Cooler Chips Incoming: Intel's Investments

Poland is an integral part of the EU, so there is no way avoiding EU duties. The EU countries all apply the same tariffs to goods imported into EU territory from the rest of the world, and apply no tariffs between EU countries. The only reason to go to Poland is cheap labor and cheap ground.

​@@bertnijhof5413of it goes from Ireland to Poland to EU markets they might avoid tariffs they would get if it was packaged outside the EU.

@@bertnijhof5413 There are always internal loopholes with something like the EU. The central body of the EU isn't a strong federal government like the US is. The EU is more akin to the early United Confederate States of America that existed between the end of the Revolutionary War to the adoption of the US Constitution. This is just how business has always worked.

@@bertnijhof5413 Just how daft are you? Thats the point! They bring the chips into the EU and package and distribute them in Poland claiming a massive value add. That way they avoid taxes on EU shipped chips

@@mycosys Ok, but Poland doesn't have low taxes. Why wouldn't they do it in Ireland?

The absolute limit is pretty far out however the practical limit is currently holding us back a bit even today.
What a lot of people miss is that software often lags behind hardware. If CPUs, GPU nodes completely stagnate today.. we would still be seeing plenty of uplifts due to software optimisation for years to come as well as plenty of efficiencies pulled out of the same node.
CPUs and GPUs today would make me a happy gamer for the next 40 years so long as they don't intentionally make games harder to run in order to sell new hardware. (Yes, absolutely this is the market today)

​@@christophermullins7163 maybe in some cases but for the most part game devs don't have any interest in forcing people to buy GPUs. studios do, however, have an interest in having the best graphics (=most marketable) while investing the least possible dev time (=less cost & shoddy code). it's the same across all of software so long as faster hardware keeps coming out.

​@@christophermullins7163they make games better because the hardware exists to run them, not just to sell hardware. 40 years is a long time to be stuck on current hardware. As amazing as games are today, they'll be better in the future because better hardware is available. Less than 40 Years ago the orginal Nintendo Entertainment System came out. Another 40 years we'll look at todays games like we consider NES games now, because new and improved hardware will make it possible

@@christophermullins7163
> oops, your garden variety toolchain now requires optimizations made upon the latest generation or two of silicon! Do not go past go and do not collect $200.

You might be right when it comes to desktops. But I can definitely see Microsoft taking advantage of intells 2d transistor tech for their 2 in one Laptops like the surface pro. Apple has been mauling Microsoft in the light laptop/ tablet market.
So Microsoft would gladly buy up large numbers of an intel mobile skew that could trade blows with apple silicon. Since Apple silicon has a monstrous edge in power consumption, and thermals due to the inherent advantage of ARM chips.
But that 2d transistor technology could help intel compete with apple silicon. Which would, in turn, give Microsoft a chance at taking back the mobile computing crown.

Amen to this. My gear is hilariously old by comparison, but it's new enough that either it idles low or stays off most of the time, and I'm sure not paying for ipc I don't need that costs me even more.

These chips probably aren't aimed at the gaming market, but the server market.

AMD has a problem in idle or middle tasks, uses to much power

@@nivea878 Then the motherboard bios isn't configured correctly.

Ah, yes, TSMC's marketing was so good, it convinced Intel to buy some capacity from them.

That's my office! It is also a storage cupboard. And a test area. And an editing suite.

Peltier junctions generate heat. Only if they were at the edge of the chip could they move the heat out.

Vertical integration.

As long as there are computer chips, there will be intel as a leading provider.

Thank God, I'm not alone in going there. 👍

Been hanging out in the creator green room for lunch 🤣 look at Asus booth around 2pm

I was under the impression they've been breaking or challenging historical revenue records consistently

*The black knight has entered the chat with African swallows.*

​@@orthodoxNPCIntel is at around 2016 level revenue now so there has been decline for a while. It is still one of the largest and most diversed companies in tech hardware space though.

@@innocentiuslacrim2290 And soon they will have a lot of foundry capacity.

... yet...

TBF TSMC is about to build a new fab in Germany Dresden & also Japan Kyushu & on top of having moved one of their fabs to US Arizona already.

And the 3090 as well. Ampere has some massive transients.

