Which are the World's Techiest Countries?

China's top in text messaging, India dominates in mobile tech, and the Brits have more digital TVs, researchers find.

Cellphone users in China sent 429 billion text messages in 2006, while India added more mobile subscribers in the year than Britain had in total, as the two countries joined Brazil and Russia in driving growth in the sector. A report by Britain's media and telecommunications watchdog Ofcom said mobile phones had driven most of the communications sector's growth and accounted for 53 percent of total telecoms revenue.

In India, the number of new mobile subscriptions doubled to 150 million during the year - an increase of more than Britain's total of 70 million mobile connections. However only 14 percent of the Indian population had a mobile connection, showing its remaining growth potential. In China, mobile users sent 429 billion text messages, an equivalent of 967 per user, more than any other country.

The findings were part of the research included in the Ofcom International Communications Report which looked at the $1,787 billion global television, radio and telecommunications sector in 2006 to analyze growing trends. It found Britain had the highest take-up of digital television and the joint highest digital radio coverage of the 12 countries surveyed - Britain, France, Germany, Italy, Republic of Ireland, Netherlands, Poland, Spain, Sweden, Japan, Canada and the United States. It also looked at Brazil, Russia, India and China as they are in different stages of development.

Broadband take-up increased in Britain with over half of all households connected at the end of 2006, putting Britain slightly ahead of the United States for the first time. In the television sector, Japanese and U.S. viewers spent the most time watching TV, both averaging 41/2 hours a day in 2006, while the U.S. also led the take-up of high definition TV, with 10 percent of homes capable of showing HDTV in 2006. Internet-based TV or IPTV was most popular in France, with 1.5 million subscribers.

Happy Birthday to The Transistor: Where it all Started

You can forget inventions like air conditioning, television, the computer and the Internet. The single most important invention of the 20th century was the transistor. Yes, that's right. The transistor. The little-talked-about transistor is the building block for the processor. Without the transistor, some say our servers would be three-stories high and laptops would be a prop on Star Trek. Our televisions would still use tubes and our cars couldn't guide us to the nearest Indian restaurant. Heck, without the transistor, what would the digital economy look like? Would Microsoft and Google have become giants? Would geeks have become cool, rich guys driving BMWs? Probably not.

The first transistor, a replica of which is pictured at the Computer History Museum, was born 60 years ago.

Sixty years ago - on Dec. 16, 1947, to be exact -the transistor was invented at Bell Labs by scientists William Shockley, John Bardeen and Walter Brattain to amplify voices in telephones for a Bell Labs project - an effort for which they later shared the Nobel Prize in physics - igniting a series of changes and advances that would change the way people listen to their favorite music, do their jobs, pay their bills, educate themselves and buy everything from books to used toaster ovens. Transistors inside pacemakers keep our hearts going. Computer chips run inside our cars, cell phones and even tiny, implantable LoJack-like devices that find our lost pets. The personal computer and the Internet have been phenomena, but how usable and ubiquitous would they be without millions of tiny transistors running inside laptops, desktops and servers.

Before transistors, vacuum tubes were turned on or off to represent zeros and ones. The tube would be turned off for a zero, and on for a one. It wasn't a very efficient technology, and required a lot of tubes and bulbs and heat to do basic mathematically calculations. In fact, the term "bug" was coined when moths or other insects would light on the tubes and blow them out, according to Mike Feibus, a principal analyst at TechKnowledge Strategies Inc. By modern standards, tube-based computers were slow and enormously bulky. There was no need for a shoulder bag or a wi-fi connection in a hotel room.

Then the transistor hit the market. The transistor is made up of switches. As switches are turned on or off, current either flows or stops. Today's transistors can turn themselves on or off 300 billion times per second. The 42-year-old prediction by Gordon Moore - the Intel Corp. co-founder - holds that the number of transistors on a chip doubles about every two years. Despite many periodic cries that that kind of pace simply could not be maintained, so far the law has held true. In recent years, however, some observers have predicted that leakage and energy consumption looked like significant roadblocks. Even Gordon Moore sees that the end is fast approaching -- an outcome the chip industry is scrambling to avoid. Intel, the world's largest semiconductor company, predicts that a number of "highly speculative" alternative technologies, such as quantum computing, optical switches and other methods, will be needed to continue Moore's Law beyond 2020.

