Intel Plans A Common Socket For Xeon, Itanium
stonedonkey writes "According to EE Times, Intel is planning a common system platform for the Xeon and Itanium by 2007, "creating a unified 64-bit motherboard with a new, one-size-fits-all socket." Intel's Jason Waxman says , "It has been something that customers have been asking us for for a while now...the reseller [currently] has to have an inventory of both boxes on hand." Feeling the heat from the competition, cutting losses, or just friendly customer service?"
While it's nice to know that they're planning on doing something that will take away a few more headaches, whose to say that this will ever get out the door and to the consumers?
I imagine Intel wants a polite way to keep the Itanium on the books for very special applications and to save face. Zeon will, at least in the near future, be the processor of choice and a common socket will keep it from eclipsing the Itanic.
There might even be a chance that the market will change enough to want the Itanic, but not if they have to maintain specialized hardware for a currently very niche market.
LS
It's not admitting defeat, it's getting rid of something that hasn't made much sense.
The Xeon line has traditionally been both the more lucrative and the more "stable" line, on the idea that businesses wanted long-term stability. When you bought a Xeon motherboard, you knew that it would be compatible with some of the upcoming Xeons in FSB and slot, and with a VRM module, even for different voltages.
A very large side-effect is that the Xeon line was tied to slower FSB/memory rates, and a lot more expensive. In reality, most people don't upgrade their Xeon chips - they move to a new architecture (P2->P3->P4, etc.)
Looking at the P2/P3 Xeons, it was long after the shift to a 133MHz FSB when the Xeons played catch-up. And it's just now that the P4 Xeons are getting away from the 533MHz FSB.
So, they're taking their most expensive, most lucrative processers, and hindering the performance. While it worked while Intel was the 800-pound gorilla (and you had no other choice in 2-way, let alone 4-way machines), that's no longer the case. There's competition in the market - good competition. It was a real kick in the pants to shell out $5000 to $15,000 on Xeon systems that had a slower FSB than the $500 desktop counterparts!
So, now, they're going to have to do the sensible thing: Start giving actual performance in exchange for customer money. Rather than have the "high-end bus" and the "low-end" or "mid-range" bus, it makes a lot of sense to just have all of them use one bus design - theoretically, a fast bus.
The Athlon bus was designed so that you could, in theory, plug an Alpha into an Athlon board
I really don't think that was the idea. AMD was looking for a front-side bus design, and Intel's wasn't an option. The Alpha design was available for the right price, and so it was used.
Do you believe that x86-32 BIOS code is going to work to get an Itanium CPU
I believe that Intel has already stated that they want to make some radical changes to the way the BIOS works.
Sorry, Intel; I'd say that this is the beginning of the end.
Unless they're able to really shift direction, I'd agree.
steve
Oh, you're not stuck, you're just unable to let go of the onion rings.
AMD has lots of processors that do both 32-bit and 64-bit. Problem is the number of different sockets out there. This means you need to change your motherboard everytime you switch from one socket to another - big expense and something that makes u think a lot about which socket u want.
Intel says...use our 64-bit procs and you won't need to change the socket. This is a marketing thing. I don't think there will be much of a performance difference if the socket is changed. But it makes things more convenient for the customer.
Now, if AMD had done this...they would have grabbed market share. It might still not be too late to unify the sockets...but then it looks like it will be more difficult for AMD given the differences in the processors available across their entire range.
Find a job you like and you will never work a day in your life.
no, even for that, IBM Power5 CPU got better SpecFP score.
And when you compare with all the factors, it doesn't mind if they're faster than opteron if they cost 4x the price and takes 2x the power (and generate 2x the heat).
#include "coucou.h"
Not that slaping together server hardware is that dificult
It's not as easy as you might think. Maybe the dual proc you set up for the small biz you work for was simple, and it is, but that really doesn't qualify as a server anywhere near the league of an Itanium. Even high-end Dell machines go through a lot of QA to ensure the hardware and it's drivers play nice together. When you're talking about a $100,000+ machine with major support contracts and liabliity concerns - "slaping together server hardware" really isn't.
wouldn't you want boards that are optimized for use with either Xeon OR Itanium?
In this order, I want:
1) Stability
2) Performance
I don't care if the board is optimized for the Apple II. If it runs Itanium with equal or higher stability and equal or higher performance of the next best thing - I'll buy it.
Wouldn't creating compatability on this hardware reduce its performance? Or is this a non-issue?
Well, it's too soon to tell since nobody has one of these boards. And this is only a "plan" so it still may never happen. But I suspect the answer is "not necessarily."
If you can do tricks like this, then I would think there is hope you could create a board like this and not suffer any performance problems. (But I am not a chip designer so who the hell am I?)
If I remember correctly the reason why the Athlon and P4 have different sockets is because the two use radically different FSB technology, and between the Athlon 64 and P4 it would be nearly impossible.
Moving to their own socket was perhaps one of the best decisions AMD made for the Athlon, it allowed them to create their own technology instead of having to follow Intel's lead as far as motherboard design goes.
Of course to top it all off Intel claims that all of its bus technology is "proprietary", this is why nVidia hasn't made an nForce chipset for the P4 yet. AMD on the other hand has a much more open policy and actively encourages 3rd party motherboard and chipset makers. A policy which has worked very well for AMD to date.