View allAll Photos Tagged SuperComputer
Predicting the behavior of complex systems — whether it’s nuclear radiation impacts, heat/water flow in geothermal reservoirs or chemical migration through bedrock — is now easier thanks to the MOOSE simulation framework developed at INL.
Read the full story at inlportal.inl.gov/portal/server.pt?open=514&objID=126...
The Oak Ridge Leadership Computing Facility’s Summit supercomputer installation continues with the OLCF and IBM teams receiving and installing compute nodes.
When it comes online, Summit will deliver more than five times the computational performance of Titan’s 18,688 nodes, using only approximately 4,600 nodes. Summit will come online in late 2018 for early science, and will be available to users in January 2019.
Learn more about Summit: www.olcf.ornl.gov/summit/
Image credit: Jason Richards/ORNL
Argonne nuclear engineer Laural Briggs reviews pressure distribution results from a 217-pin fuel assembly simulation. The simulation was computed by Argonne's Nek5000 large eddy simulation tool on the IBM Blue Gene/P Intrepid supercomputer.
Image courtesy of Argonne National Laboratory.
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A Brookhaven Lab engineer checks a communication link on the New York Blue supercomputer’s storage subsystem.
Jacqueline Chen, a distinguished member of the technical staff at Sandia National Laboratories’ Combustion Research Facility, gives a talk on computation at the Science Day program during the 2015 National Science Bowl competition, in Washington, DC. Jacqueline was inducted into the Alameda County Women’s Hall of Fame in 2016 for her contributions to using the world’s fastest supercomputers to advance the study of turbulence-chemistry interactions that underpin the operation of gas turbines, automobile engines and other practical combustion devices.
Learn more at bit.ly/2mGMUuU.
Photo by Dennis Brack, U.S. Department of Energy, Office of Science.
The IBM Portable Personal Computer 5155 model 68 was an early portable computer developed by IBM after the success of Compaq's suitcase-size portable machine (the Compaq Portable). It was released in February, 1984, and was eventually replaced by the IBM Convertible.
en.wikipedia.org/wiki/IBM_Portable_Personal_Computer
Retrocomputing (a portmanteau of retro and computing) is the use of early computer hardware and software today. Retrocomputing is usually classed as a hobby and recreation rather than a practical application of technology; enthusiasts often collect rare and valuable hardware and software for sentimental reasons. However some do make use of it.[1] Retrocomputing often gets its start when a computer user realizes that expensive fantasy systems like IBM Mainframes, DEC Superminis, SGI workstations and Cray Supercomputers have become affordable on the used computer market, usually in a relatively short time after the computers' era of use.
en.wikipedia.org/wiki/Retrocomputing
Con il termine retrocomputing si indica una attività di "archeologia informatica" che consiste nel reperire, specialmente a costi minimi, computer di vecchie generazioni, che hanno rappresentato fasi importanti dell'evoluzione tecnologica, ripararli se sono danneggiati, metterli nuovamente in funzione e preservarli.
ASCI White was unveiled at Lawrence Livermore National Laboratory in 2001. Hailed as the world’s fastest supercomputer, ASCI White boasted 8,192 commercial, off-the-shelf IBM processors. It was delivered to the Laboratory in 28 moving vans. It required floor space equal to two NBA basketball courts and was capable of 12.3 trillion operations per second. The system was decommissioned in July 2006.
Dutch national supercomputer Huygens, an IBM pSeries 575 clustered SMP system.
Read more about Huygens at Wikipedia and Stichting Nationale Computerfaciliteiten.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
The CM-1, created by Thinking Machines, Inc., was a supercomputer created in 1985. It had 65,536 processors, and an overall speed of between 2.5 and 10 Gigaflops, and a price tag of about $2.5M.
Sid Fernbach, sitting at the LARC (Livermore Advanced Research Computer) console, was the director of computing at Lawrence Livermore National Laboratory during the early years. Sid made sure that the Lab stayed at the forefront of computer technology, ordering the latest designs and often providing the specifications for machines to meet the Lab’s need for faster processing and ever increasing memory needs.
