Are you disappointed with the performance of your new computer or phone? Then perhaps rightly so. Their clock frequency has not risen significantly since 2000. Overheating problems and limited battery capacity are forcing manufacturers to limit power usage substantially, typically to 100 W per chip.
“You can’t sell a mobile device with bulky sophisticated cooling. So we can’t increase the clock frequency, a problem that multicore processors were designed to avoid,” says Per Stenström, Professor of Computer Engineering at Chalmers University of Technology and project coordinator for a new center called Eurecca.
“So far, multicore systems have merely yielded marginal performance improvements. It will be increasingly difficult to keep all the processors busy without exceeding the power limit.”
Today modern microprocessors typically have six cores. The problem is that no one can as yet optimally program even two-core (two parallel processors on the same chip) computers. The same problem has also baffled giants such as Intel and Microsoft. Basically what is needed is moving from sequential to parallel programming – i.e. the art of getting several processors to operate together as efficient, well trained sports teams instead of inefficiently coordinated superstars. This second technological challenge goes by the name of concurrency.
“The industry is not yet mature for this step, and we lag behind in terms of education and research,” says Per Stenström.
That’s why three leading universities in computer architecture are now founding the European Research Center on Computer Architecture (EuReCCA). The planned center so far comprises fifty research scientists, but computer technology institutions from all parts of Europe are joining at a rapid rate, all coordinated by Chalmers. The aim is to make pioneering progress in the development of systems involving multicore processors and paradigms for their productive programming, which should ultimately result in new generations of products and innovative company start-ups.
Eurecca should above all boost the competitive power of the European computer industry, which is a world leader in computers for embedded applications such as cars and mobile phones. A modern car contains no less than about fifty processors. British ARM processors are found in mobile phones from manufacturers such as Nokia, SonyEricsson and Apple. European research projects normally run for three years, but Eurecca will be set up as a longer term Eurolab structure.
“We want to have a permanent structure in order to sustain a long-term focus on bringing innovations out to industry. This has not worked in a satisfactory way in Europe so far. To build up functional systems of knowledge transfer is not something that can be done in three years,” says Per Stenström.
Eurolab structure is also needed to build up streamlined education in computer technology at master and doctoral level throughout Europe. The aim is to get together to nurture a new generation of computer architects ready to lead system innovations based on the parallel philosophy in high demand.
The third technical challenge is miniaturization. Transistor dimensions are halved every 18 months. Soon, transistors will be only a few tens of atoms in size. Along the way they become increasingly unreliable, which will present an enormous challenge for computer system designers in the future. No one currently knows how to tackle this.
“We quite simply have to create a revolution in computer architecture,” says Per Stenström, who expects national and European funding for Eurecca, as well as investments from industry.
It's not only shuttles that are loaded with CPUs. In a normal car there are about 50. The challenge ahead is to make multi-core processors energy efficient, fast and reliable even at the nanoscale.
Credit: Richard T Nowitz/Scanpix
Journalists invited to Barcelona on 4 November
The three research organizations that are founding Eurecca – Chalmers, the Barcelona Supercomputing Center, and Forth – are inviting industry leaders from ARM, Bull, Ericsson, ST Microelectronics, Thales, Maxeler, Eurotech, NXP, Xyratech and other companies to a workshop in Barcelona on 4 November. Together, they hope to define the research agenda for the future. Special press arrangements such as one-to-one interviews could be arranged at this occasion. Ideally on Friday 4 November, 10.30-11 AM, at UPC President’s Building (Campus Nord – Edif. R C. Jordi Girona, 31, 08034 Barcelona) in Sala de Juntes del Rectorat. Please contact:
Sara Ibañez, Barcelona Supercomputing Center, +34 93 413 75 14 (tel), +34 62 042 99 56 (mobile), firstname.lastname@example.org
More about Eurecca
The new Eurecca Eurolab will be building further on the EU-funded Network of Excellence on HiPEAC (High-Performance and Embedded Architecture and Compilers), which currently runs a dialogue between European academia and the computer industry around the big technological challenges.
Chalmers University of Technology, Barcelona Supercomputing Center with the Technical University of Catalunya and Forth with the University of Crete were among the founding partners; the same players who have now taken a natural step forward, by forming EuReCCA (the European Research Center on Computer Architecture).
In terms of research, the three founding institutions have contributed with ground-breaking innovations that have greatly influenced the design of today’s commercial multicore microprocessors, the way they are programmed, and how they can be interconnected to build large scalable systems. The universities of Augsburg (Germany), Manchester (UK), and France’s Inria/Irisa in Rennes have also joined the Eurecca center.
For more information, please contact:
Prof. Per Stenström, Chalmers, project coordinator Eurecca, +46 31 772 17 61, email@example.com