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Potential Ryzen 7000-series CPU Specs and Pricing Leak, Ryzen 9 7950X Expected to hit 5.7 GHz

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Well you don't have to post any numbers, you can just check what 8 GC cores do against 8 Zen 3 cores in same wattage. And it's not pretty o_O
I don't own Zen 3 nor Adler Lake right now. I have owned CPUs from both manufacturers over the years though, so I have no beef in the game.
All I care is bang for the buck, and lately (last few years) this has been sometimes in AMD's favour, sometimes in Intel's favour.

What am I claiming? Can you repeat it for me please, cause apparently you haven't got a whiff yet
This:
fevgatos said:
More efficient at everything. What he is saying is that intel cant fit 16p cores cause of power draw which is absurd, cause we already know a p core outperforms a zen 3 core at same wattage. Therefore a 16p core intel would outperform the 5950x for example at same or lower wattage
What do you mean "so now". That's what im saying from the frst post. And yes, at any wattage, from 10w all the way up to 300 watts
 
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I don't own Zen 3 nor Adler Lake right now. I have owned CPUs from both manufacturers over the years though, so I have no beef in the game.
All I care is bang for the buck, and lately (last few years) this has been sometimes in AMD's favour, sometimes in Intel's favour.


This:
And how exactly does the review I posted from club365 disprove that? He is testing 8+8 against 16 zen 3 cores.
 
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And how exactly does the review I posted from club365 disprove that? He is testing 8+8 against 16 zen 3 cores.
Well unfortunately, that is the best Intel has for now, and that's what they are testing it with. It's also close in price to 5950x, so it's fair game.
Even if we account for that and take 3900XT which is 12/24 compared to 12900k which is 16/24, even then it's 8% more efficient at stock for stock, and about 20% less efficient when the 12900k is power limited to 125w. Mind you this is last gen.
Since Zen 3 is about 15 - 20% faster than Zen 2, if we take that into account we would get (extrapolated numbers) that 5900x is 30% more efficient at stock for stock, and about the same efficiency when the 12900k is power limited to 125w. In order to be sure, Club386 should include a 5900x in those tests as well. That would give a better picture.

But I doubt that would change the current state, which is that Zen 3 is on average 50% more efficient and about the same or worse efficiency in the worst case (heavily biased towards intel by running it in optimised mode).
 
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Well unfortunately, that is the best Intel has for now, and that's what they are testing it with. It's also close in price to 5950x, so it's fair game.
Even if we account for that and take 3900XT which is 12/24 compared to 12900k which is 16/24, even then it's 8% more efficient at stock for stock, and about 20% less efficient when the 12900k is power limited to 125w. Mind you this is last gen.
Since Zen 3 is about 15 - 20% faster than Zen 2, if we take that into account we would get (extrapolated numbers) that 5900x is 30% more efficient at stock for stock, and about the same efficiency when the 12900k is power limited to 125w. In order to be sure, Club386 should include a 5900x in those tests as well. That would give a better picture.

But I doubt that would change the current state, which is that Zen 3 is on average 50% more efficient and about the same or worse efficiency in the worst case (heavily biased towards intel by running it in optimised mode).
It's heavily biased to test the CPU at same power limits? BIASED? Really? LOL

Of course the 5950x is a little bit more efficient at heavy MT workloads at same wattage, but alderlake is WAY WAY more efficient in lighter loads and ST workloads. From igor'slab review testing Autocad

Once again, you can put the score in relation to the power consumption in order to map the efficiency. The Core i9-12900KF is even 71 percentage points more efficient than the Ryzen 9 5950X. I’d rather not even write anything about the Core i5-12600K.



