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Primeur weekly 2011-05-02

EuroFlash

Altair's PBS Professional added to Dell's high-performance computing solution portfolio ...

Research consortium led by University Bordeaux 1 chooses ClusterVision to deliver TOP500-class supercomputer ...

DEISA PRACE Symposium 2011 attracted over 200 participants from 26 countries ...

1,000th person trained in supercomputer techniques ...

USFlash

HP becomes SAP-certified global provider of Cloud services ...

L-3 Communications selects Digipede for high-throughput image processing Grid ...

Securities firm boosts data centre performance with solutions from HP ...

Mellanox introduces SwitchX with Virtual Protocol Interconnect technology ...

NASA Center for Climate Simulation doubles computational power for users ...

NNSA launches new advanced supercomputing website with a week of on-line features ...

NNSA announces new space debris modelling ...

PHH Corporation selects Oracle Exalogic Elastic Cloud and Oracle Exadata Database Machine as part of a complete Oracle technology solution for its next-generation Common Technology Platform ...

healthAlliance selects Oracle Exadata to deliver a shared services platform to five New Zealand District Health Boards ...

Indiana University supports researchers, inspires innovation and secures more research grants with web-based data environment ...

SOURCECORP BPS turns to Oracle Exadata Database Machine for improved performance and scalability of transactional content management solutions ...

WebNMS integrates MySQL and Oracle Database 11g to help communications service providers to achieve high scalability, performance and reliability ...

Platform Computing marks launch of Symphony 5.1 with significant momentum in financial services market ...

Diamonds shine in quantum networks ...

Sandia National Laboratories powers one of world's fastest, most energy efficient supercomputers with Oracle's Sun servers ...

TeraGrid: Paying it forward in the wake of disaster ...

Asia@home Hackfest videos are now available ...

Voxel enhances its Cloud hosting services by offering free SaaS application performance management from New Relic ...

SGI announces major upgrades to Rackable and CloudRack product families ...

Supermicro introduces supercompact, high-efficiency power supply ...

Supermicro's expanding product line ideal for next generation of embedded applications ...

TeraGrid: Paying it forward in the wake of disaster

25 Apr 2011 Argonne - While reports vary, some estimate the total cost of Japan's March 11, 2011 earthquake and tsunami at 25 trillion yen, or 330 billion U.S. dollars, making it the most costly natural disaster on record. This is more than three times the size of the second most expensive natural disaster, also an earthquake, and also in Japan in 1995. More than 26,000 are dead or missing and an estimated 400,000 are homeless. Nearly a quarter of Japan's total geography has been altered.

The process of loss assessment, clean-up and rebuilding has begun. Progress, albeit slow to begin with, is stalled or even reversed with each aftershock. Damage to their nuclear power facilities may have an impact on the ocean and atmosphere far beyond Japanese shores. A fractured power grid and rolling blackouts have adversely affected essential services that rely on digital resources.

Current predictions estimate a ~9 GW national power deficiency this coming summer due to the earthquake and damage to the Fukushima Daiichi facility; this deficiency will force prioritization of essential services, such as health care, security, transportation, education, and basic services like air conditioning and elevators in the skyscrapers of metropolitan Tokyo and elsewhere. Some think it could take years before all of their computing resources are back online, and that may be prolonged as spending is prioritized for more urgent needs.

In addition to the humanitarian crisis, Japan's industrial and research communities have been severely impacted which affects just about everyone on Earth. Many of the products we use in our daily lives come from factories that were destroyed. Japan's intellectual contribution to the global research community has been interrupted as the systems many relied on to do their work were demolished. Much collaboration between Japanese and U.S. research groups across all domains of science has ground to a halt.

Japan clearly has need for costly short and long-term assistance. They are a very important U.S. economic partner. Fluctuations in their economy have a noticeable impact on the U.S. in a variety of ways. Yet, with the recent threat of a government shut-down, the U.S. is dealing with its own financial crisis, making it difficult for us to help.

The National Science Foundation's (NSF) TeraGrid is the world's most comprehensive cyberinfrastructure in support of open scientific research. The people who support and use this resource form a peerless, multi-disciplinary fraternity of innovators and problem solvers. Some have offered solutions that will help in the short-term, and all recognize the need for a more coordinated long-term effort. Following are a few ways the TeraGrid community has begun to help - gestures that have minimal impact on the U.S. research community while proving to be extremely beneficial in the wake of this global tragedy. Hopefully, the examples will inspire additional innovation.

The Keeneland Project at Georgia Tech (GT) has collaborated closely with Tokyo Tech over the past two years on developing innovative computer architectures and software that use graphic processors. Georgia Tech's Keeneland Initial Delivery system's combination of architecture and software is nearly identical to Tokyo Tech's TSUBAME2.0. Currently in preproduction mode, the Keeneland team is working with a select group of Keeneland early adopters to develop programming tools and libraries for applications on GPUs. As a result of the disaster, Keeneland team is exploring ways to provide cycles and storage from Keeneland to our colleagues at Tokyo Tech; Japanese researchers will be able to continue their important work during summer, when the demand for power will exceed the available supply, and, consequently, lead to the temporary shutdown of TSUBAME2.0.

Indiana University (IU) provided assistance to the international emergency response community via the U.S. National Aeronautics and Space Administration (NASA)-funded E-DECIDER and QuakeSim projects in the weeks following the disaster. IU staff assisted with the creation of Level 0 satellite data products for the International Charter which provides a unified system of space data acquisition and delivery to those affected by natural or man-made disasters.