ASCI White was unveiled at Lawrence Livermore National Laboratory in 2001. Hailed as the world’s fastest supercomputer, ASCI White boasted 8,192 commercial, off-the-shelf IBM processors. It was delivered to the Laboratory in 28 moving vans. It required floor space equal to two NBA basketball courts and was capable of 12.3 trillion operations per second. The system was decommissioned in July 2006.
The Cray XT5 Kraken, managed by the University of Tennessee and funded by the National Science Foundation, is the world’s fastest academic supercomputer. The Kraken features more than 99,000 processing cores, each with more than 1 gigabyte of local memory.
The NASA Center for Climate Simulation (NCCS) Data Exploration Theater features a 17- by 6-foot multi-screen visualization wall for engaging visitors and scientists with high-definition movies of simulation results. Here, the wall displays a 5-kilometer-resolution global simulation that captures numerous cloud types at groundbreaking fidelity. Credit: NASA/Pat Izzo To learn more about NCCS go to: www.nasa.gov/topics/earth/features/climate-sim-center.html ( www.nasa.gov/topics/earth/features/climate-sim-center.html ) NASA Goddard Space Flight Center is home to the nation's largest organization of combined scientists, engineers and technologists that build spacecraft, instruments and new technology to study the Earth, the sun, our solar system, and the universe.
New York Blue/P, located at Brookhaven National Laboratory, consists of two racks of IBM Blue Gene/P series supercomputers. Each BG/P rack contains 1024 850 MHz quad-processor nodes with each node having 2GB of memory. New York Blue is used for computations in biology, medicine, materials, nanoscience, renewable energy, climate science, finance and technology. It is the centerpiece of the New York Center for Computational Sciences (NYCCS).
Cray XMP/216 - A legacy supercomputer - Alabama was the FIRST state in the nation to create a supercomputer network for the benefit of it's citizens. VERY forward thinking then, as it is now.
From 1987- 1993, this machine was in 'round the clock use, supporting scientific, educational, governmental, engineering and medical research throughout Alabama using high-speed telecom lines. In December 1993, it was replaced with a Cray C94/264 which is three times more powerful.
There are numerous SGI, Dell & other brands of machines with several terabytes of memory and numerous multi-core, multi-processor machines now in use in the facility which processes data for the Alabama Criminal Justice Information System, the Alabama Department of Finance Information Services Division and numerous other state agencies.
Located in Huntsville
Lawrence Livermore National Laboratory's first "Radiation Printer", circa 1964. It got its name from its manufacturer, Radiation, Inc., of Melbourne, Florida. It was based on an electrographic printing technology, and utilized huge rolls of paper weighing more than 200 pounds. It was capable of printing 30,000 alpha-numeric lines per minute, with each line containing 120 characters. Each character was formed within a 7 x 9 dot matrix. [More information]
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
The Argonne Leadership Computing Facility (ALCF) is part of the U.S. Department of Energy’s (DOE) effort to provide leadership-class computing resources to the scientific community. The mission of the ALCF, established in 2006, is to provide the computational science community with a leading computing capability dedicated to breakthrough science and engineering. The ALCF provides resources that make computationally intensive projects of the largest scale possible. ALCF staff members operate this facility for the U.S. Department of Energy’s Office of Science and also provide in-depth expertise and assistance in using ALCF systems and optimizing their applications.
DOE selects major ALCF projects through the Innovative and Novel Computational Impact on Theory and Experiment (INCITE) program. This program seeks computationally intensive research projects of large scale that can make high-impact scientific advances through the use of a large allocation of computer time, resources, and data storage.
The Oak Ridge Leadership Computing Facility’s Summit supercomputer installation continues with the OLCF and IBM teams receiving and installing compute nodes.
When it comes online, Summit will deliver more than five times the computational performance of Titan’s 18,688 nodes, using only approximately 4,600 nodes. Summit will come online in late 2018 for early science, and will be available to users in January 2019.
