Intel keeps the processor chips simpler by leaving the
memory and I/O interface chores to a central memory
host controller (MHC). This has some advantages, including different system support using a common set of
processor chips. Even so, Intel and AMD have distinct families for single-chip and mobile solutions. Intel's Xeon has
larger caches and faster I/O than its Core 2 line, in addition to external cache support.
This approach doesn't dictate a single chip for the
MHC. The current crop from Intel targets two-chip solutions. This may not appear as scalable as AMD's HyperTransport approach, but it is actually a factor of the MHC
design, which is open-ended. There's no reason a HyperTransport-like approach or crossbar-switch approach
couldn't be used instead.
A possible limiting factor is the interface between the
processor chip and the MHC. This parallel front-side bus
(FSB) is wide, making the MHC a very high-pin-count device.
Pin count and board circuit-routing are major issues in system design, making systems with a large number of Intel
processor chips very challenging.