First Look At Intel Tejas & Socket 775

Anonymous Indian writes "The snoops at Anandtech have unearthed some details and photos of Intel's rumored Tejas 90nm CPU which draws 150 watts of power, a 50% jump compared to Prescott. It's also got an interesting locking mechanism instead of the traditional metal clip from hell for most processors." There's not much info beyond the photos, but it's still interesting to see what lies ahead for Intel.

And this is interesting why?

[Pike]

The both the slashdot sum-up and the linked article fail to explain why, exactly, I should be excited about this.

Re:And this is interesting why?

[alexatrit]

My thoughts exactly. The power consumption is the only thing going for it, and it's understated as it is.

AnandTech: Here are pictures of the thing. We don't have a clue what it does or how it works, but we presume that the extra power draw is part of Bush's Mars Mission.

Re:And this is interesting why?

[Ralph Wiggam]

The dominant CPU maker is releasing a new CPU and a new socket. That's news for nerds. It may not be the most exciting news for nerds ever, but it's still news. The 150 Watt consumption is somewhat interesting.

-B

Re:And this is interesting why?

[dslbrian]

The 150 Watt consumption is somewhat interesting.

The real question is how freaking big and loud is the cooler that has to deal with 150W???

Re:And this is interesting why?

[timeOday]

I think it's a time for a little steam turbine on top of the CPU to pump electricity back to the motherboard's power lead - "Regenerative Computing" :)

Re:And this is interesting why?

[hxnwix]

Well then, please cease diluting the fine discourse of those who do care about next generation technology.

Comment removed

[account_deleted]

Comment removed based on user account deletion

Re:And this is interesting why?

[topham]

While trollish, I'll take my G5 with 9 fans over my PC with 3, it's a fraction as loud under normal usage.

Actually, I can barely hear it at all.

Re:It has no pins

[Anonymous Coward]

And it also may approach the heating capacity of an AMD chip

No. It's much higher. The 'super-hot Athlon' preconception is way way out of date. It was true comparing Athlon "Thunderbirds" with PIIIs, but hasn't been true since the P4 - the 2GHz Willamette and 3.2GHz Northwoods both dissipate more power than any Athlon.

The first Pentium was a stripped-together combination of 2 486-like CPUs

No. You're trying to describe superscalar-ness but not succeeding. The Pentium was the first superscalar x86, having two integer pipelines. All modern x86 CPUs are superscalar (except the VIA C3). Superscalar-ness is not CMT/multicore. CMT appears as multiple CPUs to software.

Re:It has no pins

[Jeff DeMaagd]

The first Pentium was a stripped-together combination of 2 486-like CPUs, with shared parts. To describe this as "two discreet Prescott cores on die... sharing data caches and maybe other units..." brings together this similarity.

The closest is the Pentium Pro and it had separate cache and core dies, NOT two separate cores, but that was converted later to cartridge (PII) and then later all on one die (later PIII). I doubt that Intel produced an original Pentium anything like this, or in a dual core manner.

Re:And this is interesting why?

[bhtooefr]

Intel desktop and server processors. Have you looked at the Pentium M lately? By the way, I didn't think the Athlons ran exactly cool (cooler than any Intel desktop CPU nowadays, though).

That latching thing...

[wampus]

Looks like a German dental tool.

Re:That latching thing...

[chunkwhite86]

Looks like a German dental tool.

Actually, the Germans are known for their skill with machined parts and their engineering prowess.

This looks more like a dental tool from .

Now before you mod me a troll for bringing up Soviet Russia again, let me teach you something. In Soviet Russia, a manufacturing facility's productivity was measured not by the number of units sold, or by customer satisfaction. It was measured by the quantity of raw materials used. The problem with this, is that quality immediately goes down the toilet, and raw material consumption goes through the roof. A soviet era farm tractor, was so unreliable - but contained so much steel - that when Jonev Vladstov (That's John Doe in Russian) bought a tractor, it was worth MORE if he melted it down and sold the steel than it was as a tractor! That's called 'negative value-add' in the economic world, and that's why those old 'In Soviet Russia...' jokes use role reversal as their humor mechanism - because Soviet Russia really was backwards.

Intel Tejas. There. Now this post is not off topic.

