hpc

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By: Cray     Published Date: Jul 28, 2014
The Cray® CS300-LC™ liquid-cooled cluster supercomputer combines system performance and power savings, allowing users to reduce capital expense and operating costs.
Tags : cray, warm water cooled cooling, power savings, computing clusters, gpu computing, gpu cluster, x86 cluster, phi clusters
     Cray
By: Cray     Published Date: Jul 02, 2015
The Cray XC series is a distributed memory system developed as part of Cray’s participation in the Defense Advanced Research Projects Agency’s (DARPA) High Productivity Computing System (HPCS) program. Previously codenamed “Cascade,” the Cray XC system is capable of sustained multi-petaflops performance and features a hybrid architecture combining multiple processor technologies, a high performance network and a high performance operating system and programming environment.
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     Cray
By: Seagate     Published Date: Jan 27, 2015
This paper is the first to explore a recent breakthrough with the introduction of the High Performance Computing (HPC) industry’s first Intelligence Community Directive (ICD) 503 (DCID 6/3 PL4) certified compliant and secure scale-out parallel file system solution, Seagate ClusterStor™ Secure Data Appliance, which is designed to address government and business enterprise need for collaborative and secure information sharing within a Multi-Level Security (MLS) framework at Big Data and HPC Scale.
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     Seagate
By: Seagate     Published Date: Jan 26, 2016
Finding oil and gas has always been a tricky proposition, given that reserves are primarily hidden underground, and often as not, under the ocean as well. The costs involved in acquiring rights to a site, drilling the wells, and operating them are considerable and has driven the industry to adopt advanced technologies for locating the most promising sites. As a consequence, oil and gas exploration today is essentially an exercise in scientific visualization and modeling, employing some of most advanced computational technologies available. High performance computing (HPC) systems are being used to fill these needs, primarily with x86-based cluster computers and Lustre storage systems. The technology is well developed, but the scale of the problem demands medium to large-sized systems, requiring a significant capital outlay and operating expense. The most powerful systems deployed by oil and gas companies are represented by petaflop-scale computers with multiple petabytes of attached
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     Seagate
By: Numascale     Published Date: Nov 20, 2013
Using commodity hardware and the “plug-and-play” NumaConnect interconnect, Numascale delivers true shared memory programming and simpler administration at standard HPC cluster price points. One such system currently offers users over 1,700 cores with a 4.6 TB single memory image
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     Numascale
By: Intel     Published Date: Aug 06, 2014
Around the world and across all industries, high-performance computing is being used to solve today’s most important and demanding problems. More than ever, storage solutions that deliver high sustained throughput are vital for powering HPC and Big Data workloads.
Tags : intel, enterprise edition lustre software
     Intel
By: Intel     Published Date: Aug 06, 2014
Powering Big Data Workloads with Intel® Enterprise Edition for Lustre* software The Intel® portfolio for high-performance computing provides the following technology solutions: • Compute - The Intel® Xeon processor E7 family provides a leap forward for every discipline that depends on HPC, with industry-leading performance and improved performance per watt. Add Intel® Xeon Phi coprocessors to your clusters and workstations to increase performance for highly parallel applications and code segments. Each coprocessor can add over a teraflop of performance and is compatible with software written for the Intel® Xeon processor E7 family. You don’t need to rewrite code or master new development tools. • Storage - High performance, highly scalable storage solutions with Intel® Enterprise Edition for Lustre* software and Intel® Xeon Processor E7 based storage systems for centralized storage. Reliable and responsive local storage with Intel® Solid State Drives. • Networking - Intel® True Scale Fabric and Networking technologies – Built for HPC to deliver fast message rates and low latency. • Software and Tools: A broad range of software and tools to optimize and parallelize your software and clusters.
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     Intel
By: InsideHPC Special Report     Published Date: Aug 17, 2016
A single issue has always defined the history of HPC systems: performance. While offloading and co-design may seem like new approaches to computing, they actually have been used, to a lesser degree, in the past as a way to enhance performance. Current co-design methods are now going deeper into cluster components than was previously possible. These new capabilities extend from the local cluster nodes into the “computing network.”
