could further inform biomedical researchers in the search for better targets for new COVID-19 treatments and vaccines.
The Universita Degli Studi Di Pisa is a pioneer in high-performance computing, and its scientists rely on that infrastructure for research in fields ranging from astrophysics to computer science to medicine. As COVID-19 had a significant impact in Italy, the university doubled down on its partnership with the Santa Chiara Hospital, which conducts research on the virus. The university doubled down on the hospital’s needs in an ongoing effort to boost its flash storage capabilities, and Dell Technologies, with a trusted partner, TRII, was able to meet all requirements despite not being able to meet them in person. This allowed the university to support Santa Chiara’s COVID-19 research while proceeding with an AI-based chemistry research project and supporting a multi-cloud shared service for administrative agencies, hospitals, and cities in Tuscany.
The Texas Advanced Computing Center (TACC) at the University of Texas at Austin is using advanced computing systems from Dell Technologies to understand how COVID-19 is spreading and how to best track and treat the virus. TACC has joined the COVID-19 High Performance Computing (HPC) Consortium, giving remote access to its two supercomputers, Frontera and Stampede2, to approximately 100 researchers working on COVID-19 research in areas such as epidemiology and vaccines. One project, led by researchers at The University of Texas at Austin, is assessing the impact of social distancing measures to provide policymakers with insights into the consequences of relaxing or tightening those measures. Additionally, this research is one of the most prominent sources of projections and analysis for national public health officials.
Dell Technologies is also actively supporting the COVID-19 High Performance Computing (HPC) Consortium , a unique public-private effort spearheaded by the White House Office of Science and Technology Policy and the U.S. Department of Energy to bring together leaders from the federal government, industry, and academia who are volunteering free computing time and resources on their world-class machines.
Visit the Dell Technologies HPC Community to discover how researchers, computer scientists, technologists and engineers are working together with Dell Technologies to advance innovative and powerful HPC solutions.
Researchers leading the effort to decode COVID-19 say technology is key to beating the virus and saving lives.
“The faster we can sequence patients’ DNA, the more effectively we can use that how to save australia number in whatsapp data to track and respond to the pandemic,” said Dr Tom Connor, from Cardiff University in Wales. “Having the information available in time to make critical decisions will ultimately save lives – and the data we are generating is already being fed back in real time to colleagues within the NHS and government.”
Dr Connor leads the sequencing hub for the COVID-19 Genomics UK Welsh Consortium comprising the university and NHS Public Health Wales, where he leads the bioinformatics team within the Pathogen Genomics Unit. The project relies on rapid, large-scale sequencing and analysis. To do this effectively, Dr Connor needed more computing power for the Cloud Infrastructure for Microbial Bioinformatics (CLIMB) methodology used in the research.
That’s when Dr. Connor leveraged his long-standing relationship with Dell Technologies . Now, the company is working closely with the university to provide Dell with high-performance servers that significantly increase CLIMB’s ability to share and analyze large volumes of COVID-19 genomic data. With this solution, the joint effort by the University and the National Health Service of Wales has the potential to sequence and analyze samples within 24 hours, enabling real-time responses to results.
“Technology is a critical part of the COVID-19 research that is taking place right now around the world,” said Thierry Pellegrino, vice president, Workloads and Data-Centric Work Solutions, Dell Technologies. “It is crucial for the people of our planet that researchers have the tools to understand, treat and combat this virus. Researchers around the world are true heroes doing important work in extreme and unknown circumstances, and we couldn’t be more proud to support their efforts.”
Dr. Connor’s research is an example of the efforts being made around the world to defeat COVID-19.
The Berlin Institute of Health, together with Charité , are working to detect which cells in the lungs and bronchi are targets for COVID-19 infection. Their research involves sequencing 60,000 cells – a task that requires powerful computing capabilities. With Dell Technologies, Intel and System Vertrieb Alexander (SVA), a solution including Dell servers was implemented, allowing BIH and Charité to accelerate their research and identify which specific cells target COVID-19 – a critical step for developing treatments.
Dell Technologies has provided one of its longest-standing customers, the Translational Genomics Research Institute (TGen) , with access to the Zenith Supercomputer. This is aiding TGen’s efforts to do population-level sequencing, which is enabling rapid genomic analysis, improving public health’s ability to quickly identify which COVID-19 strains are circulating more than others, what might be causing local outbreaks, and how quickly the genome is mutating and changing. By comparing the results in the context of global genomic information, this COVID-19 sequencing program could further inform biomedical researchers in the search for better targets for new COVID-19 treatments and vaccines.
The Universita Degli Studi Di Pisa is a pioneer in high-performance computing, and its scientists rely on that infrastructure for research in fields ranging from astrophysics to computer science to medicine. As COVID-19 had a significant impact in Italy, the university doubled down on its partnership with the Santa Chiara Hospital, which conducts research on the virus. The university doubled down on the hospital’s needs in an ongoing effort to boost its flash storage capabilities, and Dell Technologies, with a trusted partner, TRII, was able to meet all requirements despite not being able to meet them in person. This allowed the university to support Santa Chiara’s COVID-19 research while proceeding with an AI-based chemistry research project and supporting a multi-cloud shared service for administrative agencies, hospitals, and cities in Tuscany.
The Texas Advanced Computing Center (TACC) at the University of Texas at Austin is using advanced computing systems from Dell Technologies to understand how COVID-19 is spreading and how to best track and treat the virus. TACC has joined the COVID-19 High Performance Computing (HPC) Consortium, giving remote access to its two supercomputers, Frontera and Stampede2, to approximately 100 researchers working on COVID-19 research in areas such as epidemiology and vaccines. One project, led by researchers at The University of Texas at Austin, is assessing the impact of social distancing measures to provide policymakers with insights into the consequences of relaxing or tightening those measures. Additionally, this research is one of the most prominent sources of projections and analysis for national public health officials.
Dell Technologies is also actively supporting the COVID-19 High Performance Computing (HPC) Consortium , a unique public-private effort spearheaded by the White House Office of Science and Technology Policy and the U.S. Department of Energy to bring together leaders from the federal government, industry, and academia who are volunteering free computing time and resources on their world-class machines.
Visit the Dell Technologies HPC Community to discover how researchers, computer scientists, technologists and engineers are working together with Dell Technologies to advance innovative and powerful HPC solutions.