Today the Texas Advanced Computing Center announced that the Wrangler data analysis and management supercomputing system is now in early operations for the open science community. Supported by a grant from the NSF, Wrangler uses innovative DSSD technology for data-intensive computing.
“Andreas Dilger from Intel presents an overview on the features currently under development for the upcoming Lustre 2.8 and 2.9 releases. This includes Layout Enhancement, Progressive File Layouts, Data-on-MDT, and improved single-client metadata and IO performance. In addition, several Lustre-specific ZFS improvements are also under development that will be available in this timeframe.”
“With the current Lustre Performance Monitoring Tool (LMT) no longer in active development, and the current version incompatible with DNE based Lustre 2.5 deployments, there is a critical need for a new set of tools delivering the same basic Lustre performance metrics with the added ability to work compatibly with contemporary releases of Lustre.”
The ISC High Performance conference brings out the very best in international supercomputing, and this year will be no exception with a host of content focused on HPC in Asia. Singapore has been a hotbed of HPC activity of late, so we caught up with Marek Michalewicz, who was recently named Chief Executive Officer at A*STAR Computational Resource Centre.
“The Cray-Seagate partnership is helping expand the boundaries of what’s possible in large-scale, data-intensive computing, far beyond what we could have imagined just 10 years ago. This continued innovation using the Lustre open file system is helping assist data-intense applications critical to advancements in important industries around the world.”
“Large scale HPC IO is usually done either with a file per process or to a single shared file. Single shared file IO does not scale well in Lustre compared to file per process. This presentation from Cray’s Patrick Farrell will give details, examine the reasons for this, and explore existing and potential solutions. Group locks and a new feature, lock ahead, will be discussed in the context of strided IO.”
Today RSC Group announced the installation of a MVS-10P MP Petastream supercomputer at the Joint Supercomputer Center of the Russian Academy of Sciences (JSCC RAS). As is the first project in the Commonwealth of Independent States based on the latest Intel Xeon Phi 7120D coprocessors, the supercomputer weighs in at #20 of the Top50 list of the most powerful computing systems in Russia and CIS.