So choose your poison, if you want heavy MT then the 5950x is 10% more efficient at same wattage, if you run lighter less threaded workloads (autocad / photoshop / premiere etc.) then the 12900k can be up to 70% ( o_O o_O ) more efficient. Options for everyone, isn't that nice? :)
 
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Techspot used the rm1 cooler for the 65w result. Im not sure exactly what your issue is with that one, to me its obvious they set pl2 to 65w.
My problem is that without them actually specifying this explicitly, we have to resort to the kind of speculation you just did. And another key problem in this discussion is that you don't see a problem with such speculation, as you assume that your speculation must by default be true. It might be, but that is a level of insecurity that is not acceptable when trying to actually understand something as nuanced and fine-grained as what we're talking about here.
It wouldnt make sense any other way since, the way they phrased it in the review, it would be idiotic to have pl1 at 65 and unlimited pl2. Plus the score would have been higher if that was the case, as demonstrated by their power unlimited test.
I agree that it wouldn't make sense in any other configuration, but again, this is not proof that that is how they configured it. Humans are only partially rational people, and we can only act on the basis of what we know. And, crucially, people fuck up too, doing things wrong or things they didn't mean to do. Unless explicitly told otherwise, we cannot assume that they configured it correctly. We can hope they did, at best.
I dont see anything wrong with igorslab review either. Yes zen were run with pbo but that's irrelevant, what matters is the 12900k perfromance at 125w. Since in the blender test it matches a pboed 5900x and slaps the 12600k, there is no way in cbr23 it gets matched by the 12600k.
As you're using that review as an efficiency comparison for both, it is obviously problematic to have PBO active for the 5950X, as that pollutes the data you're using for your comparison.
Club365 used xtu to power limit, they even have a picture of their settings in the first page. And since the numbers perfectly match the ones i observed with 3 cpus tested witb 4 different motherboards, i have no reason to doubt them. The cpu is running at 4.3 ghz for the pcores

That's good to know - though a bit hilarious that they (likely to "provide proof" of the configuration being active while benchmarking) covered up half the gauges with the Blender window. Still, just about readable.
Today im back, i can show you the 29900 score and all that, but i find it irrelevant cause, how can i show you im running a u12a? I might as well have a custom loop for all you know.
...you seem to have entirely missed the point of mentioning cooling: the point isn't what specific cooling you're using, the point is that for a valid comparison, cooling must be eliminated as a variable, i.e. it must be the same across all systems tested. It's a huge part of why comparing benchmarks done by various forum members is inherently unrepresentative (unless you have a huge selection and can control for a bunch of variables), as there's too much uncertainty. Heck, just where you live and your room temperature can have significant effects on results.
Regarding what went wrong with tpu, fixed voltage is by far the most likely explanation. Msi boards are quite reknown (mine included) for doing shaenaningans, although he uses an asus hero, and as far as my experience with the asus apex goes, it wasnt doing any weird stuff when plimited,but who knows, maybe the hero does.
Wait, these boards set fixed voltages by default? Holy crap, that's ... that's like class action lawsuit levels of misconfiguration. I guess I'm glad I've never owned an MSI motherboard. I guess that might also go some way towards explaining Igor's crazy Zen3 power readings, as he seems to use MSI motherboards exclusively.
What i find really weird is how he himself didnt get puzzled with the results. That's by far my biggest surprise.
My guess: probably didn't stand out enough to really make note of in the midst of a massive CPU launch review blitz. Still something that ought to be looked at though.



But back to the core issue here, and what has been discussed for the past few posts: your extrapolations, your attitude to them, and your inflexibility and inability to adjust and maintain nuance in your arguments. I went into this a bit in the previous post, and above as well, but it still seems to not be sinking in.

In short: it's quite possible - or, likely even - that a theoretical 16 GC P core CPU would be more efficient than a 5950X at some range of power levels. That's the nature of a wide design - if not pushed to high in terms of clocks, they're extremely efficient. Just look at Apple's M1 - it's so wide that it matches both of these cores at just 3/5ths the clock and a fraction of the power. But it's also frickin' huge. As is ADL, though not on quite the same scale. You can of course choose to ignore die space efficiency in your arguments for performance efficiency (though that's a cost, just like power is a cost), but it's a major disadvantage in this regard - but one that also brings with it the possibility of going wide-and-slow.

The problem is that ADL has rather unpredictable and complex power behaviour. It boosts extremely high, and can, as we've seen, consume 55-60W in instruction dense workloads for a single core - but also sits much lower even at stock in lighter workloads, at ~25-30W in SPEC ST, for example. That of course also means that MT clock scaling will vary wildly when strictly power limited - in instruction dense/heavy workloads, 16 such cores in ~115W (assuming 15W uncore power), would clock much, much lower than what that single core can do, even if that single core goes far, far beyond its efficiency sweet spot.