A new design was needed, and this fall Intel beat rivals like IBM and Advanced Micro Devices Inc. to the punch, coming up with a transistor redesign that enabled them to move from a 65 nanometer to 45nm processor technology. The transistor has progressed from working by itself in a lab to effectively communicate with another 800 million of its closest friends on something the size of a dime. There's nothing else We could name that in that length of time has undergone that amount of technical sophistication. It certainly has evolved faster than any other technology that the world has ever created. It's been the basis of the entire computer economy - PCs, mobile phones, Walkmans to iPods. It's changed nearly every aspect of our lives.

Nanotechnology progresses and devices are injected into people's blood streams to find and fix diseased cells or organs, transistors might be either embedded inside the devices or at least control them from outside the body. We expect advancing transistors will allow cell phones to shrink down to devices that can easily be woven into the fabric of your clothing. Transistors also should enable automatic language translation to be built into telephones so people easily can communicate with each other regardless of what language they speak, and so on.

IBM Breakthrough Could Put a Supercomputer on a Chip

The Big Blues, IBM says it has made a breakthrough in converting electrical signals into light pulses that brings closer the day when supercomputing, which now requires huge machines, will be done on a single chip.

In research published in the journal Optics Express, IBM said it had reached a milestone in the quest to connect hundreds or thousands of processing cores on a tiny chip by eliminating the wires required to connect them. The semiconductor industry is evolving multi-core chips that take up less space than multiple single-core chips but they are extremely power-hungry and produce large amounts of heat, factors that are holding back improvements in computing power. IBM's Cell processor which powers the Sony PlayStation 3 - one of the most advanced chips there is today - has nine cores, or "brains". Communications between processor cores today is handled through copper wire that moves electrical impulses.

Using light instead of wires to send information between the cores by using a silicon Mach-Zehnder electro-optic modulator can be as much as 100 times faster and use 10 times less power than wires, IBM says. The new modulator IBM has developed is 100 to 1,000 times smaller than previously demonstrated comparable modulators, IBM said on Thursday, paving the way for significant reductions in cost, energy and heat while increasing bandwidth.

"Just like fiber optic networks have enabled the rapid expansion of the Internet by enabling users to exchange huge amounts of data from anywhere in the world, IBM's technology is bringing similar capabilities to the computer chip," IBM's lead scientist on the project, Will Green, said in a statement. "We believe this is a major advancement in the field of on-chip silicon nanophotonics."

Technology services company IBM is also the world leader in supercomputers, which are used for problems requiring intensive calculations, for example in quantum physics, weather forecasting and molecular modeling. For their clients , it would mean having smaller computers that are far more powerful than today's machines, yet produce far less heat. Among the problems facing businesses today are the size and number of servers needed to process an ever-growing amount of data, which means larger expensive data centers. In addition, today's computers generate a lot of heat, requiring companies to spend more on power to cool them.

IBM said future tiny supercomputers on a chip could expend as little energy as a light bulb, compared with today's supercomputers, which can use as much energy as powering hundreds of homes.

Windows & Linux on Mac.. Happily Ever After..

Windows and Linux can live together in perfect harmony on neutral ground, thanks to a new software update released Wednesday (Dec-05) for Apple's Leopard operating system. The update, from utilities vendor Parallels, enables users of Leopard, also known as Mac OS X 10.5, to launch both Linux and Microsoft Windows on Intel based Macs without rebooting by adding a virtualization layer to the OS.

The existing version of Parallels' Desktop for Mac 3.0 software supported virtualization on Leopard to an extent but many users reported problems. The update, which has been in beta testing for the past several weeks, resolves the performance issues, according to Parallels. It's available as a free download or as part of a new suite that Parallels launched Wednesday called Desktop Premium Edition.

In addition to the Leopard virtualization update, Desktop Premium Edition includes the Kaspersky Internet Security Suite for malware and virus protection, Acronis' True Image Home for disk backups, and the Acronis Disk Director disk management tool. Virtualization offerings such as Parallels could help Apple gain share against Microsoft in the operating system market as they allow Mac users to use Windows applications which far outnumber native Mac apps. They also let Mac users to turn their computers into virtual Linux machines.

In addition to third-party offerings, Apple has built a feature into Leopard called Boot Camp that, while not strictly a virtualization engine, lets users run Windows on their Mac desktops. Apple is also encouraging virtualization on the server side. The license for the server version of Leopard allows users to run the OS in virtual partitions a first for Apple.

