Cray announced a new Hadoop solution, which will allow customers to apply the combination of supercomputing technologies and an enterprise-strength approach to Big Data analytics to high-value Hadoop applications. Available later this month, Cray cluster supercomputers for Hadoop will pair Cray CS300 systems with the Intel Distribution for Apache Hadoop (Intel Distribution) software.
“More and more organizations are expanding their usage of Hadoop software beyond just basic storage and reporting. But while they’re developing increasingly complex algorithms and becoming more dependent on getting value out of Hadoop systems, they are also pushing the limits of their architectures,” said Bill Blake, senior vice president and CTO of Cray. “We are combining the supercomputing technologies of the Cray CS300 series with the performance and security of the Intel Distribution to provide customers with a turnkey, reliable Hadoop solution that is purpose-built for high-value Hadoop environments. Organizations can now focus on scaling their use of platform-independent Hadoop software, while gaining the benefits of important underlying architectural advantages from Cray and Intel.”
Built on Linux, the solution features workload management software, the Cray Advanced Cluster Engine (ACE) management software and the Intel distribution of Hadoop. The entire solution is integrated, optimized, validated and supported by Cray. The Cray CS300 series of cluster supercomputers are powerful, configurable cluster solutions based on industry standard hardware that will allow for a quick and reliable implementation of the Intel Distribution. The systems offer energy efficient, air-cooled and liquid-cooled architectures featuring high performance, high availability computing. The Cray CS300 series of cluster supercomputers are powerful, configurable cluster solutions based on industry standard hardware that will allow for a quick and reliable implementation of the Intel Distribution. The systems offer energy efficient, air-cooled and liquid-cooled architectures featuring high performance, high availability computing.