Worse than that

[devphil]

were the late 80's and early 90's, when the ruble was so worthless that people would melt down the various denominations of coins, and get more money back for the metal ingot.

And at 150 watts, you could probably do the melting on top of one of these new CPUs.

Re:This is actually a troll, even so

[chunkwhite86]

It's patently obvious that, in the context of the Soviet Economy, Ivan Ivanovitch would not have been better off melting down his tractor because (a) he didn't have access to a smelter and (b) it wasn't his tractor, it belonged to the collective and (c) there was no internal private market for steel and (d) he would have been shot for economic sabotage.

My tractor example was a hypothetical. I was not implying that soviet farmers spent their days melting tractors for money.

I was illustrating an exam

Re:That latching thing...

[Fiveeight]

Is it safe?

So much power

[Anonymous Coward]

So much power use from the first 90nm process cpu? There can be only one reason for this... the rumored twin core intel CPU. Let's see how hyperthreading run's on THIS baby!

Re:So much power

[Anonymous Coward]

you mean the second? G5...

Re:So much power

[Hoser McMoose]

The G5 at 90nm may have been announced by Apple, but it's not yet shipping from what I can tell. Given traditional Apple schedules, it will actually start shipping in one to two months time, or roughly the same time frame as Intel starts shipping their first 90nm processor (Prescott, not Tejas, that's a future chip not scheduled for 9+ months).

Re:So much power

[Hoser McMoose]

Err, not if you're me apparently. I just went through the Apple Online store and brought up the configuration of a bog-standard dual-processor G5. Estimated shipping time, 6-8 weeks. Tried again for the single-processor system with the same result, 6-8 weeks.

Re:So much power

[chunkwhite86]

So much power use from the first 90nm process cpu? There can be only one reason for this... the rumored twin core intel CPU. Let's see how hyperthreading run's on THIS baby!

Mod parent as troll.

Hyperthreading and dual core are two different thing. Hyperthreading places two execution units with the same CPU core. It doesn't work very well. Dual core cpu's have two complete cpu cores inside one 'chip' package. Effectively, a dual-cpu machine 'on-a-chip'.

Re:So much power

[Jesrad]

I don't see why Intel wouldn't try to benefit from both technologies and offer a processor with HyperThreading AND dual-Core.

Dual core hyperthreading...interesting...

[UPAAntilles]

I can see them trying, but I don't really see it. Hyperthreading as it is generates a lot of extra heat that isn't exactly proportional to the performance gain (I've noticed this on my own 2.8C). I know there are some dual Xeon systems that have hyperthreading enabled, so they must have partially addressed the problem the inquirer put as... [theinquirer.net]

"An instruction thread might well favour one kind of execution unit, but who's to say the other threads, the ones that are running in parallel with the 'troublesome'

Re:Dual core hyperthreading...interesting...

[Dan Ost]

There's also the issue that stardard operating systems don't support 4-way systems for residential computing.

Residential computing? Please explain what you mean by this.

We've got several machines with dual CPUs with hyperthreading enabled on each
and Linux (red hat 7.3 with stock kernel) seems to have no trouble handling "4"
CPUs.

Re:Dual core hyperthreading...interesting...

[UPAAntilles]

Computing at home-the average user that buys the preconfiged DELL, HP, Gateway, Apple, and Sony boxes

Re:Dual core hyperthreading...interesting...

[bhtooefr]

Windows XP Home supports (AFAIK) one CPU (HT won't work), XP Pro supports two CPUs (two actual CPUs, or one HT CPU), Server 2003 supports a shitload of CPUs (can be as low as four, however).

wtf?

[autopr0n]

Mod parent as troll.

Why should it be modded as a 'troll'? just because it betrayed some lack of knowledge about CPU design? I think your post should be modded as troll.

Re:So much power

[javiercero]

Actually you too are wrong: Hyperthreading allows multihple threads to be active per functional unit. I.e. you could have 2 threads active in a single functional unit, you do not need 2 functional units to have 2 threads active. Hyperthreading does not imply parallel execution as you implied before, it basically means that as soon as one thread stalls in a functional unit there must be at least another thread that can be brought right away to keep that functional unit from stalling.