Further complicating this is the inherent efficiency disadvantage of Zen3 due to through-package IF, which means its uncore consumes ~10-15W more than Intel's. That's nearly a core at full load worth of difference, so definitely significant. And it means that we get scenarios such as this (which is made up, and obviously not accurate to anything at all, but at least in the ballpark)
ST, instruction dense: ADL is a bit faster (~20%?), but consumes ~70% more package power, losing clearly in efficiency.
ST, not instruction dense: ADL is a bit faster, consumes a bit more core power, but notably less uncore power, thus leading in efficiency - anything from a slight to clear lead depending on the workload.
Low threaded (2-4), not instruction dense: same as above.
Low threaded, instruction dense: ADL falls way behind in efficiency unless power limited - but probably performs well when power limited. A complex range of efficiencies across vendors and chips.
nT, instruction dense: Likely an AMD advantage, as the higher uncore power makes less of an impact, while AMD's low per-core power means high clocks even at sustained heavy all-core loads.
nT, not instruction dense: Likely Intel advantage, assuming they maintain high clocks.

While this was all made up, what is the takeaway from seeing results such as these across various benchmarks and test suites? That just as with all other hardware, current boost behaviour, power limits, and other automated self-regulation processes makes testing - and reading results! - a lot more complicated, and conclusions are decreasingly simple and straightforward. And it especially makes theoretical, on-paper extrapolations more complicated, verging on impossible. The number of variables is increasing, and accounting for them is increasingly difficult.

We all know that ADL is fast, and performs well even at lower power limits - chips like the 12300 and 12100 demonstrate that very well. But there are still unanswered questions: What clocks would such a theoretical 16c chip be able to maintain across various workloads? How would uncore power change with the move to either a dual ring bus or mesh fabric? How would either of these affect performance through core-to-core latencies? How would cache configurations affect this - and how much cache would said chip have? If it doubled the cache of the 12900K, then that would again balloon the die area needed - and, once again, cost - while if L3 was kept lower, that would in turn hurt per-core performance.

On top of this, there are configuration differences and binning differences between existing CPUs that you are using to extrapolate your data, where you have consistently been highly selective - complaining of people bringing up the 12400 due to your impression that it's a terrible, inefficient bin, yet at the same time insisting on the 5800X - which is also the least efficient bin of desktop Zen3, by quite some distance - as the point of departure for comparing the two.

So: there are lots of unknowns here, and your extrapolations are far too simplistic, at times carry clear and obvious bias, and you are presenting them in a bombastic, nuance-free way that prompts counterarguments rather than constructive discussion. That doesn't mean that everything you have said is wrong - but it makes it impossible to have a constructive discussion. What could have been an interesting back-and-forth thought experiment instead degrades into an unconstructive shouting match because your way of presenting things forces everyone else into an involuntarily defensive stance trying desperately to add back some of the nuance your statements lack.

Which in turn, means that when you say hare-brained stuff like "ADL is more efficient everywhere" ... you're not only flat-out wrong, as we know there are scenarios - such as heavy/instruction dense ST tasks, as well as MT tasks at stock power - where Zen3 is indisputably drastically more efficient - but you're wrong in an unconstructive way that fosters dissent and conflict. Even if not intended that way, that way of talking is troll language. If you want to have a rewarding and productive discussion, you need to present your arguments reasonably and with nuance. And with sources. Without that, all you're achieving is asking for pushback, and turning everything into unnecessary conflict.

It's heavily biased to test the CPU at same power limits? BIASED? Really? LOL
I had to respond to this one last thing: as I've said about 652 million times in this thread: When testing at the same power limit means drastically different changes from stock power for each product being compared, then yes, that is indeed biased. It doesn't render the data useless, or the findings untrue, but it is an unequal comparison, as the products being tested all have stock configurations, and deviations from those thus represent changes from the inherent behaviour of the product. You can argue that the stock config of high end ADL is stupid, but that's another issue entirely - it doesn't make it any less biased to compare heavily underclocked ADL to stock-powered Zen3.
 