Birth of an 'antispam' from frustration

An M.I.T.-trained engineer, Mr. Kirsch was frustrated by the quality of the first computer mice in 1982, so he set out to improve them by incorporating an optical sensor. Since then he has started four companies, all based on his frustrations with existing products or services. He has made forays into word processing document design, accelerating the Web, and in 1997 Infoseek, his search engine company, was the third ranking company in Web search. Along the way he has amassed a personal fortune of about $230 million, a success that has permitted him to become significant philanthropists in Silicon Valley by contributing more than $75 million to the United Way campaign and other causes through his foundation.

Recently he has taken on the challenge of e-mail spam. This year he founded Abaca, a company with a new approach in the crowded market for stopping junk electronic mail. Abaca claims that it can filter out 99 percent of all spam, and supports the claim with a money-back guarantee. According to the result of an independent survey last February by Opus One, a computer industry consulting firm in Tucson, Ariz., that would be significantly better than the results of six leading spam blockers.

The approach underlying the Abaca technique is the recognition that the ratio of spam to legitimate e-mail is individually unique. It is also a singular identifier that a spammer cannot manipulate easily. By assessing the combined reputations of the recipients of any individual message, the Abaca system determines the “spaminess” of a particular message. Mr. Kirsch asserts this provides a high degree of accuracy in deciding whether the message is spam.

Unlike most of its competitors, he said, Abaca’s technology does not require a training period, is language independent and is faster than many competitors because it does not scan the entire contents of a message to determine whether it is spam.

Abaca has taken on a new urgency for Mr. Kirsch — during the summer, he was discovered to have a rare form of blood cancer, Waldenstrom’s macroglobulinemia, that is found in about 1,500 Americans every year and is considered incurable, although it can be managed beyond the five- to seven-year longevity that new patients are usually told to expect. However, it is listed as the third of his current projects, after “Eliminating spam,” and “Who would make the best president?”

He has been thinking about the spam problem for a number of years and has several patents covering other approaches, but Mr. Kirsch said he had hit on the idea underlying Abaca — profiling the recipient of e-mail rather than the sender — quite by accident.

Remember Bill Gates’s promise to rid the Internet of spam in a few years?. That was over seven years ago. Once any of these solutions scale up, though, thousands of other clever, smart people start to work on how to defeat the system. Twenty-five years ago Steven T. Kirsch built a better mouse. Now he believes he has found a way to create a better trap — for spam, not mice — if he has enough time to finish his project.

Sun Solaris's trial run On The IBM Mainframe

IBM on Friday (Nov 30) gave a nod to Sun Microsystems OpenSolaris, saying the companies have run the open source operating system on the mainframe. IBM, Sun and research and development company Sine Nomine Associates demonstrated OpenSolaris code running on a System z server earlier Last week at the Gartner Data Center Conference in Las Vegas, Nev. The OS ran within the z/VM environment, which is capable of handling as many as 1,000 virtual images of an OS on a single hypervisor. A hypervisor is the underlying technology that enables a server to run multiple operating systems on separate virtual machines. The process, called virtualization, makes it possible to consolidate business applications in one server, taking full advantage of the computer's processing power. Mainframes are capable of virtualization on a greater scale. The System z has run Linux on z/VM for sometime, helping to bolster the open source operating system's role as a software platform in the data center. Sun is apparently hoping OpenSolaris will get the same boost.

In addition, IBM endorsed Sun's recently introduced virtualization platform called xVM. The platform, based on the open source Xen hypervisor, includes management tools for hosting Linux, Windows, or Solaris as guest operating systems or all three at once on the same physical server. The xVM hypervisor can make use of key characteristics of Sun's Solaris 10, which is also available as open source software. Those features include Solaris' 128-bit ZFS file system, which increases the amount of address space that can be included in a virtual storage system.
"Momentum surrounding Sun's Solaris operating system and Sun xVM virtualization continues to grow, and we're thrilled to be able to reach new customers and market opportunities alongside IBM," Rich Green, executive VP of software for Sun, said in a joint statement with IBM. James Stallings, general manager for IBM, said IBM and Sun could build a symbiotic relationship that takes advantage of each company's data center technologies. "It makes perfect sense to marry these two stalwarts in a virtualized mainframe environment," he said.