There was a lot to like about Intel’s Sandy Bridge launch earlier this year. Single-threaded performance increased significantly at any given frequency. Quick Sync demonstrated commanding dominance over GPU-based transcoding from AMD and Nvidia. And, although I wasn’t over-enthused about paying extra for a K-series SKU, a mature 32 nm process easily facilitated clock rates approaching 5 GHz on air cooling.
Combined, all of those attributes took the spotlight off of Intel’s old (but still flagship) LGA 1366 interface. Even the subsequent Core i7-990X refresh, which threw six cores and a higher clock rate into the ring, wasn’t able to outperform the Core i7-2600K in enough test scenarios to warrant its $1000 price tag. The very fastest (and most expensive) Sandy Bridge-based chip could satisfy 95% of enthusiasts at less than half of the cost.
The Gulftown design’s real redeeming quality was its core count advantage, which shone most brightly in well-threaded workstation apps. But really, that was pretty much it. We even went to great lengths to show the X58’s 36 lanes of PCI Express 2.0 weren’t a real advantage over Sandy Bridge’s 16 lanes in multi-GPU configurations through an exhaustive three-part series.
At the end of the day, we had to scratch our heads and wonder how many folks would be willing to spend almost $700 more on Core i7-990X when Core i7-2600K was already so fast, and priced at $315.
But what if it was possible to cram what originally made Gulftown sexy into the Sandy Bridge mold? That’s exactly the premise behind Sandy Bridge-E, set to become the next enthusiast-oriented platform, replacing Gulftown and its LGA 1366 infrastructure.
More important than what Sandy Bridge-E is going to do on the desktop is what it’ll become in the server space. Truly, this is a design destined to drive Intel’s Xeon E5 family, comprised of 1P-, 2P-, and 4P-capable parts.
A Naming Convention, Revised
For the time being, Sandy Bridge-E is expected to reach enthusiasts in three different trims: the Core i7-3960X, the Core i7-3930K, and the Core i7-3820.
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