Transistor sizes are nonsense now and will continue to be so

Computing on a single atom has been demonstrated a lot of times in the labs. So it is feasible both on theoretical and practical level. The question that remains , is when we will have the engineering capacity to produce such chips en masse.
What is still speculative, however, is if we can compute on a subatomic level. We'll, as crazy as it sounds some scientists at the extreme of theoretical
computation, even think of this!

Probably because the density is getting higher. 7nm -3nm etc.

Because density is going up and smaller nodes are just harder to make. You want a good node, you pay for it. Older nodes can be really cheap, like the node used for MTL interposers and the more mature N6 node AMD uses for N33 rather than the N5 node for N32 and N31.

Truer words have never been spoken

It's a simple burning of the fat to survive lean times. Their quarterly earnings report shows they're not falling any further behind on their product/node timelines, so by the end of the year they should have stopped diving.

This is starting to look like what GE did.

Fortunately, it’s only in data center… for now.

No need to choose only one of these.

@@whyjay9959 Indeed. It’s likely Intel is busy working on both power and cooling efficiency, what with Arrow Lake being purported to have only E-Cores, with no Hyperthreading.

Uh, you do realize that performance per watt improvements is largely achieved through transistor scaling, right? Is "5 nodes in 4 years" not fast enough, and 10s of billions of dollars not significant enough an investment?

@@Moonspec Is it fast enough or not will be decided through competition. Besides transistor density matters architecture and they are slow in both cases

Novec and Fluorinert are families of compounds from 3M, and the Fluorinert product line falls under the Novec branding.

less mechanic parts then thinner devices

This is research hardware for HPC. Not your gaming crap. Keep that at home.
If you want 65W, set your motherboard to run at 65W PL1. That's an option on Intel, AMD AND Nvidia GPUs and CPUs.

In my political view :D it's just a political desicion. why does US let German talents build their own CPU ?

Search Intel Magdeburg deal.

​@@shooyooyoon9007Don't worry it's just a front end production site. Development may mainly somewhere else.

Yeah, AMD has proven that better efficiency is possible with existing performance. I don't need any more "free heat" in my office!

What a bad take, as thats not related at all. The DoE wanted this and is partially paying for the Cooler project, and total power usage has increased across the board, IBM, Intel, AMD, Nvidia, etc are all gulping more power than ever in data centers. Also the architectural teams for all these companies are not the same teams working on cooling the chips.

@@UncleKennysPlace Intel's CPU's are more efficient in real use than AMD lol.

Spelling or pronunciation? There are comments here from Polish people who said I did a good job on both :)

Intel is way ahead of AMD in laptop shipments. Sorry to burst your bubble. Especially during 2020-2022, AMD had a lot of trouble getting the supply out for their Zen 3 TSMC N7 chips while Intel waited until they had the yields and fab capacity for 10nm to launch Tiger Lake and Alder Lake which had the perfect supply. Anything that was Zen 3 was vaporware until Intel's 10nm was out for like a whole year, then when there was enough Zen 3 supply, Alder Lake blew Zen 3 out of the water with ST and MT (because there was no X3D on mobile).
AMD only recently had a chance to beat Intel squarely at mobile with Zen 4 and X3D. That's AMD's latest architecture on the latest TSMC node while Intel's Raptor Lake is a refreshed architecture on a 3 year old 10nm node (but with major improvements). Even now, there are only a select few laptops with Zen 4 7840HS and 7940HS, majority of AMD laptops being sold on the lower end are still Zen 3.
With Intel 4 and Meteor Lake, Intel is in a good position against AMD and Apple on laptop. On Desktop and Server - they're still a bit weak.

So basically you want to lose 50% of progress for at least a few years. Very smart of you.

@@MrVladko0 I don't need that level of progress, 99% of people don't need it, and AMD can do the progress part for now until they balance eachother out,
then they can compete even harder and progress together farrr more intensively

Lol never gonna happen

arm isn't great for desktop usage. I think by the time we *need* an architecture restructure, the industry will want a more drastic improvement than arm

😂😂😂 ok

ARM lol, never ever, AMD + Intel and in the future others gonna show new tech and its not arm for certain