With the release of Alder Lake less than a week away and the "Lakes" thread having turned into a nightmare to navigate I thought it might be a good time to start a discussion thread solely for Alder Lake.
NoHas anyone here experienced bent sockets on their Z690 boards yet?
Not sure about that, at least when it comes to i7-1165G7. It was 65 degrees without HT but with HT, it was hitting 95 degrees in the TPU ThrottleStop stress test.
SMT gains are an indirect measurement of how much of the CPU is sitting idle. It is great to be able to recover that performance for applications that can benefit. But it is also a measure of how overengineered the chips are and not all applications benefit from it. In an ideal world, both Intel and AMD would both be simply 30% faster and not need SMT to recover that lost performance.
When Alder Lake went wider and deeper on many of its components, that meant that there is more excess capacity. More SMT performance is to be expected.
The 50w results just look broken all over the place, including the rendering results.Intel Core i9-12900K Alder Lake Tested at Power Limits between 50 W and 241 W
We test Intel's Core i9-12900K at various TDP levels all the way down to 50 W to determine how much efficiency is really in the new Alder Lake core, and how these power limits affect performance. Competing with the efficiency of AMD's Zen 3 Ryzen lineup is just two settings changes away.www.techpowerup.com
Benchmarks at various power levels of the 12900K. All of the titles they chose there wasn't much of a difference between 241/241 and 125/125, but it can drop from there. 50/50 is super slow in a bunch of games.
something is wrong with his Wprime scores, I ran 1024M one and I get 79.911 sec with 12600k.The 50w results just look broken all over the place, including the rendering results.
Some of the application results even drop down to near the 11400 and 10400 levels. Although nothing in the article suggests if those cpus are running at 65w or fully boosted.
Hopefully that's not representative of the coming mobile dies although the 8+8die is bring used in the h55 cpu.
I found something very interesting.Intel Core i9-12900K Alder Lake Tested at Power Limits between 50 W and 241 W
We test Intel's Core i9-12900K at various TDP levels all the way down to 50 W to determine how much efficiency is really in the new Alder Lake core, and how these power limits affect performance. Competing with the efficiency of AMD's Zen 3 Ryzen lineup is just two settings changes away.www.techpowerup.com
Benchmarks at various power levels of the 12900K. All of the titles they chose there wasn't much of a difference between 241/241 and 125/125, but it can drop from there. 50/50 is super slow in a bunch of games.
I don't think that we should be very surprised that Alder Lake E cores are better than the P cores when power is limited. That is basically the whole point behind the hybrid CPU design and why mobile chips don't have 8 P-cores.I found something very interesting.
i9-12900K limited to 50W for both PL1 and PL2 provides only 8872 points in CB R23 and the power consumption is 120W.
If you check Intel Core i9-12900K E-Cores Only Performance Review then you will find out that i9-12900K with only E-cores enabled provides 10366 points in CB R23 and consumes 118W.
You gain ~17% higher score and power consumption is actually 2W lower.
Just E-cores are better than a combination of P+E cores not just in efficiency but also in performance at 50W power limit based on TPU reviews.I don't think that we should be very surprised that Alder Lake E cores are better than the P cores when power is limited. That is basically the whole point behind the hybrid CPU design and why mobile chips don't have 8 P-cores.
You can't make a particulary accurate estimation of the clock speeds as the different cores will have different power to clock scaling.Just E-cores are better than a combination of P+E cores not just in efficiency but also in performance at 50W power limit based on TPU reviews.
Is that really not surprising?
Mobile ADL has 2-6 less P-cores, but also lower power limit and the leaked score for 6C+8c Alder Lake-P Core i7-12700H(TDP: 35-45W) was supposedly 18500 points in CB R23, Notebookcheck. Not sure what was Its actual package power.
You should also check the rest of my post about clockspeed.
50W for 16 cores(8C+8c) is 2.75-3W per core on average. Those clocks I calculated are low for that power consumption in my opinion, If not for P-cores then for E-cores for sure.
I have to wonder If the voltage didn't actually stay at much higher values than needed and because of that was the clockspeed and performance low.
You can't make a particulary accurate estimation of the clock speeds as the different cores will have different power to clock scaling.
Although I think the motherboard isn't playing well at 50w. There are going to be low wattage variants of this die (12900T and the H55 cpus) and the performance drop of here looks like an aberration. If this is really how it performs at 50w then I worry for the 6+8 mobile cpus, 8800 in r23 is well below tiger-h and cezanne-h.
Intel has always stated that the E cores were for multithreading and the P cores were power hungry but best at single threading. So, no it is not at all surprising when you take a 125+ W chip, give it only 50 W, have it's P cores suck up the little power you gave it, and you are left with an underperforming chip in a multi-threaded application. At the very least, wait for the non-K versions (especially the mobile or even the T versions) to see how they work at lower powers.Just E-cores are better than a combination of P+E cores not just in efficiency but also in performance at 50W power limit based on TPU reviews.
Is that really not surprising?
Mobile ADL has 2-6 less P-cores, but also lower power limit and the leaked score for 6C+8c Alder Lake-P Core i7-12700H(TDP: 35-45W) was supposedly 18500 points in CB R23, Notebookcheck. Not sure what was Its actual package power.
You should also check the rest of my post about clockspeed.
50W for 16 cores(8C+8c) is 2.75-3W per core on average. Those clocks I calculated are low for that power consumption in my opinion, If not for P-cores then for E-cores for sure.
I have to wonder If the voltage didn't actually stay at much higher values than needed and because of that was the clockspeed and performance low.