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     InsideHPC Special Report
By: Altair     Published Date: Feb 19, 2014
PBS Works™, Altair's suite of on-demand cloud computing technologies, allows enterprises to maximize ROI on existing infrastructure assets. PBS Works is the most widely implemented software environment for managing grid, cloud, and cluster computing resources worldwide. The suite’s flagship product, PBS Professional®, allows enterprises to easily share distributed computing resources across geographic boundaries. With additional tools for portal-based submission, analytics, and data management, the PBS Works suite is a comprehensive solution for optimizing HPC environments. Leveraging a revolutionary “pay-for-use” unit-based business model, PBS Works delivers increased value and flexibility over conventional software-licensing models.
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     Altair
By: Bright Computing     Published Date: May 05, 2014
A successful HPC cluster is a powerful asset for an organization. The following essential strategies are guidelines for the effective operation of an HPC cluster resource: 1. Plan To Manage the Cost of Software Complexity 2. Plan for Scalable Growth 3. Plan to Manage Heterogeneous Hardware/Software Solutions 4. Be Ready for the Cloud 5. Have an answer for the Hadoop Question Bright Cluster Manager addresses the above strategies remarkably well and allows HPC and Hadoop clusters to be easily created, monitored, and maintained using a single comprehensive user interface. Administrators can focus on more sophisticated, value-adding tasks rather than developing homegrown solutions that may cause problems as clusters grow and change. The end result is an efficient and successful HPC cluster that maximizes user productivity.
Tags : bright computing, hpc clusters
     Bright Computing
By: IBM     Published Date: Jun 05, 2014
High-performance computing (HPC) continues to transform capabilities of organizations across a range of industries, whether the Human Genome Project or aerodynamics testing for race cars, we demonstrate how IBM Platform Computing solutions offer effective ways to unleash the power of HPC.
Tags : ibm, hpc
     IBM
By: IBM     Published Date: Jun 05, 2014
As new research and engineering environments are expanded to include more powerful computers to run increasingly complex computer simulations, the management of these heterogeneous computing environments continues to increase in complexity as well. Integrated solutions that include the Intel® Many Integrated Cores (MIC) architecture can dramatically boost aggregate performance for highly-parallel applications.
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     IBM
By: IBM     Published Date: Jun 05, 2014
IBM NeXtscale System is changing system design dynamics in the HPC marketplace with ultra-dense servers. Enterprises looking for raw computing power and throughput to handle technical computing, cloud, grid and analytics should evaluate this new ultra-dense, highly scalable systems design. Read the paper by Clabby Analytics to learn more.
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     IBM
By: IBM     Published Date: Jun 05, 2014
IBM Platform LSF is a powerful workload management platform for demanding, distributed HPC environments. It provides a comprehensive set of intelligent, policy-driven scheduling features that enable you to utilize all of your compute infrastructure resources and ensure optimal application performance.
Tags : ibm
     IBM
By: IBM     Published Date: Sep 02, 2014
Whether engaged in genome sequencing, drug design, product analysis or risk management, life sciences research needs high-performance technical environments with the ability to process massive amounts of data and support increasingly sophisticated simulations and analyses. Learn how IBM solutions such as IBM® Platform Computing™ high-performance cluster, grid and high-performance computing (HPC) cloud management software can help life sciences organizations transform and integrate their compute environments to develop products better, faster and at less expense.
Tags : ibm, life sciences, platform computing
     IBM
By: IBM     Published Date: Sep 02, 2014
A web seminar explaining how IBM Platform Computing technologies can simplify the user experience for HPC cluster users and administrators.
Tags : ibm, simply the user experience, platform computing, hpc clusters
     IBM
By: IBM     Published Date: Sep 16, 2015
6 criteria for evaluating a high-performance cloud services providers Engineering, scientific, analytics, big data and research workloads place extraordinary demands on technical and high-performance computing (HPC) infrastructure. Supporting these workloads can be especially challenging for organizations that have unpredictable spikes in resource demand, or need access to additional compute or storage resources for a project or to support a growing business. Software Defined Infrastructure (SDI) enables organizations to deliver HPC services in the most efficient way possible, optimizing resource utilization to accelerate time to results and reduce costs. SDI is the foundation for a fully integrated environment, optimizing compute, storage and networking infrastructure to quickly adapt to changing business requirements, and dynamically managing workloads and data, transforming a s
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     IBM
By: IBM     Published Date: Sep 16, 2015
Docker is a lightweight Linux container technology built on top of LXC (LinuX Containers) and cgroup (control groups), which offers many attractive benefits for HPC environments. Find out more about how IBM Platform LSF® and Docker have been integrated outside the core of Platform LSF with a real world example involving the application BWA (bio-bwa.sourceforge.net). This step-by-step white paper provides details on how to get started with the IBM Platform LSF and Docker integration which is available via open beta on Service Management Connect.
