Fred Palma | Computer Scientist

The ability to exploit the extraordinary properties of quantum mechanics in novel applications, such as a new generation of super-fast computers, has come closer following recent progress with some of the remaining underlying mathematical problems. In particular, the operator theory used to describe interactions between particles at atomic scales or smaller where quantum mechanical properties are significant needs to be enhanced to deal with systems where digital information is processed or transmitted. In essence, the theory involves mathematical analysis based on Hilbert Spaces, which are extensions of the conventional three dimensional Euclidean geometry to cope with additional dimensions, as are required to describe quantum systems.

These challenges in mathematical analysis and prospects for imminent progress were discussed at a recent conference on operator theory and analysis organised by the European Science Foundation (ESF) in collaboration with the European Mathematical Society and the Mathematical Research and Conference Center in Bedlewo, Poland. The conference brought together some of the world’s leading mathematical physicists and quantum mechanics specialists to tackle the key fields relating to spectral theory, according to the conference’s co-chair Pavel Kurasov from the Lund Institute of Technology in Sweden. Among the participants were Uzy Smilansky, one of the leading authorities on quantum chaos, from the Weizmann Institute of Technology in Israel, and Vladimir Peller, specialist in pure mathematical analysis at Michigan State University in the US.

As Kurasov pointed out, a big challenge lies in extending current operator theory to describe and analyse quantum transport in wires, as will be needed for a new generation of quantum computers. Such computers will allow some calculations to be executed much more quickly in parallel by exploiting quantum coherence, whereby a processing element can represent digital bits in multiple states at once. There is also the prospect of exploiting another quantum mechanical property, quantum entanglement, for quantum cryptography where encryption key information can be transmitted with the ability to detect any attempt at tampering or eavesdropping, facilitating totally secure communication. In fact quantum cryptography has already been demonstrated over real telecommunications links and will be one of the first commercial applications based exclusively on quantum mechanics.

The operator theory required for quantum information processing and transmission is already well developed for what are known as self-adjoint operators, which are used to describe the different quantum states of an ideal system, but cannot be used for systems like a communications network where dissipation occurs. “So far only self-adjoint models have been considered, but in order to describe systems with dissipation even non-self-adjoint operators should be used,” said Kurasov. The aim set out at the ESF conference was to extend the theory to non self-adjoint operators, which can be used to analyse real systems. “These operators may be used to describe quantum transport in wires and waveguides and therefore will be used in design of the new generation of computers,” said Kurasov.”Physicists are doing experiments with such structures, but the theory is not developed yet.  An important question here is fitting of the parameters so that models will describe effects that may be observed in experiments.” This question was discussed during inspiring lecture by Boris Pavlov from Auckland University, New Zealand – world leading specialist in mathematical analysis who became interested in physical applications.

Intriguingly Kurasov hinted that a breakthrough was likely before the next ESF conference on the subject in two years time, on the problem of reconstructing the so called quantum graphs used to represent states and interactions of quantum systems from actual observations. This will play a vital role in constructing the intermediate components of a quantum computer needed to monitor its own state and provide output.

Kurasov noted that this ESF conference was one in a series on the operator analysis field organized every second year, with proceedings published regularly in a book series Operator Theory: Advances and Applications.

The ESF conference Operator Theory, Analysis and Mathematical Physics was held at the Mathematical Research and Conference Center, Będlewo in Poland in June 2008

For more information please click here.

From European Science Foundation

Tags: Quantum by Fred
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http://wubi-installer.org/

Wubi allows you to install and uninstall Ubuntu as any other Windows application, in a simple and safe way. Are you curious about Linux and Ubuntu? Trying them out has never been easier!

Tags: Linux, Operational System by Fred
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The United States is unprepared for a major hostile attack against vital computer networks, government and industry officials said on Thursday after participating in a two-day “cyberwar” simulation.

The game involved 230 representatives of government defense and security agencies, private companies and civil groups. It revealed flaws in leadership, planning, communications and other issues, participants said.

The exercise comes almost a year after President George W. Bush launched a cybersecurity initiative which officials said has helped shore up U.S. computer defenses but still falls short.

“There isn’t a response or a game plan,” said senior vice president Mark Gerencser of the Booz Allen Hamilton consulting service, which ran the simulation. “There isn’t really anybody in charge,” he told reporters afterward.

Democratic U.S. Rep. James Langevin of Rhode Island, who chairs the homeland security subcommittee on cybersecurity, said: “We’re way behind where we need to be now.”

Dire consequences of a successful attack could include failure of banking or national electrical systems, he said.

“This is equivalent in my mind to before September 11 … we were awakened to the threat on the morning after September 11.”

Officials cited attacks by Russia sympathizers on Estonia and Georgia as examples of modern cyberwarfare, and said U.S. businesses and government offices have faced intrusions and attacks.

Billions of dollars must be spent by both government and industry to improve security, said U.S. Rep. Dutch Ruppersberger of Maryland, the Democratic chairman of the intelligence subcommittee on technical intelligence.

The war game simulated a dramatic surge in computer attacks at a time of economic vulnerability, and required participants to find ways to mitigate the attacks — using real-life knowledge of tactics and procedures where they work.

It was the broadest such exercise in terms of representation across government agencies and industrial sectors, officials said.

Homeland Security Secretary Michael Chertoff, addressing the participants at the end of the exercise, predicted cyberattacks will become a routine warfare tactic to degrade command systems before a traditional attack. That is in addition to threats posed by criminal or terrorist attackers.

International law and military doctrines need to be updated to deal with computer attacks, Chertoff said.