Learn more about Summit: www.olcf.ornl.gov/summit/
Image credit: Jason Richards/ORNL
Arsenal (Vienna)
The Vienna Arsenal, object 1
(Pictures you can see by clicking on the link at the end of page!)
The Arsenal in Vienna is a former military complex in the southeast of the city, in the 3rd District of Vienna located. The mighty, consisting of several brick buildings facility is located on a rectangular plan on a hill south of the country Strasser belt (Landstraßer Gürtel).
Meaning
The Arsenal is the most important secular assembly of Romantic Historicism in Vienna and was conducted in Italian-Medieval and Byzantine-Moorish forms. Essentially the system is preserved in its original forms; only the former workshop buildings within the bounding, from the the outside visible wings were replaced by new constructions.
History to 1945
Bird's eye view of the complex, arsenal, lithography Alexander Kaiser, 1855
Vienna Arsenal (Museum of Military History)
Arsenal, with HGM (Heeresgeschichtliches Museum) from the East
The plant, with a total of 31 "objects" (buildings) was built from 1849 to 1856 on the occasion of the March Revolution of 1848 and was the first building of the fortress triangle, the old Vienna's city walls replacing, with the Rossauerstrasse Barracks and the now-defunct Franz Joseph barracks at Stubenring. These buildings should not serve to deter foreign enemies from the city, but to secure state power in the event of revolutionary upheavals in Vienna. The decision to build the Arsenal, it came from the 19-year-old Emperor Franz Joseph I who on 2 December 1848 had come to the throne.
The design for the Imperial Artillery Arsenal came from General Artillery Director Vincenz Freiherr von Augustin, which, subsequently, the site management had been transferred. Under his leadership, the buildings under allocation of sectors have been planned of the architects Carl Roesner, Antonius Pius de Riegel, August Sicard von Sicardsburg, Eduard van der Nüll, Theophil von Hansen and Ludwig Förster and built by the company of the architect Leopold Mayr.
From 1853 to 1856, Arsenal church was built by the architect Carl Roesner. The K.K. Court Weapon Museum, later K.K. Army Museum, now Museum of Military History, housed in a separate representative free-standing wing, was completed structurally in 1856, but was only in 1869 for the first time accessible.
For the construction of the Arsenal 177 million bricks were used. Construction costs totaled $ 8.5 million guilders. In the following years, there have been extensions. During the two world wars, the complex served as a weapons factory and arsenal, especially as barracks.
The record number of employees in Arsenal was reached in the First World War, with around 20,000 staffers. After 1918, the military-industrial operation with own steel mill was transformed into a public service institution with the name "Austrian art arsenal". However, there were almost insoluble conversion problems in the transition to peacetime production, the product range was too great and the mismanagement considerable. The number of employees declined steadily, and the company became one of the great economic scandals of the First Republic.
By the fall of 1938, the area belonged to the 10th District Favoriten. However, as was established during the "Third Reich" the Reich District of Greater Vienna the arsenal complex and the south-east of it lying areas in the wake of district boundary changes became parts of the 3rd District.
During the Second World War, in the Arsenal tank repair workshops of the Waffen-SS were set up. In the last two years of the war several buildings were severely damaged by bombing. During the Battle of Vienna, in the days of 7 to 9 April 1945, was the arsenal, defended by the 3rd SS Panzer Division "Totenkopf", focus of the fighting, the Red Army before their victory recording heavy losses.
History since 1945
Ruins of the object 15 after the air raids 1944
Deposits at the Arsenal Street
After heavy bomb damages during the Second World War, the buildings of the Arsenal were largely restored to their original forms.