Re:So much power

[be-fan]

Mod parent as stupid.

Hyperthreading and dual core are two different things. Hyperthreading places no extra execution units within the same CPU core. It simply splits up the existing execution resources, and adds a few extra registers to keep track of two instruction pointers, etc. It works quite well, for what it does, which is to make better use of a CPU's existing parallel resources. It is not a replacement for SMP.

Hyperthreading? No...

[UPAAntilles]

Well, maybe, there have been problems with heat at the 90nm mark, though there are rumors that Tejas might use dual cores [theregister.co.uk] However, the hyperthreading thing would be a bad idea. It would mean that you have 4 logical processors, instead of 2. And with 4 threads running in parallel, there's a good chance that a lot of the time, 2 of those 4 will be identical. All hyperthreading would generate is too much heat.

Re:So much power

[BitchKapoor]

To say that SMT is "IBM's version of HyperThreading" is backwards-speak. Simultaneous MultiThreading (SMT) is actually a generic term for any technique which multiplexes threads on a single CPU core by allowing any thread to use any available resource during any clock cycle. HyperThreading (nee Jackson Technology) is Intel's name for their implementation of SMT -- see http://www.intel.com/technology/hyperthread/ [intel.com].

From my description of SMT, you might conclude that it is able to make the fullest use of CP

Different locking mechanism?

[Phosphor3k]

Looks like the same arm I've seen on every other socket motherboard.

Take a closer look...

[orthancstone]

In the pictures, it locks down on the left side and the mechanism covers the CPU. Not many sockets I've seen in the past few years use that, so you must be seeing some special motherboards...

Re:Different locking mechanism?

[CaptBubba]

It looks to me that the CPU itself doesn't have any pins on it, just little gold contacts. The motherboard has all the pins on it, and the locking mechanism is really just something to hold the CPU down against those pins to make contact.

That's quite different from the standard today where the arm locks the pins of the cpu into the socket of the motherboard. I could be wrong, but that's what I think I see in the pictures.

150 watts of?

[dave1g]

Is that dissipated heat?

If so, ouch! that system is gonna need a huge heat sink or water cooling will be needed.

I would loves to see standardized water cooling parts for computers.

That way all you would need to do is buy the hosess and your favorite pump.

Re:150 watts of?

[Jesrad]

Bah, that's nothing. My 2.4 GHz microwave oven can dissipate up to 1000 Watts !

Re:150 watts of?

[Waffle Iron]

Bah, that's nothing. My 2.4 GHz microwave oven can dissipate up to 1000 Watts !

But microwaves use expensive and smelly burrito heat sinks that only have a service life of about 5 minutes each.

Re:150 watts of?

[temojen]

Is that dissipated heat?

Unless it emits light, moves rocks uphill, accellerates your car, or charges one whopper of a battery, yes, that's dissipated heat.

It's called conservation of energy. Here is a NASA page [nasa.gov] explaining it. It's not rocket science, but it is important to understand for building rockets, bicycling, etc. Along with Conservation of Mass [nasa.gov] and Conservation of Momentum [nasa.gov] it forms the trilateral commission that keeps us all from building those "free energy" devices I keep hearing about.

Re:150 watts of?

[temojen]

Isnt there work being done than giving off heat???

Changing the state of a bit is work. Changing it back is un-work. This results in zero net work. At least that's how my professor explained it.

Re:150 watts of?

[tomstdenis]

I'm not an EE but this explanation seemed decent to me.

A 2,1 gate [say NAND] takes two inputs of X1 and X2 current [and V1/V2 voltage] and emits a single output that is less than the sum x1+x2, v1+v2. That energy has to go somewhere.

Also transistors work by pushing current "uphill" [e.g. resist current until switched on] the act of forcing electrons "against the grain" [e.g. against a negative base] generates heat much like a stove element generates heat.

Tom

Re:150 watts of?

[jrockway]

> That energy has to go somewhere.

Umm, maybe to ground?

Re:150 watts of?

[tomstdenis]

Maybe to activate the switch? Transfer Resistor.... transistor...

hmm.. Could catch on.

tradition

[awing0]

Regarding those metal clips from hell, I've always wondered why Intel and AMD never followed the examples of Alpha, Sun, SGI, etc. machines. They usually have bolt on heatsinks that either bolt the CPU and heatsink together or sandwich the CPU between the mainboard and the heatsink.

