Linus Has Harsh Words For Itanium

Anonymous Coward writes "As a follow up to the earlier story "Intel: No Rush to 64-bit Desktop"... In words that Intel are likely to be far from happy with, the Finnish luminary has stuck the boot into Itanium. His responses to some questions on processor architecture are sure to be music to AMD's ears. Linus, in an Inquirer interview concludes: "Code size matters. Price matters. Real world matters. And ia-64... falls flat on its face on ALL of these."" Of course, Linus works for a chip maker ;)

Re:Linus too Harsh

[Dynedain]

As I recall, the IA64 isn't designed for the desktop user... In fact, desktop users probably don't even need 64 processing for a number of years still....

I need more than 4GB RAM (3.5 if I want it stable) for video editing and 3D rendering.

AMD is developing their 64bit chipsets with the desktop market in mind, as well as the server market. Intel has forgone the desktop, which will turn out to be a huge blunder. Especially when its already a determined fact that the 32bit emulation mode on AMDs line slaughters the 32bit mode on the Itanium.

Re:Linus too Harsh

[Amiga+Trombone]

But, isn't one of those situations he mentions in the interview (namely, running a large database server) what this chip is designed to be doing?

Sure, but it doesn't really do it significantly better than some of the more common RISC architectures (Sparc, Power, Alpha), and it's a lot more expensive.

As I recall, the IA64 isn't designed for the desktop user... In fact, desktop users probably don't even need 64 processing for a number of years still....

Probably not, but a lot more desktops get sold than high-end servers. If AMD manages to get a toe-hold on the desktop with their 64-bit solution, the chances are a lot better x86-64 will migrate up the food chain than ia64 will migrate down.

Perhaps we need to be more fair in the context of the usefulness of the chip, instead of considering it in all contexts and criticizing it based on that?

Well, that's the point. How useful is it really? What compelling reasons are there for using it in place of a x86-64 on the low end, or something like Power or Sparc on the high-end? All things considered, it really isn't a bad chip. But it is a solution in search of a problem.

And Itanium prices are just insane!

[MtViewGuy]

I think the problems with the Itanium boils down to this:

1. The CPU's are insanely expensive. They make the majority of x86-architecture Intel Xeon CPU's look like a bargain.

2. Where are the server applications that take advantage of the Itanium CPU? They're not exactly widely available, to say the least.

3. Programming for Itanium is still a somewhat iffy proposition.

Meanwhile, AMD's Athlon 64/Opteron offers these advantages:

1. The CPU will definitely NOT be insanely expensive to purchase.

2. Programming for the AMD x86-64 architecture is not going to require kiboshing a bunch of legacy programming tools and starting from scratch--it is a straightforward process to convert today's programming tools to take full advanratge of the x86-64 native mode.

3. Because the programming tools are so readily available, both operating systems and applications for the Athlon 64/Opteron will be available widely by the time the new AMD CPU's are finally released for sale. Already, UnitedLinux is porting Linux to run in x86-64 native mode, and Microsoft is very likely readying versions of Windows XP Home/Professional and Windows 2003 Server that will run in x86-64 native mode.

Meanwhile, Intel supposedly has a 64-bit x86-architecture CPU codenamed Yamhill that has developed. However, given we don't know how Yamhill implements 64-bit x86 instructions Intel will have to do some VERY serious convincing to Linux kernel programmers and to Microsoft to write Yamhill-native code--and Intel is far behind the AMD efforts.

Depends on your point of view if Itanium sucks

[demachina]

The key point about Itanium is that it is a horrible general purpose processor but it is a serious contender to be very good processor for supercomputing. It has very good floating point performance and the EPIC architecture is designed to be very good on Fortran, especially vectorizable Fortran which is very prevelent in HPC applications. What Linus said is correct in the context of Itanium as a general purpose processor, but its doesn't give Itanium the credit its due as a floating point supercomputer which is the only place its going to sell and is what it was designed for.

It will probably never be very good for most C and C++ apps. Pointer aliasing in particular will give the Itanium compiler fits. Unless you manually tell the compiler there are no two pointers accessing the same memory the compiler can't safely or effectively pack the parallel instructions in the VLIW and that is the essential to good performance in VLIW.

You do have to really question the sanity of some execs at Intel and HP for spending the staggering sums they've spent on Itanium. Supercomputing just isn't big enough a market for them to have any chance to recoup their investment in our lifetime and they aren't going to sell it in to the mass market as Linus said.

For a general purpose 64 bit processor to run existing C and C++ applications AMD is going to win hands down. But as many have noted its not likely most people are going to really need a 64 bit processor anytime soon so Intel will probably do just fine selling 32 bit x86 processors for a while.