52 MAXIMUMPC DECEMBER 2006
Extreme X6800 runs at 2.93GHz, while the
quad-core Core 2 Extreme QX6800 runs
slower, at 2.66GHz. Today, most desktop
applications are single-threaded—and the
handful of today’s multithreaded apps are
optimized to accommodate two cores—so
that 300MHz gap gives dual core a per-
formance advantage. Of course, when
running true multithreaded apps (which
will become increasingly more common)
or running multiple single-threaded apps,
quad has the advantage.QSo you’re saying that quad won’t
make multithreaded applications such
as Quake 4 or Premiere Pro 2.0 run
faster?AThat’s the tricky part. With the move
to quad core, we’re back in the same posi-
tion we were last year, when people had to
choose between the higher-clocked sin-
gle-core CPUs and the slower dual cores.
A majority of today’s multithreaded appli-
cations are optimized for dual cores and
simply don’t run enough threads to keep
all four cores chugging on the QX6800.
Quake 4, for example, uses two threads
and runs much faster on a dual core than
a single core, but it runs slower on the
lower-clocked quad.QDoes that mean I should get a dual
core instead of a quad core?AThat depends on your specifi c
needs. If you need the fastest CPU for
most of today’s apps, the Core 2 Extreme
X6800 is still the ticket. But remember,
application and game developers are
continually updating their code. Today’s
games might be single-threaded, or at
best optimized for dual cores, but tomor-
row’s games will likely support more than
two threads. Ritual, the developer of the
upcoming game Alan Wake, says it will
take full advantage of a quad-core proces-
sor in its game engine.
If you want our opinion, you should
look to the future, and not the past. And
let’s not forget the old multitasking argu-
ment. Remember how you could suddenly
encode a video and play games when you
went from a one core to two? Well, by
going to four cores you can encode a video
using a multithreaded encoder, run a batchprocess on your digital images, and play a
game without bottlenecking the CPU.QWill Windows and my applications
work with the quad core?AMicrosoft doesn’t ship a four-CPU
version of Windows XP—quad CPU support
has been limited to the server versions of its
OSes. But that shouldn’t matter, because
the company follows the industry-standard
“per socket” defi nition of a CPU. The OS
only cares about how many socketed pro-
cessors you have, not how many cores each
processor has. Windows XP Home is limited
to a single socket, while XP Pro supports
two sockets, so either edition of XP will work
fi ne with quad core. Windows Vista will also
work just fi ne with quad core.
Some application vendors, however,
charge extra for multicore versions of soft-
ware, although most are adopting the per-
socket policy.QIntel touted energy and thermal
savings with Conroe; is the QX6800 a
cool chip too, and does it overclock like
the Core 2 Duo?AIntel rates the QX6800 as a 130-
watt processor—the same as the nuclear
Smithfi eld and Presler CPUs. Even scarier,
Intel shipped our review unit with a fan that
spun at about 6,000rpm to prevent any
unintentional thermal throttling impacting
performance. We’ve received inconsistent
answers from Intel offi cials when asked
about the thermals on the chip, but one
person did say the quad should run signifi -
cantly cooler than a Presler or Smithfi eld
Pentium D chip. Intel says you should planyour cooling for the 130-watt rating, which
should include headroom for enthusiasts
who like to overclock.
The chip does overclock fairly well. In
casual testing, we ran our proc at 2.93GHz,
a minor 10 percent clock boost, and didn’t
experience a single hiccup in any of our
benchmarks. OEMs we’ve talked to say the
samples they’ve tested will run at, or slightly
higher than, 3GHz—and that’s being conser-
vative. To give you an idea of how confi dent
some vendors are of the quad, a few have
already told us they plan to sell the proc
overclocked. Intel actually demonstrated a
quad running at 3.73GHz at its developer
forum, so quad is looking promising for
overclocking, if you can keep it cool. And,
as always, none of the Extreme CPUs are
multiplier-locked.Q What’s next from Intel?
AIntel’s next move is to shrink its
fabs from 65nm to 45nm. The move to
45nm will be timed with the CPU code-
named Penryn. Not much is known about
Penryn, but it will be more than just a die
shrink of Conroe. After two years of AMD’s
dominance, we expect Intel to make further
microarchitecture enhancements to stay on
top. The chatter around the campfi re is that
Penryn will be a dual-core processor. The
sequel to that, code-named Yorkfi eld, will
be a monolithic quad core—four cores on
a single piece of silicon. Thus, we’d expect
all the cores to communicate directly with
each other within the chip, rather than talk-
ing across the front-side bus. Budget buy-
ers will also get their quad cake next year
when Intel introduces its Core 2 quad CPUs
at lower clock speeds and possibly smaller
L2 cache sizes than the QX6800.Intel Core 2: Dual vs. Quad
CORE 2 EXTREME X6800 CORE 2 EXTREME QX6800
CLOCK SPEED 2.93GHz 2.66GHz
CACHE 64KB L1 / 4MB L2 128KB L1 / 8MB L2
EXECUTION CORES 2 4
TRANSISTOR COUNT 291 million 582 million
DIE SIZE 143mm2 286mm2
PROCESS 65nm 65nm
TDP 75 130Quad Power!Quad Power!Quad Power!