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In short: it's quite possible - or, likely even - that a theoretical 16 GC P core CPU would be more efficient than a 5950X at some range of power levels. That's the nature of a wide design - if not pushed to high in terms of clocks, they're extremely efficient. Just look at Apple's M1 - it's so wide that it matches both of these cores at just 3/5ths the clock and a fraction of the power. But it's also frickin' huge. As is ADL, though not on quite the same scale. You can of course choose to ignore die space efficiency in your arguments for performance efficiency (though that's a cost, just like power is a cost), but it's a major disadvantage in this regard - but one that also brings with it the possibility of going wide-and-slow.
I'm skipping everything else you said above cause I pretty much agree. Actually, I even agree with what you wrote here, the problem is - I was just responding to a user saying Intel didn't use 16P cores cause of heat and power issues. Which is obviously wrong, and that's what my arguments tried to prove throughout this thread
I had to respond to this one last thing: as I've said about 652 million times in this thread: When testing at the same power limit means drastically different changes from stock power for each product being compared, then yes, that is indeed biased. It doesn't render the data useless, or the findings untrue, but it is an unequal comparison, as the products being tested all have stock configurations, and deviations from those thus represent changes from the inherent behaviour of the product. You can argue that the stock config of high end ADL is stupid, but that's another issue entirely - it doesn't make it any less biased to compare heavily underclocked ADL to stock-powered Zen3.
We will never agree on that point I guess. Testing efficiency at stock only tells you how efficient the CPU's settings are. Which for me is absolutely useless. That's useful data only for someone that doesn't know how to powerlimit or doesn't care about efficiency to do so. Why should we use the layman as the standard for what's important?
 
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I wonder if the $300 to $600 gap between the 7700x and the 7900x will allow room for the 7800x3D. That would be the gaming chip to get at ~$450.
as far as we know all of the 7000 series chips will have 3D V-Cache.
 
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I'm skipping everything else you said above cause I pretty much agree. Actually, I even agree with what you wrote here, the problem is - I was just responding to a user saying Intel didn't use 16P cores cause of heat and power issues. Which is obviously wrong, and that's what my arguments tried to prove throughout this thread
That is one aspect of Intel's problem. Heat comes with frequency and voltage to sustain the workload. You have said that in light workloads Intel runs very well and we all know that but there is the full load MT workload which already seems to settle just at the edge of OK with power consumption and heat using the P and e cores. If you think all P core product would have been better than i disagree with that statement. Would it be possible for Intel to make a 16p core AL? Obviously it would be possible but considering Intel's experience there's dozen of reasons they didn't do it and heat is probably one of them but not just heat alone but combined with frequency voltage and ST and MT performance etc. in general. Also, Intel needed a win with AMD and AL did it in more areas. For what you know, Intel's decision abut adding ecores was the best they could go with to compete with AMD. As we already know it will continue further with 13th gen and more ecores for MT purposes where Intel still lacks in comparison to AMD.
 
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That is one aspect of Intel's problem. Heat comes with frequency and voltage to sustain the workload. You have said that in light workloads Intel runs very well and we all know that but there is the full load MT workload which already seems to settle just at the edge of OK with power consumption and heat using the P and e cores. If you think all P core product would have been better than i disagree with that statement. Would it be possible for Intel to make a 16p core AL? Obviously it would be possible but considering Intel's experience there's dozen of reasons they didn't do it and heat is probably one of them but not just heat alone but combined with frequency voltage and ST and MT performance etc. in general. Also, Intel needed a win with AMD and AL did it in more areas. For what you know, Intel's decision abut adding ecores was the best they could go with to compete with AMD. As we already know it will continue further with 13th gen and more ecores for MT purposes where Intel still lacks in comparison to AMD.
Heat / wattage is a non issue. Heck even if they left the same 240w power limit a 16P core would be way easier to cool because it would have a bigger die. That's just physics 101, not an opinion.
 
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Heat / wattage is a non issue. Heck even if they left the same 240w power limit a 16P core would be way easier to cool because it would have a bigger die. That's just physics 101, not an opinion.
What you said here is a speculation. I know where this is coming from but that may not be the case entirely. Maybe Intel went with ecores to balance the heat and die size? There has to be a reason why Intel didn't go with 16p core set up. It is not just heat or frequency or wattage or voltage, cash size, die size etc. I think it is a combination of all those aspects and a efficiency as well. Would 16p core AL processor be possible? Intel could do anything if they wanted to. You don't have 16p core AL not because of heat alone but considering all aspects of what a CPU should offer, 8+8 in general was a better solution to tackle the market and competing better.
 