It takes care of the flat head screwdriver ruined mainboard, and there are no clips to break off the socket itself. I'm glad they are finally changing the way x86 sockets work.

Re:tradition

[chunkwhite86]

Regarding those metal clips from hell, I've always wondered why Intel and AMD never followed the examples of Alpha, Sun, SGI, etc. machines. They usually have bolt on heatsinks that either bolt the CPU and heatsink together or sandwich the CPU between the mainboard and the heatsink. It takes care of the flat head screwdriver ruined mainboard, and there are no clips to break off the socket itself. I'm glad they are finally changing the way x86 sockets work.

Because some l33t h4x0r would over torque the

Re:tradition

[Hoser McMoose]

Err, have you ever installed a P4 or an Athlon64/Opteron processor? They DO use locking mechanisms to sandwich the processor between the motherboard and the heatsink!

Re:tradition

[iMMo]

The interconnect used for Sun's USIII CPU is not something that anyone at home would be able to deal with. There's a socket, the CPU, then a mylar pad, then a bolster plate and then the heatsink. The heatsink needs to be torqued down with a precise amount of pressure, or else the CPU can't make electrical connection through the socket to the board.

You need some relatively major tooling just to get it connected in just the right way, with no carpet fibers or hair in between the CPU/Socket or Socket/Basebo

Re:tradition

[ColaMan]

Why not run a small heatpipe through the board and radiate some in the cool air underneath?

Its a problem when you've got 500 connections to a CPU going through a 5 layer circuit board to all parts of your motherboard - there's no physical (or electrical!) way to clear some space for a heat pipe under the cpu. yet. :-)

Interesting

[chunkwhite86]

It's interesting to see how what was once consideres "high-end" eventually makes it's way into the consumer desktop stuff.

For example, this chip appears to use a "pinless" package design. Instead of little pins that fit into the socket, it has little ever-so-slightly raised 'nubs'. These 'nubs' simply sit on top of contact points in the socket.

This pinless design was being used by Compaq for the Alpha CPU as early as 2000, so this isn't a new packaging technology. The only problem Compaq had with it, was keeping all the little 'nubs' firmly in contact with the corresponding points on the socket. They used some sort of plastic clip design at first, which ended up with a high failure rate - not for the CPU, but for the plastic retaining mechanism itself. That's probably why intel is using that big beefy metal retaining clip.

I guess intel learned something from all those Compaq Alpha engineers they bought a few years ago.

Re:Interesting

[ImpTech]

Unless I'm way off, this is what's called a Ball-Grid Array, and yeah, the concept's been around forever. My understanding is that its really hard to mass manufacture these things so that everything lines up and has good connection. And afaik, they're of dubious benefit versus the pin socket we all know and love. Maybe someone who knows more can explain what benefit this new socket has for Intel?

Re:Interesting

[temojen]

No bent pins.

Re:Interesting

[chunkwhite86]

Bending pins on a CPU can only result from carelessness.

Right, because we all know no one has ever bent a pin. Because there are no careless computer users.

lack of pins sounds like a good benefit, particularly for mom-n-pop computer stores who accept returned cpu's from l33t h4xors who try and DIY.

Re:Interesting

[Nogami_Saeko]

I just installed a new CPU in this new machine - As I was carefully inserting the CPU into the socket, I felt a bit of resistance and had a closer look - 6 pins in two adjacent interior rows were bent marginally.

Given the location of the bent pins, it's very likely it came that way (it was a retail-boxed CPU) - in any event, it's not always carelessness...

A few tense moments with a fine exacto-knife blade and some exceeedingly gentle pressure straightened them out and allowed 'em to fit right in so I can

Re:Interesting

[WuphonsReach]

Lower vertical profile? (might be useful for things like laptop motherboards)

Re:Interesting

[CaptKilljoy]

Unless I'm way off, this is what's called a Ball-Grid Array, ...

You're way off, I think. Ball Grid Array [ezresult.com] refers to a IC form factor that has a grid of contacts on the bottom of the chip carrier. Each of these contacts is pre-filled [nasa.gov] with a small ball of solder. BGA devices aren't meant to be socketed.

