![]() The rupture length and magnitude of the magnitude-7.8 earthquake was similar to the 1906 earthquake that destroyed San Francisco."Īcross the Turkish cities of Türkoğlu, Kahramanmaraş and Nurdaği, thousands of buildings have collapsed, burying their occupants and rendering thousands of people homeless.įollow Tereza Pultarova on Twitter. "This generated extremely strong shaking over a very large area that hit many cities and towns full of people. "These were very large and powerful earthquakes that ruptured all the way up to the surface over a long series of fault segments," Eric Fielding, a geophysicist at NASA’s Jet Propulsion Laboratory, said in the statement. AN ASTEROID which NASA is monitoring to calculate whether a potential future impact is possible would send 400 feet waves into the US coast if it landed in the Atlantic Ocean, a simulator showed. GPS satellites can provide faster alerts when big earthquakes strike, scientists say Scientists just detected an earthquake from a balloon and might be able to do it on Venus, too Applications include but are not limited to GPU-memory management systems such as VAST, analysis of data from large scientific instruments, and molecular dynamics software packages such as AMBER, LAMMPS, and BEAST – the latter used extensively by SDSC’s Cyberinfrastructure for Phylogenetic Research (CIPRES) science gateway, which receives the majority of its computing resources from Comet.- Turkey earthquake prompts United Nations to activate emergency satellite mapping That award makes Comet the largest GPU resource available through the XSEDE program. The expansion, made under an earlier supplemental NSF award valued at about $900,000, provided for the addition of 36 GPU nodes, each with four NVIDIA P100s, doubling the number of GPUs from the previous 144 to 288. These calming ocean sounds for sleeping will do their job the natural way, providing the much needed atmosphere that we all evolved in for hundreds of thousa. SDSC recently doubled the number of graphic processing units (GPUs) on Comet in direct response to growing demand for GPU computing among a wide range of research domains. “From the outset, Comet was configured the serve the long tail of science, or the idea that the large number of modest-sized computationally-based research projects represents, in aggregate, a tremendous amount of research and scientific advances.” “Advanced but user-friendly resources such as the Comet supercomputer underscore a vital need for systems that serve a broad range of research, with a focus on researchers who have modest-scale computational needs,” said SDSC Deputy Director Shawn Strande. Today there are more than 1,300 active allocations covering all 50 U.S. Since Comet entered production in 2015, it has served more than 1,700 unique PIs at some 350 institutions. While Comet is capable of an overall peak performance of two petaflops – or two quadrillion calculations per second – its design, allocation, and operational policies are focused on maximizing scientific productivity by lowering barriers to accessing HPC resources through science gateways, rapid access accounts, and job scheduling optimizations targeted at modest scale computing jobs. Here ocean turbulence is characterized and quantified in the lowest 100 m of the water column at three nearby sites above the slope of a deep-ocean seamount. “ Comet has served researchers as a key resource among a wide range of science domains and is an important resource for the analysis of data from large scientific instruments that led to recent landmark discoveries by scientists at the Laser Interferometer Gravitational Wave Observatory (LIGO), the IceCube Observatory, and XENON Collaboration,” said SDSC Director Michael Norman. Underwater topography like seamounts causes the breaking of large internal waves with associated turbulent mixing strongly affecting the redistribution of sediment. Since entering service in May 2015, Comet has established itself as one of the most widely used supercomputers in the NSF’s XSEDE (eXtreme Science and Engineering Discovery Environment) program, which connects researchers to an advanced collection of integrated digital resources and services. The extension brings the value of the total Comet program to more than $27 million. The National Science Foundation (NSF) has awarded the San Diego Supercomputer Center (SDSC) at UC San Diego a supplemental grant valued at almost $2.4 million to extend operations of its Comet supercomputer by an additional year, through March 2021. These particles melt as the comet draws closer to the sun, just like the comets surface does.
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