BRUSSELS, Belgium – The European Commission has launched a campaign of public investment in micro- and nanoelectronics with the aim of doubling chip production on the continent to around 20 percent of global production.
The plan is to channel more than 5 billion euro (about $6.4 billion) of public authority money into research, development and innovation over the next seven years to match a similar amount of investment from the companies supported by the plan. However, the spending is likely to be spread across the whole semiconductor supply chain and cannot be used to simply lower the cost of capital or buy production equipment due to anti-subsidy commitments.
European Commission vice president Neelie Kroes said: "Others are aggressively investing in computer chips and Europe cannot be left behind. We have to reinforce and connect our existing strongholds and develop new strengths. A rapid and strong coordination of public investment at EU, member state and regional level is needed to ensure that transformation."
Kroes, who is responsible for digital economy and services delivery in Europe, has argued for several years that nanoelectronics is strategic to European wealth creation as a least 10 percent of GDP depends on electronic products and services.
Kroes said that the public authorities across Europe, at the Commission, member state and regional level should be able to channel more than 5 billion euro (about $6.4 billion) into research, development an innovation over the next seven years. "This is what will attract not only a similar amount of investment in research and innovation by industry but also the 100 billion euro that industry has committed to invest in Europe if we are able to get our act together," Kroes said in the text of a speech to launch the initiative.
"I want Europe to produce more chips in Europe than the United States produces domestically. It's a realistic goal if we channel our investments properly," Kroes said. The industrial strategy will focus on larger investments to reinforce Europe's semiconductor centers in Dresden, Eindoven, Leuven and Grenoble and their connections to design clusters in such places as Cambridge and Milan.
"If we don't take this opportunity, if we don't connect our strongholds, then others will leapfrog us. So we need this public investment - we need it to be rapid, strategic and coordinated. I will expect great things from the industry; they will have to build on this investment to take the sector to new heights. They will have to find ways to repeat the success of Airbus, but this time in the chip sector, and with its own unique business model," Kroes said.
The strategy will cover making chips at the leading edge (More Moore) as well as more varied (More than Moore) and the transition to production on 450-mm diameter wafers.
In support of Kroes' ambitions the Commission referenced a positioning document entitled Innovation for the future of Europe: Nanoelectronics beyond 2020 that described how to secure a European nanoelectronics industry and which outlined how a total investment of 100 billion euro could be delivered between 2013 and 2020.
Good Intentions. But honestly I doubt the outcomes. Atleast its good news for NXP/INFN/ST/Atmel and their employees.
Doing "20 percent of global chip production." competitively, in Europe , is a highly ambitious target.
I am sorry, but I fear Europe has missed the boat. Even billions of euros from the tax payers will not change that. Anyway, I believe in the future of the software industry, IT consulting and services. So, let's spend the money better for those projects.
a little too late for europe, a new leading edge 300mm fab is 6 billion dollars, 450nm I dont even know how much, so three of them? I dont think so, especially when only two foundries are making money, TSMC and SMIC everybody else is losing money.
I don't think there is a revenue model....
apart from tax and spend....
But to quote from the "Nanoelectronics beyond 2020" document: "The companies and institutes in Europe’s nanoelectronics ecosystem propose a strategic research and innovation program with a total investment
of 100 billion € up to the year 2020. By 2020, the programme aims to increase Europe’s
nanoelectronics-based world-wide revenues by over 200 billion € per year, and create an
additional 250,000 direct and induced jobs in Europe."
David Patterson, known for his pioneering research that led to RAID, clusters and more, is part of a team at UC Berkeley that recently made its RISC-V processor architecture an open source hardware offering. We talk with Patterson and one of his colleagues behind the effort about the opportunities they see, what new kinds of designs they hope to enable and what it means for today’s commercial processor giants such as Intel, ARM and Imagination Technologies.