This is why I did not get an alder lake, and opted for my 3rd 5950x. 16 cores that are all equal = no problems running multiple apps. Maybe in a few years when all the bugs are worked out, we will see. But a 6 or 8p config for gaming (even if you disable the e cores) would be good for a gamer.Okay I'm going to admit it. I think Ian was right. The thread director isn't keeping enough compute on Handbrake when I'm transcoding something. For example, right now as I type this it's encoding at 16fps, but when I switch apps and put Handbrake on top it increases to 44fps. Now I could understand keeping Handbrake on the E's if I was doing something that required the P's, like gaming or something, but I'm typing a post in Chrome! No reading to have 8 P's standing at the ready doing nothing.
And yes, I realize I can get this going correctly with process lasso but I shouldn't have to. If you're simply typing in Word or something there is no reason the bulk of the processing power can't go to the background Handbrake encoding automatically. Maybe if there were 16 E's or something this behavior wouldn't be so bad but right now it's kind of dumb.
You are the end-user, you are the only system administrator of your own system, you are flynn.And yes, I realize I can get this going correctly with process lasso but I shouldn't have to. If you're simply typing in Word or something there is no reason the bulk of the processing power can't go to the background Handbrake encoding automatically. Maybe if there were 16 E's or something this behavior wouldn't be so bad but right now it's kind of dumb.
Lol... there are problems just different ones, handbrake has this issue because it starts with below normal priority, if you run that on your system and run something else compute heavy with a higher priority, then handbrake will slow down to a crawl or even stop encoding all together until the other thing is done.This is why I did not get an alder lake, and opted for my 3rd 5950x. 16 cores that are all equal = no problems running multiple apps.
You are just reinforcing exactly why Hulk is not happy having to mess around, and why I won't be getting one soon. If there was a 16 P core that did not suck power like crazy, I would get it over the 5950x, as I realize they are more powerful. And if Intel did not default them so high in power, to beat the 5950x, it sure would have been better for many, not having to mess with bios to keep them from being a space heater (specifically the 12900k, the 12700k is OK and below)You are the end-user, you are the only system administrator of your own system, you are flynn.
Devs will do whatever they think that will benefit the most people.
You can do whatever you think will benefit you the most.
If you want a super easy way to fix that permanently then just add a key to your registry increasing the priority of handbrake.
Lol... there are problems just different ones, handbrake has this issue because it starts with below normal priority, if you run that on your system and run something else compute heavy with a higher priority, then handbrake will slow down to a crawl or even stop encoding all together until the other thing is done.
This might be preferable to you but it's still not a "no problems" and it still has to be "fixed" by changing the priority of either software.
(If your folding runs at normal priority or higher then handbrake will take forever to finish anything.)
This is why I did not get an alder lake, and opted for my 3rd 5950x. 16 cores that are all equal = no problems running multiple apps. Maybe in a few years when all the bugs are worked out, we will see. But a 6 or 8p config for gaming (even if you disable the e cores) would be good for a gamer.
Mark's computing needs are far different from most of the rest of us to be fair. Performance per watt is very important, as I remember a post of his saying he was getting close to the maximum amount of electrical service he could get into his home. And for a very good cause as well.Well it's not a deal breaker for me by any means. For $350 the CPU is an absolute beast!
Just being honest.
That is a good price. But the motherboard price, the HSF situation, the P/e core differences just don't make it work for me, or I would think anybody that multitasks a lot.Mark's computing needs are far different from most of the rest of us to be fair. Performance per watt is very important, as I remember a post of his saying he was getting close to the maximum amount of electrical service he could get into his home. And for a very good cause as well.
That is a good price. But the motherboard price, the HSF situation, the P/e core differences just don't make it work for me, or I would think anybody that multitasks a lot.
just FYI... I just got a 5950x (not even here yet) for $709. But I agree, for you, it was a great deal, especially at $359 for the cpu. I actually thought about that chip, but I have no microcenter even close, so $449 made it out of the question. I already had 32 gig of 3200 cl14 (the good stuff) so for me it was a good xmas gift to myself. Oh, and the 3070TI that I got for $860.Good points but just for reference I paid $350 for the 12700K, $190 for the mobo, $140 for 32GB of DDR4 3600 CL16, and $111 for a Noctua chromax.black cooler. Plus I don't game so the iGPU is all I need. That's $791 for cpu, mobo, memory, and cooler, less than the retail price of the 5950X, for which you need a GPU.
I multitask quite a bit but obviously not 24/7 like you. Clearly the 5950X is the best option for your needs.
just FYI... I just got a 5950x (not even here yet) for $709. But I agree, for you, it was a great deal, especially at $359 for the cpu. I actually thought about that chip, but I have no microcenter even close, so $449 made it out of the question. I already had 32 gig of 3200 cl14 (the good stuff) so for me it was a good xmas gift to myself. Oh, and the 3070TI that I got for $860.
It's not messing around, that is what using your system is.You are just reinforcing exactly why Hulk is not happy having to mess around, and why I won't be getting one soon. If there was a 16 P core that did not suck power like crazy, I would get it over the 5950x, as I realize they are more powerful. And if Intel did not default them so high in power, to beat the 5950x, it sure would have been better for many, not having to mess with bios to keep them from being a space heater (specifically the 12900k, the 12700k is OK and below)
Of course, I know the clockspeed is inaccurate. I don't know which type was working at what clockspeed, so I downscaled both cores by the same ratio based on performance difference in CB. Leaks for mobile ADL show much higher performance, not sure how accurate they are.You can't make a particulary accurate estimation of the clock speeds as the different cores will have different power to clock scaling.
Although I think the motherboard isn't playing well at 50w. There are going to be low wattage variants of this die (12900T and the H55 cpus) and the performance drop of here looks like an aberration. If this is really how it performs at 50w then I worry for the 6+8 mobile cpus, 8800 in r23 is well below tiger-h and cezanne-h.