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What you said here is a speculation. I know where this is coming from but that may not be the case entirely. Maybe Intel went with ecores to balance the heat and die size? There has to be a reason why Intel didn't go with 16p core set up. It is not just heat or frequency or wattage or voltage, cash size, die size etc. I think it is a combination of all those aspects and a efficiency as well. Would 16p core AL processor be possible? Intel could do anything if they wanted to. You don't have 16p core AL not because of heat alone but considering all aspects of what a CPU should offer, 8+8 in general was a better solution to tackle the market and competing better.
If you look at the die of the current 12900k, it's pretty obvious why they didn't go for a 16P CPU. That thing would be MASSIVE. It's already 35% bigger than the 2 CCD's of the 5950x. A 16P core would be something like 350++ mm². It has no space in the consumer market, cause people wouldn't pay for it. That's why they are saving it for the prosumer market with the Sapphire Rapids.
 
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I'm skipping everything else you said above cause I pretty much agree. Actually, I even agree with what you wrote here, the problem is - I was just responding to a user saying Intel didn't use 16P cores cause of heat and power issues. Which is obviously wrong, and that's what my arguments tried to prove throughout this thread
I still think heat and power issues are a significant part of why they haven't made this, but not on as basic a level as "it would be impossible to cool". Rather, heat and power issues in the form of a likely uncompetitive balance between per-core clocks and power/thermals, especially in tasks with a "medium" thread load (i.e. not ST or close, but not nT either). A huge die like that would be easier to cool, but would also need more power for various uncore uses, and would likely need a lot of dark silicon to avoid overheating at high all-core loads - but it would also need to be able to deliver those ~60W to each and every core, requiring a lot of power wiring (= even more area) and would most likely need to more aggressively shuffle threads between cores to spread out the heat during operations, complicating scheduling as well (something AMD already does quite aggressively). If this were to be a "the best CPU ever" type of product it would after all need to boost as high if not higher than current ADL, which would strain its power distribution and cooling.

Of course, cost and area are likely equally if not more crucial considerations here as well - a 16 P core CPU would come well into HEDT territory, might not be physically feasible on the LGA1700 package (it would fit, but would it get enough power where it needed it, etc?), and would be crazy expensive while likely having quite poor yields. And it's not like 8+8 ADL is a small die, after all, so they're already pushing things. Given that Intel has - reaosnably - seen that consumer HEDT is dead and has no sustainable basis for existence - I think they made the entirely correct choice with their hybrid design, allowing for great nT performance and many more cores in a smaller area - but at the cost of complexity and a period of growing pains. IMO, that's a far more sensible approach than "let's just jam as many cores as we can into this thing, screw it." Which, IMO, is a similar reasoning as to why AMD hasn't been moving towards >8 core CCDs - we're already in "more cores than most people will ever make use of" territory with 16 (though there's an argument to be made for 8+16 being somewhat reasonable as E cores lack SMT), and per-core performance is still by far the most important thing.

There's also the consideration of a 16 P core configuration essentially placing itself by default as a quasi-HEDT offering, as its only real selling point would be "this doesn't have E cores, but 32 full power threads". With HEDT being (long) dead, that doesn't sound like an attractive selling point.
We will never agree on that point I guess. Testing efficiency at stock only tells you how efficient the CPU's settings are.
But .... that statement is equally true at literally every possible setting, which means it's not an argument for or against anything whatsoever. The point is that stock settings are more important than non-stock settings. It shows you how the product works, as configured by the manufacturer, who has positioned it extremely deliberately after tens of thousands of hours of testing, binning and tuning, to find the optimal competitive balance. It shows how that has resulted in a specific configuration of a specific silicon implementation of an architecture, and it speaks to the reasoning put into this tuning. It speaks to what is and isn't possible, and the concerns and considerations taken into account when setting specs.
Which for me is absolutely useless. That's useful data only for someone that doesn't know how to powerlimit or doesn't care about efficiency to do so. Why should we use the layman as the standard for what's important?
Why should we use a handful of enthusiasts with specialist knowledge and unusual use cases as the standard for what's important? As we discussed in the other thread, you have a vastly overblown belief in how many people know how to, care enough to, and want to tune their CPUs (and GPUs). And, crucially: your argument here boils down to "I believe that what I like should be the standard." There is nothing in this approach that weighs sufficiently heavily to counteract the simple fact that stock settings are stock settings, with all that entails. And any arbitrarily chosen power level set by you or a reviewer will never be anything but arbitrary, unless a wide range of power levels are tested for an actual overview of the overall efficiency of the architecture as implemented. Essentially every CPU ever made runs at stock, and only at stock. Thus, stock operations are by far the most important measure, the basic measure that should always be taken first, and towards which comparisons are directed. Tuned operations are also interesting to look at, but it's a niche scenario and can thus by default not be treated as the standard.