IU also made a global analysis image from the very coarse grained (250 m resolution) MODIS (NASA MODIS Rapid Response System) satellite data that revealed the tsunami inundation area by using change-detection algorithms that compared before and after images. Early analysis showed damage more than three kilometers inland in places, which was later confirmed with higher resolution images. Earthquakes are an inevitable threat to many areas of the U.S., not just the West Coast. The Great Central U. S. Shakeout is attempting to highlight this danger and help emergency responders, public health officials, government agencies, and the general public prepare. Understanding the recent major earthquakes in Haiti, Chile, and Japan is a worthy humanitarian goal that will directly benefit United States citizens.

A Louisiana State University (LSU) professor is collaborating with Japanese colleagues from the University of Massachusetts, Woods Hole Oceanographic Institution (WHOI) and others on a large scale tsunami simulation. With help from volunteers, they quickly prepared an extremely accurate global ocean model, using six different observations that were provided by Japanese collaborators.

LSU and the Louisiana Optical Network Initiative (LONI) helped in the hours following Hurricane Katrina, by providing the National Oceanic and Atmospheric Administration (NOAA) with emergency access to its high-speed, high-bandwidth networking connections so they could share and transfer critical data quickly from New Orleans. This gesture helped first-responders provide rapid aid.

San Diego Supercomputer Center (SDSC) is providing cycles and storage on its Triton and Data Oasis resources to colleagues from the National Institute of Advanced Industrial Science and Technology (AIST) and Tokyo Institute of Technology. These resources have enabled researchers to continue their Global Earth Observation (GEO) Grid activities, including generation of ground motion maps and analyzing satellite data related to the disaster - some results at disaster.geogrid.org were generated with Triton.

Texas Advanced Computing Center (TACC) regularly provides a portion of its supercomputer cycles for emergency applications. Lonestar4 cycles were recently provided to Japanese researchers from the University of Tokyo, and additional Japanese schools, to model the earthquake, tsunami, and route taken by radioactive content from the Fukushima Daiichi nuclear plant that was dispersed in the ocean and atmosphere.

TACC also helped in the months following the Deep Horizons oil rig explosion by donating 6.5 million service units on Ranger to generate a simulation of the anticipated path of the oil spill. This drastically benefited mitigation efforts.

Since this emergency use case has been effectively demonstrated by TACC, Michael Dell, of Dell Inc. offered to donate additional hardware to expand Lonestar4's emergency reserves.

TeraGrid Forum Chair John Towns is pleased with the immediate response from TeraGrid partners so far, and hopes to see more. "We will work together to develop a more organized and integrated plan to assist Japanese researchers while minimizing the impact to the resources needed by the U.S. research community", he stated. "All requests for TeraGrid resources and services are received via the on-line system called POPS. Urgent requests are always considered separate and apart from our regular quarterly process", he added.

The NSF encourages the community to apply for funds that will enable more support through the NSF RAPID grant programme. RAPID grants are typically around $50,000, up to $200,000 for the most relevant projects. The programme funds urgent proposals that address the availability of or access to data, facilities, or specialized equipment, including quick-response research on natural or anthropogenic disasters and similar unanticipated events.

"This isn't the first time our TeraGrid family took the initiative to help in a crisis", stated NSF's Barry Schneider, TeraGrid Programme Director. "Hopefully their efforts will help Japanese researchers return to some sense of normality, allow the world to gain a better understanding of earthquakes and tsunamis in general, and prevent future loss. It's a great example of how the U.S. investment in science contributes to global scientific, social, and economic progress", he added.
Source: TeraGrid

Back to Table of contents

Primeur weekly 2011-05-02

EuroFlash

Altair's PBS Professional added to Dell's high-performance computing solution portfolio ...

Research consortium led by University Bordeaux 1 chooses ClusterVision to deliver TOP500-class supercomputer ...

DEISA PRACE Symposium 2011 attracted over 200 participants from 26 countries ...

1,000th person trained in supercomputer techniques ...

USFlash

HP becomes SAP-certified global provider of Cloud services ...

L-3 Communications selects Digipede for high-throughput image processing Grid ...

Securities firm boosts data centre performance with solutions from HP ...

Mellanox introduces SwitchX with Virtual Protocol Interconnect technology ...

NASA Center for Climate Simulation doubles computational power for users ...

NNSA launches new advanced supercomputing website with a week of on-line features ...

NNSA announces new space debris modelling ...

PHH Corporation selects Oracle Exalogic Elastic Cloud and Oracle Exadata Database Machine as part of a complete Oracle technology solution for its next-generation Common Technology Platform ...

healthAlliance selects Oracle Exadata to deliver a shared services platform to five New Zealand District Health Boards ...

Indiana University supports researchers, inspires innovation and secures more research grants with web-based data environment ...

SOURCECORP BPS turns to Oracle Exadata Database Machine for improved performance and scalability of transactional content management solutions ...

WebNMS integrates MySQL and Oracle Database 11g to help communications service providers to achieve high scalability, performance and reliability ...

Platform Computing marks launch of Symphony 5.1 with significant momentum in financial services market ...

Diamonds shine in quantum networks ...

Sandia National Laboratories powers one of world's fastest, most energy efficient supercomputers with Oracle's Sun servers ...

TeraGrid: Paying it forward in the wake of disaster ...

Asia@home Hackfest videos are now available ...

Voxel enhances its Cloud hosting services by offering free SaaS application performance management from New Relic ...

SGI announces major upgrades to Rackable and CloudRack product families ...

Supermicro introduces supercompact, high-efficiency power supply ...

Supermicro's expanding product line ideal for next generation of embedded applications ...