The Wellcome Trust Centre has deployed a high-performance computing cluster based on Fujitsu blades, Mellanox InfiniBand and DataDirect Networks storage systems to support statistical genetics research.
Designed in conjunction with OCF, a provider of high-performance computing (HPC), data management, big data storage and analytics, the cluster enables researchers to run statistical analysis on the human genome.
The hardware powers applications that analyse small genetic differences across a population of 1,000 people.
Fujitsu BX900 blade with Intel Ivy Bridge CPUs are used in the cluster, giving performance 2.6 times better than its predecessor, built in 2011.
It boasts 1,728 cores of processing power, up from the 912 of its forerunner, with 16GB of 1866MHz memory per core compared with a maximum of 8GB per core on the older cluster of the Wellcome Trust Centre for Human Genetics (WTCHG).
Robert Esnouf, head of the research computing core at WTCHG, said: “If you are interested in a certain disease, you can partition the genome and analyse the genetic difference between those individuals who have a medical condition like diabetes and those that do not.”
The hardware powers applications that analyse small genetic differences across a population of 1,000 people.
Fujitsu BX900 blade with Intel Ivy Bridge CPUs are used in the cluster, giving performance 2.6 times better than its predecessor, built in 2011.
It boasts 1,728 cores of processing power, up from the 912 of its forerunner, with 16GB of 1866MHz memory per core compared with a maximum of 8GB per core on the older cluster of the Wellcome Trust Centre for Human Genetics (WTCHG).
Robert Esnouf, head of the research computing core at WTCHG, said: “If you are interested in a certain disease, you can partition the genome and analyse the genetic difference between those individuals who have a medical condition like diabetes and those that do not.”