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Dr. Guang Gao, a distinguished professor of electrical and computer engineering, along with Professor Roberto Giorgi, an associate professor at the Università degli Studi di Siena in Siena, Italy and primary investigator (Coordinator / Scientific Manager) of the TeraFlux project. The TeraFlux project seeks to exploit dataflow parallelism in teradevice computing and propose a complete solution to harness large-scale parallelism in an efficient way. The University of Delaware recently joined the TeraFlux project and received a grant connected to the project from the EU.
The Universidad de la Frontera (UFRO) began operating a new high performance computing equipment with scientific capability. Its installation is part of the National Laboratory for High Performance Computing (NLHPC) project, lead by the Center for Mathematical Modeling of the University of Chile, with support and funding from the Associative Investigation Program (PIA) of CONICYT. April 18, 2013.
In 1986, I joined Cray Research to support the Engineers and Scientists at GM Research. They worked on applications to support safer cars by modeling car crashes.
Cray Reseach X-MP install at GM Research, 1986
Dr. Guang Gao, a distinguished professor of electrical and computer engineering, along with Professor Roberto Giorgi, an associate professor at the Università degli Studi di Siena in Siena, Italy and primary investigator (Coordinator / Scientific Manager) of the TeraFlux project. The TeraFlux project seeks to exploit dataflow parallelism in teradevice computing and propose a complete solution to harness large-scale parallelism in an efficient way. The University of Delaware recently joined the TeraFlux project and received a grant connected to the project from the EU.
Dr. Guang Gao, a distinguished professor of electrical and computer engineering, along with Professor Roberto Giorgi, an associate professor at the Università degli Studi di Siena in Siena, Italy and primary investigator (Coordinator / Scientific Manager) of the TeraFlux project. The TeraFlux project seeks to exploit dataflow parallelism in teradevice computing and propose a complete solution to harness large-scale parallelism in an efficient way. The University of Delaware recently joined the TeraFlux project and received a grant connected to the project from the EU.
Unretouched as of right now - Meet Boomer II. The fastest and most advanced supercomputer the state Oklahoma has ever launched.
At the University of Oklahoma.
Dr. Guang Gao, a distinguished professor of electrical and computer engineering, along with Professor Roberto Giorgi, an associate professor at the Università degli Studi di Siena in Siena, Italy and primary investigator (Coordinator / Scientific Manager) of the TeraFlux project. The TeraFlux project seeks to exploit dataflow parallelism in teradevice computing and propose a complete solution to harness large-scale parallelism in an efficient way. The University of Delaware recently joined the TeraFlux project and received a grant connected to the project from the EU.
1,792-Core Deskside Personal Supercomputer supporting up to four NVIDIA Tesla C2075 GPU cards and 24x 2.5" or 8x 3.5" hot-swap drive bays
The Cray 1 supercomputer was the fastest computer in the world for a year after its construction.
More importantly, it was a significant departure in aesthetics from the boxy designs typical of computer systems. Cray designed this system to with the goal of making its brand more identifiable. It encouraged its customers in industry to house this system in the lobbies of their headquarters in order to make computing more visible. Moreover, customers were able to order the vertical panels that encircle the system in a variety of color choices.
However, the design was also intended to be functional. It is believed that the round shape allowed for shorter lengths of cable between components. Due to the relationship between time and space that is inherent to electrical cables, this would make for a faster computer. Furthermore, the design may have allowed for better heat dissipation.
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.
Using Space to Scale Uncharted Mountains
Many mountains on Earth remain undiscovered. Join space physicist and mountaineer Dr Suzie Imber to find out how space satellites, supercomputers, and a passion for exploration has led to her first ascents of previously unknown mountains in the Andes.
Dr Suzie Imber is an Associate Professor in Space Physics at the University of Leicester and an experienced mountaineer.
19:30-20:00 – LIVE Space
National Space Centre, Leicester
07.10.2017 19:59 BST
105mm 1/400 sec f/2.8 ISO 720
(cropped)
dort Kühlwasser.
Die Wirkung ist fühlbar, es ist erstaunlich kühl hier drin - wenn ich an LAN-Parties mit nur 10 Rechnern im Sommer als Vergleich denke
Jianmin Jiang, Full Professor of Media Computing, University of Surrey
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.
On June 22, 2023, Argonne National Laboratory, Intel and HPE announced that the installation progress of the Aurora Supercomputer is complete. In this photo, the installation team poses together in front of the Aurora Supercomputer. (Credit: Argonne National Laboratory)
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.
Paying a visit to Computer History Museum in Mountain View in Silicon Valley.
The Cray 1 supercomputer. Back in 1975, it was the fastest computer ever built. The ring-like bench was a key feature of the computer too.
Elisabetta Vaudano, Principal Scientific Manager, Innovative Medicines Initiative (IMI)
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.
Catherine Rivière, Chair, PRACE Council; CEO, GENCI
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.
Representing Realities, one of Humboldt’s Place-Based Learning Communities. As a freshman majoring in Math or Computer Science, you’ll automatically be part of this year-long program to interact with the world of math and computation.
Oberlin is among the first liberal arts colleges in the nation to provide undergraduates with access to a supercomputer that can process gigantic data sets.
Photo by Kevin G. Reeves
Samuël Maenhout, Policy Officer, Unit for SME, DG Research & Innovation, European Commission
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.
Maryline Fiaschi, Director, Science|Business
9 September 2013, Brussels
Through years of steady investment and research, high performance computing in Europe has started paying returns to many parts of the economy - aerospace, pharmaceuticals, energy, automotive, the environment and climate research. But the best could be yet to come, as computing powers worldwide jump upwards and HPC becomes an essential tool for competitiveness across the European economy. In short, supercomputers will be for all, no longer a few.