Rarely have things looked as good for Intel as they do right now. Exactly 18 months after the introduction of Intel's highly successful Core 2 CPUs, the chipmaker is updating them. It is shrinking the structures from 65 nm to 45 nm (Penryn refers to Intel's new family of 45 nm CPUs, dual and quad core), and is already preparing the next step: the transition to the Nehalem platform. However, that's all still in the future, and won't come to pass until the end of 2008 at the earliest.
The revision of the Conroe architecture - in order to boost its performance, incorporate new instructions, and, most importantly, reduce power consumption - is right on schedule. Until now, Intel's Core 2 processors always played second fiddle to AMD's Athlon 64 X2 processors when it came to power consumption, at least in idle operation. That was also the reason why we built our Solar-Powered PC around an AMD platform. However, this situation has changed with the Penryn core of Intel's Core 2 Extreme QX9650.
Simultaneously, Intel has also made radical changes to its production process, breaking with the conventional method. Instead of producing MOSFET transistors inside the CPU via the conventional silicon-oxide technique in use since 1960, Intel now fabricates the transistors using a new High-K Dielectric technique. As a result, the Penryn core has improved over the previous CPU generation in several ways.
Before we begin, we should note the following about our tests. Since AMD was unable to supply us with a 4x4 system, we are using AMD's fastest dual-core processor, the Athlon X2 6400+ Black Edition, for this comparison instead. Of course the complex dual-socket system has practically no real presence in the market, but we nonetheless feel obligated to mention it, just to be fair. Also, we want you to understand why we are comparing Intel's quad-core CPU to a dual-core processor from AMD. For now, since we don't have any alternatives, it's the best we can do until Phenom arrives.
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