In the southern part and in the former courtyard of the arsenal several new buildings were added, among them 1959-1963 the decoration workshops of the Federal Theatre designed by the architects Erich Boltenstern and Robert Weinlich. From 1961 to 1963, the telecommunications central office was built by the architect Fritz Pfeffer. From 1973 to 1975 were built plant and office building of the Post and Telephone Head Office for Vienna, Lower Austria and Burgenland (now Technology Centre Arsenal of Telekom Austria) with the 150-foot radio tower in Vienna Arsenal according to the plans of architect Kurt Eckel. In the 1990s, a rehearsal stage of the castle theater (Burgtheater) was built according to plans by Gustav Peichl.
Also the Austrian Research and Testing Centre Arsenal, now Arsenal Research, which has made itself wordwide a celebrity by one of the largest air chambers (now moved to Floridsdorf - 21st District ), was housed in the complex. A smaller part of the system is still used by the Austrian army as a barracks. Furthermore, the Central Institute for Disinfection of the City of Vienna and the Central Chemical Laboratory of the Federal Monuments Office are housed in the arsenal. The Military History Museum uses multiple objects as depots.
In one part of the area residential buildings were erected. The Arsenal is forming an own, two census tracts encompassing census district, which according to the census in 2001 2.058 inhabitants had.
End of 2003, the arsenal in connection with other properties of the Federal Property Society (BIG - Bundesimmobiliengesellschaft) was sold to a private investor group. Since early 2006, the lawyer of Baden (Lower Austria, not far away from Vienna) Rudolf Fries and industrialist Walter Scherb are majority owners of the 72,000 m2 historic site that they want to refurbish and according to possibility rent new. Fries also plans to enlarge the existing living space by more than half (about 40,000 m2).
An architectural design competition, whose jury on 28 and 29 in June 2007 met, provided proposals amounting to substantial structural changes in the system. Such designed competition winner Hohensinn a futuristic clouds clip modeled after El Lissitzky's cloud bracket, a multi-level horizontal structure on slender stilts over the old stock on the outskirts of the Swiss Garden. The realization of these plans is considered unlikely.
Some objects are since 2013 adapted for use by the Technical University of Vienna: Object 227, the so-called "Panzerhalle" will house laboratories of the Institute for Powertrains and Automotive Technology. In object 221, the "Siemens hall", laboratories of the Institute for Energy Technology and Thermodynamics as well as of the Institute for Manufacturing Technology and High Power Laser Technology are built. In object 214 is besides the Technical Testing and Research Institute (TVFA) also the second expansion stage of the "Vienna Scientific Cluster" housed, of a supercomputer, which was built jointly by the Vienna University of Technology, the University of Vienna and the University of Agricultural Sciences.
Accessibility
The arsenal was historically especially over the Landstraßer Gürtel developed. Today passes southeast in the immediate proximity the Südosttangente called motorway A23 with it connection Gürtel/Landstraßer Hauptstrasse. Southwest of the site runs the Eastern Railway, the new Vienna Central Station closes to the west of the arsenal. Two new bridges over the Eastern Railway, the Arsenal Stay Bridge and the Southern Railway bridge and an underpass as part of Ghegastraße and Alfred- Adler-Straße establish a connection to the on the other side of the railway facilities located Sonnwendviertel in the 10th District, which is being built on the former site of the freight train station Vienna South Station.
On the center side is between Arsenal and Landstraßer Gürtel the former Maria Josefa Park located, now known as Swiss Garden. Here stands at the Arsenalstraße the 21er Haus, a branch of the Austrian Gallery Belvedere, on the center-side edge of the Swiss Garden has the busy suburban main railway route the stop Vienna Quartier Belvedere, next to it the Wiener Linien D (tram) and 69A (bus) run.
The Modeling, Experimentation and Validation, or MeV, Summer School is an annual 10-day program that provides early-career nuclear engineers with advanced studies in modeling, experimentation and validation of nuclear reactor design. Read more »
ABOVE: Jini Ramprakash, with the Argonne Leadership Computing Facility, shows MeV students the Mira supercomputer on a tour.
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Arsenal (Vienna)
The Vienna Arsenal, object 1
(Pictures you can see by clicking on the link at the end of page!)
