W
hoever said that technology just gets cheaper and better should have
his or her name on a plaque somewhere in Silicon Valley; because,
baby, technology just got cheaper and better.
Intel’s Core 2 Extreme QX6800 steps up the pure PC-power arms race by
offering four execution cores in a single CPU. Just two years ago, the only
place you’d fi nd such a beast would be in a midrange server box or a high-end
workstation. But today you’ll fi nd four-in-one procs in average-Joe PCs or on
the shelves of the local screwdriver shack, at civilian prices.
We take a tricorder to Intel’s new processor to answer the burning question:
Is quad core right for you?
BY GORDON MAH UNGQWhat else does Intel get from using
this method?ABesides getting quad core now, the
two-dies-tied-together strategy also helps
Intel keep costs a little lower. If the chip
were a monolithic die, every single core onthe die would have to run at 2.66GHz
for it to be viable. Because there’s always
the potential for defects in any die that
comes off the production line, such a strat-
egy would lower the overall yield of the
chips. By using separate chips, Intel can
hunt through its production run for twodual-core chips that run at 2.66GHz, which
is much easier and cheaper. It’s a little like
hunting for a four-leaf clover. If you could
engineer the ability to take two two-leaf
clovers and join them together, you could
farm a hell of a lot more four-leaf clovers
than the poor sap combing the fi elds onDECEMBER 2006 MAXIMUMPC 49
Power!
Quad
QGreat Zeus! How did Intel make a quad-core CPU so
quickly after producing its last CPU?AIntel did it using a little trick it learned when making the Presler
version of the Pentium D processor. Unlike the company’s original
Smithfi eld Pentium D that featured a monolithic dual core—two
cores on a single contiguous piece of silicon—Intel was able to put
two single-core Presler chips inside the same CPU package and
connect them after the fact. With the Core 2 QX6800, Intel takes
two dual-core Core 2 pieces of silicon and connects them inside the
CPU package to create a quad core.
Head spinning? Think of the quad-core QX6800 as two separate
islands, each with two cities. A single bridge (the front-side bus)
connects both the islands to the rest of the world (the mobo chip-
set). The cities on each island know about each other, and residents
can pass from City 1 to City 2 at relatively good speeds, but if a resi-
dent wants to visit City 3 or City 4, he has to drive across the bridge
and make a U-turn through the chipset before heading back over
the bridge to the other island.
AMD has stuck with a monolithic die approach (where all four cities
are joined on the same island and interconnected) and has slammed
Intel’s approach as a hack. Intel responds that it doesn’t matter how
you deliver the quad cores, just as long as you do. In other words:
Would you rather have quad core today at the same price as a dual-core processor or would you rather wait until the end of next year?
It’s worth noting that putting both cores on the same piece of
silicon is meaningless if it isn’t done right. Intel’s original Pentium
D Smithfi eld was a monolithic dual core, but those cores too
could only communicate via the front-side bus. It was like build-
ing two cities next to each other with an impervious wall running
down the center.Front-side bus to the motherboard chipsetCORE 2CORE 1 CORE 3CORE 4QUAD CORE: HOW IT WORKS
The two dual-core chips that form the quad QX6800 commu-
nicate with each other by circuitous means.