You can always argue that Intel ought to have configured the 12900K differently at stock - many of us have done so - but this falls in line with your overall pattern of generosity towards them, handily skipping obvious criticisms. After all, it could easily be argued that Intel should have configured these CPUs to run at peak efficiency for everyday users, while leaving tons of OC headroom for enthusiasts who know how to tune them - by your reasoning, that shouldn't be a problem whatsoever, right? But instead, it's clear from the tuning of these chips that Intel felt strong pressure to win in terms of performance, and thus tuned these chips to ludicrous levels of power in order to decisively do so. Which grants valuable and interesting insight into Intel's reactions to AMD's perf/W ant MT dominance over the past few years, and shows just how seriously they've taken that threat. Which means that for the vast majority of people, these chips run less efficiently than they should, at higher power than what's necessary or even remotely efficient, all because Intel desperately needed a benchmarking win.

I mean, there are lots of useful things we can glean from the specific configuration of the 12900K, in terms of Intel's reasoning:
- 8 cores (or 10 like the 10900K) would be woefully uncompetitive against a 16c in MT tasks
- 16 cores would be too big (and hot, though they clearly ignored that part), unless they did something clever
- ADL can be quite efficient, but for a conclusive ST win it needs power
- ADL's high power ceiling renders boost tuning ... complicated, and performance is thus the same
- Intel needed to be seen as "striking back" against AMD after years of barely scraping by and clearly being unprepared for a resurgent competitor
- Intel is (finally!) starting to make some use of their vastly diverse portfolio of products in innovative ways
- There are clearly different parts of Intel competing, some clearly focusing on "higher number better" PR thinking, others on smart, complex designs, and likely a ton of compromise positions
- There can be vast chasms between "what wins benchmarks" and "what is the best operating parameters for this product", and the bencmark-oriented people won out with ADL

That's why they are saving it for the prosumer market with the Sapphire Rapids.
I think you need to look up what "prosumer" means :p Sapphire Rapids is a HPC/server CPU, not a prosumer one, and I would be very surprised if they pushed out another "enthusiast HEDT" product after the PR faceplant of the """5GHz""" Xeon W-3175X, which had the tech world laughing at them for months afterwards.

Heck even if they left the same 240w power limit a 16P core would be way easier to cool because it would have a bigger die. That's just physics 101, not an opinion.
This is true for nT workloads at least - for lower threaded workloads it would be more complex, as discussed above. It would also be able to make a lot better use of those 240W in terms of performance, at least in nT workloads. The interesting question to me would be, when weighing power, performance, and die area/cost (and, of course, how to weigh these is not a simple question at all), if it would be a more attractive proposition than a 5950X at 100W less power.
 
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If you look at the die of the current 12900k, it's pretty obvious why they didn't go for a 16P CPU. That thing would be MASSIVE. It's already 35% bigger than the 2 CCD's of the 5950x. A 16P core would be something like 350++ mm². It has no space in the consumer market, cause people wouldn't pay for it. That's why they are saving it for the prosumer market with the Sapphire Rapids.
As you can see yourself, making a chip that big, could have been problematic not because of the heat but the performance, price, die size etc. So many things to consider. If Intel would have made a big one like that and heat would have been a problem, they could easily lower the clocks and make it run OK with a proper power envelope but the performance might not have been sufficient. So I guess in order to balance the product (more less) we have ecores.
 