The Arsenal in Vienna is a former military complex in the southeast of the city, located in the 3rd district of Vienna. The mighty, consisting of several brick buildings facility is located on a rectangular plan on a hill south of the Country Road Belt (Landstraßer Gürtel).
Meaning
The Arsenal is the most important secular assembly of Romantic Historicism in Vienna and was conducted in Italian-Medieval and Byzantine-Moorish forms. Essentially the complex is preserved in its original forms; only the former workshop buildings within the bounding, from the the outside visible wings were replaced by new constructions.
History to 1945
Bird's eye view of the complex, arsenal, lithography Alexander Kaiser, 1855
Vienna Arsenal (Museum of Military History)
Arsenal, with HGM (Heeresgeschichtliches Museum) from the East
The complex, with a total of 31 "objects" (buildings) was built from 1849 to 1856 on the occasion of the March Revolution of 1848 and was the first building of the fortress triangle, replacing the old Vienna's city walls, with the Rossauer Barracks and the now-defunct Franz Joseph barracks at Stubenring. These buildings should not serve to deter foreign enemies from the city, but to secure state power in the event of revolutionary upheavals in Vienna. The decision to build the Arsenal, it came from the 19-year-old Emperor Franz Joseph I who on 2 December 1848 had come to the throne.
The design for the Imperial Artillery Arsenal came from General Artillery Director Vincenz Freiherr von Augustin, to which, subsequently, the site management had been transferred. Under his leadership, the buildings under assignment of sectors have been planned of the architects Carl Roesner, Antonius Pius de Riegel, August Sicard von Sicardsburg, Eduard van der Nüll, Theophil von Hansen and Ludwig Förster and built by the company of the architect Leopold Mayr.
From 1853 to 1856, Arsenal church was built by the architect Carl Roesner. The K.K. Court Weapon Museum, later K.K. Army Museum, now Museum of Military History, housed in a separate representative free-standing wing, was completed structurally in 1856, but was only in 1869 for the first time accessible.
For the construction of the Arsenal 177 million bricks were used. Construction costs totaled $ 8.5 million guilders. In the following years, there have been extensions. During the two world wars, the complex served as a weapons factory and arsenal, especially as barracks.
The record number of employees in Arsenal was reached in the First World War, with around 20,000 staffers. After 1918, the military-industrial operation with own steel mill was transformed into a public service institution with the name "Austrian Factories Arsenal". However, there were almost insoluble conversion problems in the transition to peacetime production, the product range was too great and the mismanagement considerable. The number of employees declined steadily, and the company became one of the great economic scandals of the First Republic.
By the fall of 1938, the area belonged to the 10th District Favoriten. However, as was established during the "Third Reich" the Reich District of Greater Vienna, became the arsenal complex and the south-east of it lying areas in the wake of district boundary changes parts of the 3rd District.
During the Second World War, in the Arsenal tank repair workshops of the Waffen-SS were set up. In the last two years of the war several buildings were severely damaged by bombing. During the Battle of Vienna, in the days of 7 to 9 April 1945, was the arsenal, defended by the 3rd SS Panzer Division "Totenkopf", focus of the fighting, the Red Army before its victory facing heavy losses.
History since 1945
Ruins of the object 15 after the air raids 1944
Deposits at the Arsenal Street
After heavy bomb damages during the Second World War, the buildings of the Arsenal were largely restored to their original forms.
In the southern part and in the former courtyard of the arsenal several new buildings were added, among them 1959-1963 the decoration workshops of the Federal Theatre designed by the architects Erich Boltenstern and Robert Weinlich. From 1961 to 1963, the telecommunications central office was built by the architect Fritz Pfeffer. From 1973 to 1975 were built operation and office building of the Post and Telephone Head Office for Vienna, Lower Austria and Burgenland (now Technology Centre Arsenal of Telekom Austria) with the 150-meter high radio tower in Vienna Arsenal according to the plans of architect Kurt Eckel. In the 1990s, a rehearsal stage of the Castle Theater (Burgtheater) was built according to plans by Gustav Peichl.