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     IBM
By: SGI     Published Date: Mar 03, 2015
The SGI UV system is uniquely suited for bioinformatics and genomics by providing the computational capabilities and global shared memory architecture needed for even the most demanding sequencing and analytic tasks, including post sequencing and other data intensive workflows. Because of the systems outstanding speed and throughput, genomics researchers can perform very large jobs in less time, realizing a dramatically accelerated time-to-solution. And best of all, they can explore avenues of research that were computationally beyond the reach of HPC systems lacking the power and in-memory capabilities of the SGI UV.
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     SGI
By: SGI     Published Date: Nov 17, 2015
In the pantheon of HPC grand challenges, weather forecasting and long-term climate simulation rank right up there with the most complex and com- putationally demanding problems in astrophysics, aeronautics, fusion power, exotic materials,and earthquake prediction, to name just a few. Modern weather prediction requires cooperation in the collection of observed data and sharing of forecasts output among all nations, a collabora- tion that has been ongoing for decades. This data is used to simulate effects on a range of scales— from events, such as the path of tornados, that change from minute to minute and move over distances measured in meters, to turnover of water layers in the ocean, a process that is measured in decades or even hundreds of years, and spans thousands of miles. The amount of data collected is staggering. Hundreds of thousands of surface stations, including airborne radiosondes, ships and buoys, aircraft, and dozens of weather satellites, are streaming terabytes of i
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     SGI
By: SGI     Published Date: Jun 08, 2016
With High Performance Computing (HPC) supercomputer systems that comprise tens, hundreds, or even thousands of computing cores, users are able to increase application performance and accelerate their workflows to realize dramatic productivity improvements. The performance potential often comes at the cost of complexity. By their very nature, supercomputers comprise a great number of components, both hardware and software, that must be installed, configured, tuned, and monitored to maintain maximum efficiency. In a recent report, IDC lists downtime and latency as two of the most important problems faced by data center managers.
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     SGI
By: Penguin Computing     Published Date: Mar 23, 2015
The Open Compute Project, initiated by Facebook as a way to increase computing power while lowering associated costs with hyper-scale computing, has gained a significant industry following. While the initial specifications were created for a Web 2.0 environment, Penguin Computing has adapted these concepts to create a complete hardware ecosystem solution that addresses these needs and more. The Tundra OpenHPC system is applicable to a wide range of HPC challenges and delivers the most requested features for data center architects.
Tags : penguin computing, open computing, computing power, hyper-scale computing, tundra openhpc
     Penguin Computing
By: IBM     Published Date: May 20, 2015
Assembling a clustered environment can be complex due to the many software components that are required to enable technical and high performance computing (HPC) applications to run effectively. This webcast will demonstrate how IBM Platform Computing products simplify cluster deployment, use and management, bringing high performance capabilities to both experienced and new HPC administrators and users. We will also present examples of companies utilizing Platform Computing software today, to improve performance and utilization of their HPC environment while reducing costs.
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     IBM
By: IBM     Published Date: May 20, 2015
The latest generation of highly scalable HPC clusters is a game changer for design optimization challenges. HPC clusters, built on a modular, multi-core x86 architecture, provide a cost effective and accessible platform on which to conduct realistic simulation compared with the “big iron” HPC systems of the past or with the latest workstation models. This paper provides 6 steps to making clusters a reality for any business.
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     IBM
By: Bull     Published Date: Dec 04, 2014
Bull, an Atos company, is a leader in Big Data, HPC and cyber-security with a worldwide market presence. Bull has extensive experience in implementing and running petaflopsscale supercomputers. The exascale program is a new step forward in Bull’s strategy to deliver exascale supercomputers capable of addressing the new challenges of science, industry and society.
Tags : bull, exascale, big data, hpc, cyber security, supercomputers
     Bull
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