“We know that if someone shoots missiles at us, they’re going to get a certain kind of response. What happens if it comes over the Internet?,” he said.

Chertoff and Gerencser expressed caution over suggestions earlier this month calling for the appointment of a White House “cybersecurity czar” to oversee efforts. But Ruppersberger disagreed. One person was needed to take charge of efforts and to secure the president’s ear, he said.

Ruppersberger said people close to president-elect Barack Obama’s transition team have convinced him that Obama understands the importance of bolstering cybersecurity.

From Reuters. Reporting by Randall Mikkelsen, editing by Anthony Boadle

Tags: security by Fred
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Automobiles aren’t the only machines taking a hybrid approach. Judging by the recent SC08 conference in Austin, Texas, the future of supercomputer design seems to be heading toward using multiple types of processors in a single system. That approach is a significant change in the supercomputing field, and like any major shift in technology, it comes with hidden problems.

In the past decade, systems that use commodity processors produced by Intel and Advanced Micro Devices have increasingly dominated the biannual Top500 list of the world’s fastest supercomputers compiled by laboratories at the Energy Department and a group of universities.

Although not as powerful as vector processors built specifically for the high-performance computer market, those chips are much less expensive and offer more processing power per dollar when bought in bulk.

Recently, however, developers began augmenting commodity processor-based supercomputers with specialty processors, such as floatingpoint accelerators, field-programmable gate arrays, repurposed graphics processing units (GPUs) and even IBM’s Cell Broadband Engine (Cell/BE) processors, which were designed for video game consoles.

For example, developers of the top computer on the most recent Top500 list — Los Alamos National Laboratory’s Roadrunner, a 1.1 petaflop IBM machine — augmented its AMD Opterons with IBM PowerXCell processors. And on the Green500 list, which is the Top500 reordered by power efficiency, the top seven computers all ran on IBM Cell/BE-based BladeCenter QS22 servers.

Why the shift? Better power usage.

“Power performance has become a very important metric as of late — some feel even more important than [simply] performance,” said Kaushik Datta, a graduate student in computer science at the University of California, Berkeley. Datta presented the results of a study he led about the best ways to design multicore systems at the SC08 conference.

Although the Top500 list ranks machines by how many floating-point operations/sec (flops) a machine executes, the Green500 ranks them by how many flops per watt a machine executes. In that realm, specialized processors rule. One industry expert at the conference estimated that the Cell/BE can produce about 14 flops for about 97 watts of energy, and a GPU can produce about 2 flops per watt. Meanwhile, a generic x86 processor can produce only about 1 flops at that wattage.

“As you specialize the chip, you’re able to be much more efficient with what you are doing with the flops,” Timothy Mattson, a senior research scientist at Intel, said during a talk on the company’s experimental 80-core Tera-scale processor.

Of course, new architectures require developers to rework their code. We hear that the Cell/BE, which is still in its infancy, has an especially steep learning curve for programmers.

“Are you willing to put in the time to program” for these environments? Datta asked rhetorically. That is the question system builders and developers will have to ask themselves while hungrily eyeing performance gains.

From gcn.com by Joab Jackson

Tags: research by Fred
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http://www.merit.unu.edu/i&tweekly/ref.php?nid=3511

Tags: Cloud Computing, Linux by Fred
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Tags: Cloud Computing, Database by Fred
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From: mRemote.org

mRemote is a full-featured, multi-tab remote connections manager.

It allows you to store all your remote connections in a simple yet powerful interface.

Currently these protocols are supported:

• RDP (Remote Desktop)
• VNC (Virtual Network Computing)
• ICA (Independent Computing Architecture)
• SSH (Secure Shell)
• Telnet (TELecommunication NETwork)
• HTTP/S (Hypertext Transfer Protocol)
• Rlogin (Rlogin)
• RAW

Binary, as well as source packages are freely available from the downloads page.

Learn more about the features, check out some screenshots and learn how to use mRemote.

For feature requests or bug reports please send me a mail at felix AT mRemote DOT org

Tags: Softwares by Fred
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The Internet is plagued by spam, viruses, denial-of-service attacks, and other problems that can cripple vital Web servers worldwide. It also has to cope with the growing demand for URLs to accommodate all kinds of new devices. All of this has many people saying today’s all-purpose Internet is about to run out of gas.

This isn’t a new message, but with governments and companies alike considering possibilities for the Internet’s future, the conversation is getting a little more charged.

One of the earliest initiatives to overhaul the Internet originated a dozen years ago, well before the age of malware. The Internet2 project was formed in 1996 when 34 university researchers met in a Chicago hotel to discuss ways to develop and implement a new Internet, which they called Internet2. The project has grown into a nonprofit consortium formally administered by the University Corporation for Advanced Internet Development. That group provides a nationwide, high-performance, 100-Gbit/s network backbone to nearly 300 member organizations and more than 50,000 research and educational institutions, including colleges, high schools, museums, and libraries.

Beyond providing turbocharged network capacity, Internet2 and its members are developing, deploying, and using networking technologies that tap protocols like IPv6 to access an astronomical amount of new URL address space, as well as a host of middleware and security capabilities, such as federated authentication, and advanced applications like high-definition videoconferencing. Software such as Internet2 Detective lets users test their connections, gauge the bandwidth they need, and perform other functions (see diagram, below).

Figure 1:

Click thumbnail for full image.

These technologies will provide a lot more than just a faster Web or speedier email – they’ll let people use networking in ways that aren’t possible via the existing global commercial Internet. Among the possibilities: digital libraries, virtual laboratories, distance and independent learning, and health applications.

— Roger Smith, InformationWeek

Tags: Internet by Fred
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