Also the Austrian Research and Testing Centre Arsenal, now Arsenal Research, which has made itself wordwide a celebrity by one of the largest air chambers (now moved to Floridsdorf - 21st District), was housed in the complex. A smaller part of the complex is still used by the Austrian army as a barracks. Furthermore, the Central Institute for Disinfection of the City of Vienna and the Central Chemical Laboratory of the Federal Monuments Office are housed in the arsenal. The Military History Museum uses multiple objects as depots.
In one part of the area residential buildings were erected. The Arsenal is forming an own, two census tracts encompassing census district, which according to the census in 2001 had 2.058 inhabitants.
End of 2003, the arsenal in connection with other properties of the Federal Property Society (BIG - Bundesimmobiliengesellschaft) was sold to a private investor group. Since early 2006, the lawyer of Baden (Lower Austria, not far away from Vienna) Rudolf Fries and industrialist Walter Scherb are majority owners of the 72,000 m2 historic site that they want to refurbish and according to possibility rent new. Fries also plans to enlarge the existing living space by more than a half (about 40,000 m2).
An architectural design competition, whose jury on 28 and 29 in June 2007 met, provided proposals amounting to substantial structural changes in the complex. Such designed competition winner Hohensinn a futuristic clouds clip modeled after El Lissitzky's cloud bracket, a multi-level horizontal structure on slender stilts over the old stock on the outskirts of the Swiss Garden. The realization of these plans is considered unlikely.
Some objects are since 2013 adapted for use by the Technical University of Vienna: Object 227, the so-called "Panzerhalle" will house laboratories of the Institute for Powertrains and Automotive Technology. In object 221, the "Siemens hall", laboratories of the Institute for Energy Technology and Thermodynamics as well as of the Institute for Manufacturing Technology and High Power Laser Technology are built. In object 214 is besides the Technical Testing and Research Institute (TVFA) also the second expansion stage of the "Vienna Scientific Cluster" housed, of a supercomputer, which was built jointly by the Vienna University of Technology, the University of Vienna and the University of Agricultural Sciences.
Accessibility
The arsenal was historically especially over the Landstraßer Gürtel developed. Today passes southeast in the immediate proximity the Südosttangente called motorway A23 with it connection Gürtel/Landstraßer Hauptstrasse. Southwest of the site runs the Eastern Railway, the new Vienna Central Station closes to the west of the arsenal. Two new bridges over the Eastern Railway, the Arsenal Stay Bridge and the Southern Railway bridge and an underpass as part of Ghegastraße and Alfred- Adler-Straße establish a connection to the on the other side of the railway facilities located Sonnwendviertel in the 10th District, which is being built on the former site of the freight train station Vienna South Station.
On the center side is between Arsenal and Landstraßer Gürtel the former Maria Josefa Park located, now known as Swiss Garden. Here stands at the Arsenal street the 21er Haus, a branch of the Austrian Gallery Belvedere, on the center-side edge of the Swiss Garden has the busy suburban main railway route the stop Vienna Quartier Belvedere, next to it the Wiener Linien D (tram) and 69A (bus) run.
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Variants within the immunoregulatory CBLB gene are associated with multiple sclerosis: http://www.nature.com/ng/journal/vaop/ncurrent/abs/ng.584.html#/
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e-science: identificato in Sardegna un gene responsabile della sclerosi multipla: http://pietrozanarini.nova100.ilsole24ore.com/2010/05/escience-identificato-in-sardegna-un-gene-responsabile-della-sclerosi-multipla.html
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The Oak Ridge Leadership Computing Facility’s Summit supercomputer installation continues with the OLCF and IBM teams receiving and installing compute nodes.
When it comes online, Summit will deliver more than five times the computational performance of Titan’s 18,688 nodes, using only approximately 4,600 nodes. Summit will come online in late 2018 for early science, and will be available to users in January 2019.