Re:Interesting

[tiger99]

Quite correct, and they are almost impossible to inspect to see that the joints are of good quality, and even more impossible to replace if they fail. IMHO an utterly diabolical invention, sadly (mis)used on a lot of motherboard chipsets and other things.

The safety-critical industries dread the fact that many new CPUs (microcontrollers etc) and other vital things are now only available in BGA.

It is actually possible to get a device removed from the board, re-balled with solder, and replaced, but after all

Re:Interesting

[tiger99]

It is hard to tell from the photos, but if they are really not pins, I anticipate very serious reliability problems indeed. The design of connectors is not something where you can take liberties, and discard all previously discovered solutions to problems. The existing ZIF sockets are designed to positively clamp against the sides of the pin when you actuate the locking lever, the fixed contact as it engages also slides slightly along the pin with a wiping action. All of that is vital, and it is very necess

That much power?

[SexyKellyOsbourne]

The thing I always liked about Intel chips was their low power absorption and their low heat. Though they're a bit pricy in comparison, AMD chips were power-hungry and thus produced heat as if they had uranium cores.

Intel chips were great for Mini-ITX cube PCs if you didn't want them to burn, as they ran cool enough to easily run with heat pipe technology. They were even better for laptops, since you didn't have them draining the battery like crazy . On the regular PC front, they would famously run cool ov

Re:That much power?

[Saven Marek]

> Now, it seems like they've lost that advantage.

I think that depends what the tradeoff is. Why would the cpu have such a high power output from a 90nm process? Either it's a huge cache inside, or there is more than one core. That sounds exciting. It may be very hot running but it has the advantage of space.

Just which applications this finds use in, I cannot tell.

a macgirl web cam. live 24/7 [151.197.31.93]

Re:That much power?

[Dun Malg]

The thing I always liked about Intel chips was their low power absorption and their low heat. Though they're a bit pricy in comparison, AMD chips were power-hungry and thus produced heat as if they had uranium cores. Intel chips were great for Mini-ITX cube PCs if you didn't want them to burn, as they ran cool enough to easily run with heat pipe technology. They were even better for laptops, since you didn't have them draining the battery like crazy . On the regular PC front, they would famously run cool o

Re:That much power?

[bhtooefr]

If you actually want cool chips, get a VIA C3. If you want somewhat cool chips that perform, get a Pentium M and a PowerLeap adaptor.

Re:That much power?

[Viceice]

RTFA! Oh wait, this is SlahsDot.

Realize that this processor is a Prototype, fabbed on a process that doesn't reflect Intels true capabilities. So criticism as to it's heat dissipation is at best pre-mature and at worst, downright off topic.

Sorry to burst your bubble!

[Lispy]

Mini-ITX [viavpsd.com]boards can't handle Intel CPUs. They are designed for VIAs own EDEN CPU [via.com.tw].

Re:That much power?

[Hoser McMoose]

Err, have you bothered to check the datasheets? The P4 is hardly a cool running chip by any stretch. It may have a wider power consumption range than the AthlonXP, but when the chips were running flat out they sure didn't run any cooler.

The only reason why P4's used to run cooler than Athlons was because people would stick a 60mm x 60mm heatsink on their Athlon and an 80mm x 80mm heatsink on their P4. Both of these chips consume a lot of power, and both drain laptop batteries like crazy if you use the highest powered parts (Intel actually produces some P4 "mobile" chips with a TDP of 70W!, while AMD's brand new "mobile" Athlon64 chips consume over 60W at full throttle).

Now, the Pentium M... well that's another story altogether.

AMD Ad

[Unregistered]

Did anyone else get an Athlon 64 ad when they opened the article?

Re:AMD Ad

[herrvinny]

I got one. Bet Intel wishes they were sponsoring that site....

Tejas?

[jotaeleemeese]

He, that is the Spanish (as written on Spain) for Texas.

The Spaniards write Mexico as Mejico.

Just a tidbit for your amusement.

Re:Tejas?

[patanish]

Thats sanskrit for luminance

Re:Tejas?

[Jeff DeMaagd]

I thought Intel was using the names of rivers for their code names but it looks like it might not be true for Tejas.

why it is so .. dirty?

