Wednesday, 1 June 2016

EE Journal Feature Article - The x86 Moat: Can Intel Defend the Data Center?

A Data Centre is a dedicated space for housing computer systems and associated components,
including telecoms and storage systems. Data centres stem from the days of the huge computer rooms of the early ages of the computing industry. This arrangement was largely unaffected by the steady reduction in size of the computer as the functionality requirements increased to such an extent that the systems still required the same amount of space. 


During the 1990s, the challenge was deploying enough processing power to meet the rapidly growing web audience. Considering Intel's market share for this industry today, x86-based servers didn't actually exist until the late 90s. But within a decade x86 processors were in the majority of servers being deployed in data centres.


Kevin Morris has written a really interesting article for EE Journal, looking at the role of FPGAs and their potential impact on the EDA industry.


May 31, 2016
The x86 Moat - Can Intel Defend the Data Center?
By Kevin Morris

Read the full article 

Excerpt:

Intel’s data center fortress is defended by the x86 moat.

The single factor that most locks Intel’s hardware into the sockets that sit on the blades that slip into the racks that line the rows of just about every data center on the planet is the x86 moat. Just about every piece of software in the universe was written and optimised for the x86 architecture. There are billions and billions of lines of code out there working every day that have been debugged and tested and proven to work reliably (well, as reliably as software gets, anyway) on Intel’s architecture.

Before any attacker can hope to displace the incumbent supplier, they have to convince the customer that changing processor architectures is really not that big a deal.

Well-designed fortresses are very good at protecting against the expected. For the fortress to be truly at risk - for Intel’s position in the data center to be realistically challenged in a meaningful way - we would need to see a sea change - an event that profoundly alters the nature of the game - a discontinuity.

FPGA-based acceleration is that discontinuity.

If the creation of heterogeneous processors with von Neumann machines sharing the workload with FPGA-based accelerators can improve energy efficiency in the data center by orders of magnitude, we have a compelling event worth an incredible amount of money - and trouble.

End of excerpt


FPGA Hardware
Sarsen Technology supplies and supports a wide range of hardware based on both Xilinx and Altera FPGAs, and can also supply a full range of software development tools and software drivers to get your FPGA system to market on-time and on-budget - www.sarsen.net
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