Learn more about Summit: www.olcf.ornl.gov/summit/
Image credit: Jason Richards/ORNL
The IBM Portable Personal Computer 5155 model 68 was an early portable computer developed by IBM after the success of Compaq's suitcase-size portable machine (the Compaq Portable). It was released in February, 1984, and was eventually replaced by the IBM Convertible.
en.wikipedia.org/wiki/IBM_Portable_Personal_Computer
Retrocomputing (a portmanteau of retro and computing) is the use of early computer hardware and software today. Retrocomputing is usually classed as a hobby and recreation rather than a practical application of technology; enthusiasts often collect rare and valuable hardware and software for sentimental reasons. However some do make use of it.[1] Retrocomputing often gets its start when a computer user realizes that expensive fantasy systems like IBM Mainframes, DEC Superminis, SGI workstations and Cray Supercomputers have become affordable on the used computer market, usually in a relatively short time after the computers' era of use.
en.wikipedia.org/wiki/Retrocomputing
Con il termine retrocomputing si indica una attività di "archeologia informatica" che consiste nel reperire, specialmente a costi minimi, computer di vecchie generazioni, che hanno rappresentato fasi importanti dell'evoluzione tecnologica, ripararli se sono danneggiati, metterli nuovamente in funzione e preservarli.
The IBM Portable Personal Computer 5155 model 68 was an early portable computer developed by IBM after the success of Compaq's suitcase-size portable machine (the Compaq Portable). It was released in February, 1984, and was eventually replaced by the IBM Convertible.
en.wikipedia.org/wiki/IBM_Portable_Personal_Computer
Retrocomputing (a portmanteau of retro and computing) is the use of early computer hardware and software today. Retrocomputing is usually classed as a hobby and recreation rather than a practical application of technology; enthusiasts often collect rare and valuable hardware and software for sentimental reasons. However some do make use of it.[1] Retrocomputing often gets its start when a computer user realizes that expensive fantasy systems like IBM Mainframes, DEC Superminis, SGI workstations and Cray Supercomputers have become affordable on the used computer market, usually in a relatively short time after the computers' era of use.
en.wikipedia.org/wiki/Retrocomputing
Con il termine retrocomputing si indica una attività di "archeologia informatica" che consiste nel reperire, specialmente a costi minimi, computer di vecchie generazioni, che hanno rappresentato fasi importanti dell'evoluzione tecnologica, ripararli se sono danneggiati, metterli nuovamente in funzione e preservarli.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
The MOOSE simulation platform lets researchers "plug-and-play" by entering the mathematical model describing their system and letting MOOSE execute the simulation.
Read the full story at inlportal.inl.gov/portal/server.pt?open=514&objID=126...
Jesus Pulido is working toward his PhD in the UC Davis Department of Computer Science. He was drawn to the campus because of its reputation as one of the top research institutions in the field of computer graphics and data visualization.
He's collaborating with the Los Alamos National Laboratory and Johns Hopkins University, to develop and improve tools for the analysis of direct numerical simulation (DNS) turbulence data. He's also researching and developing more efficient frameworks for use in next-gen petascale and exascale supercomputers (such as Trinity).
For more information about graduate study at the UC Davis College of Engineering, please visit: engineering.ucdavis.edu/graduate/
Photos by Sean Michael Ayres/UC Davis Engineering
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
NEW YORK BLUE SUPERCOMPUTER: A Brookhaven Lab technology architect holds one of the 576 node cards that make up the New York Blue supercomputer. New York Blue has a total of 36864 processors and can perform 100 trillion calculations per second.
I've been meaning to post this. This is my new baby. It's the first production Cray CS300-LC. I took this in mid-December while it was undergoing testing in Chippewa Falls, Wisconsin.
It has 128 compute nodes, each with two 10-core Ivy Bridge processors and 256 Intel Xeon Phi co-processors. It has a theoretical peak performance of 322 TFLOPS (trillion floating point operations per second).
What really makes it unique is that it uses warm water cooling. The supply water that cools the system can be as hot as 40C (104F). So, even in Mississippi, we'll be able to cool it without having to cool the water below the outside ambient temperature.