[Janek Kozicki]

that's my first thought when I saw the picture. Why the CPU is looking so... um.. dirty (looks like corrosion)?
I'm not an overclocker specialist, or whatever, and really I don't want to be a troll here ;) I'm just curious.

perhaps answer to this question will be modded informative (as this question itself is not ;)

Re:why it is so .. dirty?

[Roguelazer]

Probably gunk from removing the heatsink, no? I don't think they were in a big hurry to clear off the name of the inside informant...

Re:why it is so .. dirty?

[hxnwix]

thermal compound such as artic silver. ye olde white paste breaks down, dries out and leaves an insulating crust behind at high temps

Re:why it is so .. dirty?

[Dun Malg]

Why the CPU is looking so... um.. dirty (looks like corrosion)?

Probably just thermal conduction compound residue. You know, that white zinc-based greasy crap that goes between the heatsink and the chip die.

But...

[NeoGeo64]

Is it going to be 64-bit? If not, a new chip is really a waste of money.

By 2006, most everything will be 64-bit, and Intel needs to realize this and stop making 64-bit chips just for the server market.

Re:But...

[The One KEA]

Maybe new systems, corporations, scientists and enthusiasts will all be using 64-bit, but I think the vast installed base of 32-bit hardware and software will guarantee that the platform will not disappear anytime soon.

Re:But...

[benzapp]

I think the poster is referring to all new computers sold in 2006 will be 64-bit, and that is correct.

Many offices were using 286 and 8086 machines well into the early to mid 90's. That doesn't mean those machines were actually sold in 1994.

Intel already has a 64 bit solution

[charnov]

Intels 64 bit solution is the Itanium (which, along with HP, they invested around $10 Billion). Intel is in a bind in that Microsoft will not tolerate another 64 bit instruction set and Intel would be shooting Itanium in the foot to use AMD64 (which they are a licensee of).

Maybe they will support AMD64 or maybe they wont, but they will not create ANOTHER 64 bit ISA and we will not be seeing an Itanium for the average user (it is way too expensive to produce and a royal bitch to program for).

How much power?

[NeoGeo64]

1.21 jiggawatts?! Where am I going to find that much power!? It's not possible!!

Re:How much power?

[synaptik]

>1.21 jiggawatts?! Where am I going to find that much power!?

News flash: Intel to introduce new line of power supplies for use with high wattage radio transmitters, university particle accelerators, electric subway systems, and Tajos core CPUs.

But not flux capacitors? Damn... er, I mean, great scott!

How will they differentiate business ($$$) cpus

[j_dot_bomb]

If this is multi core, which I would love. How are they going to find a market segment to charge high prices for ? I want dual. But with either intel or amd its expensive. In AMD's case the board. Intel now at least has hyperthreading which should fix some sluggishness I feel. So what will differentiate a xenon if there are duals in a core ? An extra processor will mean alot less to a workstation or some servers if there is already a dual in a single core.

Re:How will they differentiate business ($$$) cpus

[j_dot_bomb]

Actually I have ECC REG for my single CPU. But not dual channel. A GIG no less. AMD dual boards are min $190 alone. Doing dual CPU without soldering hacks is expensive. Id prefer not to even use the nondual marked AMD's because of stability concerns.

150 W?

[diegocgteleline.es]

150 W? What does that Tejas thing have, a Electric Chair Inside ?

Tejas information

[Saville]

2/27/2003:
http://www.extremetech.com/article2/0, 3973,900185, 00.asp
10/11/2003:
http://www.xbitlabs.com/news/ cpu/display/200310110 84615.html
misc:
http://endian.net/details.asp?t ag=Tejas

So it looks like it will come in in 2005 instead of the original 2H 2004. It'll have 24k L1 instead of 8k or 16k like current and prescott have. When it is made at 65nm insteadof 90nm it'll have 2megs L2 instead of 1meg.

It should start eventually run as high as 5Ghz. Maybe that is on the 65nm process years from now? Bus speed should be 1066Mhz (266*4) or 1200.

It should have some new instructions in order to make life harder for AMD.

Fortunately for AMD Prescott was already supposed to be shipping at 3.8Ghz, but Intel is a bit behind on their road map too :)

Are these CPU's teflon coated...

[Lawrence_Bird]

so that consumers can also cook on them with easy cleanup?

Blocked Out?

[wideBlueSkies]

Anyone know what they blocked out in the socket picture [anandtech.com]?

What could possibly be there that they wouldn't want us to see? Or is is that they're not allowed to show us?

Re:Blocked Out?

[swankypimp]

Intel distributed ten samples of this CPU, probably under condition that you do not talk to the press. (The first rule about Tejas is that there is no Tejas.) This is likely enforced by lawyers and promises of future access to demo units. I'd guess that each CPU is marked with a number or some other unique identifier: if the ID were photographed, Intel would know who leaked the pictures of its top secret processor and could take action.

Re:150 Watts?

[Anonymous Coward]

Using a car battery for your laptop?

Re:150 Watts?

[JustKidding]

ehm, it would actually drain quite quickly. A regular car battery supplies about 14.4 volts when it's full (even though it's called a 12 volt battery), and can supply about 40 Ah, when drained slowly (less when drained quickly). 150 / 14.4 ~= 10 Amps, so it would last only 4 hours, and that's only for the CPU.

Re:150 Watts?

[mumblestheclown]

I'm sure they're thinking that this is the best way for them to get ahead in the market to deliver the cpu power that tomorrow's demanding consumer requires. they don't make any money by "wasting" electricity so I'm sure they are doing what in their best interest is a good mix of engineering and catering to consumer needs. so tomorrow's cpu uses 150w. two light bulbs. jet engines use more fuel than reciprocating ones. if they made a bad technological bet, the marketplace will punish them. life moves on.

the "lack of metal clip", however, is so exciting that I am sure that we are to see perpetual world peace from its announcement any minute now.

Re:150 Watts?

[Waffle Iron]

so tomorrow's cpu uses 150w. two light bulbs.

That's about $10/month; similar to the cost of adding a movie channel or two to your cable subscription. Something to think about for those that will use this CPU to volunteer for distributed number crunching projects.

Re:150 Watts?

[October_30th]

Well, as you said, distributed projects are about volunteering. I wouldn't say $10/month for a project like Folding-at-Home is a waste.

Re:150 Watts?

[AchmedHabib]

True, but it does put seti@home into another perspective.

Re:150 Watts?

[Anonymous Coward]

You only seem to equate power wastage in terms of your personal $s.

Try and think a little bit bigger. Think in terms of global warming, energy depletion, entropy etc.

Using less power (whatever the application) can only be a good thing.

Re:150 Watts?

[Billly Gates]

Is not the G4 40 watts?

Yikes

Re:150 Watts?

[TheSunborn]

Acording to Motorola, the 1Ghz G4 require 10 Watts. The faster ones require a bit more.

Re:150 Watts?

[Dan Ost]

How many watts does the G5 consume?

Re:150 Watts?

[be-fan]

57 watts for the current 2GHz G5. The new 90um G5s will use 71 watts at 3.2GHz.

Re:150 Watts?

[Billly Gates]

No wonder Apple laptops last so long while the windows ones need a recharge.

Re:150 Watts?

[aldoman]

The only trouble is that power usage inside computers is skyrocketing lately.

150 Watts CPU, a 100 Watts graphics card and then you have all the fans to cool it, and you'll be lucky if you are under 300W and that doesn't even factor in storage, optical drives, motherboard, audio, communication devices.

I mean you will need a hell of a power supply unit to provide that sort of power reliably.

Re:150 Watts?

[jetmarc]

> so tomorrow's cpu uses 150w. two light bulbs.

Hey! If we combine this fact with yesterdays news [google.com] we might just have solved that whole heatsink problem: just let the CPU produce light instead of heat, and then cut rectangular lightsink holes [alltheweb.com] into the case to let the light dissipate..

Re:150 Watts?

[AchmedHabib]

How about, "Time to invest in Zalman"
The P4 heatsink/fan that came with it was really noisy. But I guess that is only an issue with homebuilt PCs since my IBM P4 at work does not make any noise. I opened it to look at it and it had a no fan on the CPU but a cooling duct connecting it to a big fan at the back of the case.