Since it was in testing mode, none of the fancy doors and things were installed. I'll post some better photos soon.
Researchers don't have to access a supercomputer to run a simulation because MOOSE can also function at personal workstations.
Read the full story at inlportal.inl.gov/portal/server.pt?open=514&objID=126...
The HP Integral PC (or HP 9807A) was a portable UNIX workstation computer system produced by Hewlett-Packard, launched in 1985. It was based on the Motorola 68000 microprocessor (running at 8 MHz) and ran early version of the HP-UX operating system.
en.wikipedia.org/wiki/HP_Integral_PC
Retrocomputing (a portmanteau of retro and computing) is the use of early computer hardware and software today. Retrocomputing is usually classed as a hobby and recreation rather than a practical application of technology; enthusiasts often collect rare and valuable hardware and software for sentimental reasons. However some do make use of it.[1] Retrocomputing often gets its start when a computer user realizes that expensive fantasy systems like IBM Mainframes, DEC Superminis, SGI workstations and Cray Supercomputers have become affordable on the used computer market, usually in a relatively short time after the computers' era of use.
en.wikipedia.org/wiki/Retrocomputing
Con il termine retrocomputing si indica una attività di "archeologia informatica" che consiste nel reperire, specialmente a costi minimi, computer di vecchie generazioni, che hanno rappresentato fasi importanti dell'evoluzione tecnologica, ripararli se sono danneggiati, metterli nuovamente in funzione e preservarli.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
Automatic computing topped the list of needs for a new laboratory being built in the early '50s by the University of California on the site of a decommissioned naval air station in Livermore, now known as Lawrence Livermore National Laboratory. A UNIVAC I was ordered even before the official opening. An air-conditioned building for the machine was the first major construction project at Livermore, and movers arrived with the computer in January 1953.
Delivered in May 1960, the building-sized LARC (Livermore Advanced Research Computer) was built by Remington-Rand to specifications provided by Lawrence Livermore National Laboratory. The LARC was the most advanced computer of its time. Innovative features included separation of input/output controls from the main central processing unit and register files for rapid context switching.
The heart of the NASA Center for Climate Simulation (NCCS) is the “Discover” supercomputer. In 2009, NCCS added more than 8,000 computer processors to Discover, for a total of nearly 15,000 processors. Credit: NASA/Pat Izzo To learn more about NCCS go to: www.nasa.gov/topics/earth/features/climate-sim-center.html ( www.nasa.gov/topics/earth/features/climate-sim-center.html ) NASA Goddard Space Flight Center ( www.nasa.gov/centers/goddard/home/index.html ) is home to the nation's largest organization of combined scientists, engineers and technologists that build spacecraft, instruments and new technology to study the Earth, the sun, our solar system, and the universe.
I scoured the cars and motorbikes parked on Gouger Street for a registration plate containing the number "4" followed by the number "2". My colleague Ollie who was walking back to the office with me was amused when I yelped for joy on finding this one.
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The number 42 is, in The Hitchhiker's Guide to the Galaxy by Douglas Adams, "The Answer to the Ultimate Question of Life, the Universe, and Everything", and is calculated by an enormous supercomputer over a period of 7.5 million years to be 42. Unfortunately no one knows what the question is. Thus, to calculate the Ultimate Question, a special computer the size of a small planet and using organic components was created and named "Earth".
May 2012 Scavenger Challenge #23. Find the meaning of Life, the Universe and Everything. Photograph the number 42. Make it fill the frame. (This assignment is required. For an explanation, refer to #25 below.)
Taken with iPhone 4S.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
The Frontier supercomputer at the Department of Energy’s Oak Ridge National Laboratory earned the top ranking on May 30 2022, as the world’s fastest on the 59th TOP500 list, with 1.1 exaflops of performance. The system is the first to achieve the level of computing performance known as exascale, a threshold of a quintillion calculations per second.
See the blog post for more info: Tour of NASA Ames Research Center
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