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Heat / wattage is a non issue. Heck even if they left the same 240w power limit a 16P core would be way easier to cool because it would have a bigger die. That's just physics 101, not an opinion.
I don't think heat is a problem as well. What would have been a problem is die area. It would be almost double what 12900k is. That would mean much worse yields, and more expensive product for the end consumer.
In the end I don't even think it might be more efficient than 12900k since it would have to have dual ring bus which would draw more power than single ring bus on top of additional cores.
Then finding a good binned such CPU to have both ring buses in tact as well as all the 16 cores, would be feat in it self. That processor would cost easily 50 - 100% more than 12900k in retail.
Would its performance be 100% more? Most likely not.

If you look at the die of the current 12900k, it's pretty obvious why they didn't go for a 16P CPU. That thing would be MASSIVE. It's already 35% bigger than the 2 CCD's of the 5950x. A 16P core would be something like 350++ mm². It has no space in the consumer market, cause people wouldn't pay for it. That's why they are saving it for the prosumer market with the Sapphire Rapids.
Pretty much this.

Also on that note, it being already 35% bigger than 2 CCDs of the 5950x; You have repeatedly said that 1 AL core should be compared to 1 Zen 3 core even fully knowing that 1 AL core is like twice the size of Zen 3 core. This is obvious since AL is a wide cpu design. So CPU core surface area, its architecture, its freq/voltage curves, etc. are all parts of the CPU design.
Saying let's take one AL core at THIS specific wattage and compare it in THAT specific workload is kind of unfair comparison.
How about we compare 1 design to another design at the same/similar price points? I.e. what the reviews usually are doing? It has been done and usually Zen 3 cores are more efficient.
Now due to AL's design it can be more efficient in certain workloads than Zen 3, we all agree on that.
Having said that, AL is not more efficient than Zen 3 at everything at any wattage.

This is true for nT workloads at least - for lower threaded workloads it would be more complex, as discussed above. It would also be able to make a lot better use of those 240W in terms of performance, at least in nT workloads. The interesting question to me would be, when weighing power, performance, and die area/cost (and, of course, how to weigh these is not a simple question at all), if it would be a more attractive proposition than a 5950X at 100W less power.
This is one of the things we went over in course of Computer architectures when I was doing my BS in computer science (which was about 10 years ago).
Bonus info, this class was taught by a former Intel engineer who was working on the Haswell (before we even knew it was a thing, as architectures are made years in advance of the actual product hitting the shelves) CPU as a signal integrity engineer since he has a PHD in that area. This was one of my favourite classes, and in it we discussed that you have to balance different things in the CPU in regards of wideness of the cpu, it's die area, caches (L1, L2 L3), registers, yields, etc.
It's an art, and there's no right or wrong answer here. Just different implementations of the different architectures which will yield obviously different performance numbers.
I still keep in touch with this guy. He was recently working for Ampere before they unveiled their first ARM processor, afterwards he left Ampere for Microsoft. He also still teaches CPU architectures in Portland university part-time all these years.
 
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But .... that statement is equally true at literally every possible setting, which means it's not an argument for or against anything whatsoever. The point is that stock settings are more important than non-stock settings. It shows you how the product works, as configured by the manufacturer, who has positioned it extremely deliberately after tens of thousands of hours of testing, binning and tuning, to find the optimal competitive balance. It shows how that has resulted in a specific configuration of a specific silicon implementation of an architecture, and it speaks to the reasoning put into this tuning. It speaks to what is and isn't possible, and the concerns and considerations taken into account when setting specs.

Why should we use a handful of enthusiasts with specialist knowledge and unusual use cases as the standard for what's important? As we discussed in the other thread, you have a vastly overblown belief in how many people know how to, care enough to, and want to tune their CPUs (and GPUs). And, crucially: your argument here boils down to "I believe that what I like should be the standard." There is nothing in this approach that weighs sufficiently heavily to counteract the simple fact that stock settings are stock settings, with all that entails. And any arbitrarily chosen power level set by you or a reviewer will never be anything but arbitrary, unless a wide range of power levels are tested for an actual overview of the overall efficiency of the architecture as implemented. Essentially every CPU ever made runs at stock, and only at stock. Thus, stock operations are by far the most important measure, the basic measure that should always be taken first, and towards which comparisons are directed. Tuned operations are also interesting to look at, but it's a niche scenario and can thus by default not be treated as the standard.

You can always argue that Intel ought to have configured the 12900K differently at stock - many of us have done so - but this falls in line with your overall pattern of generosity towards them, handily skipping obvious criticisms. After all, it could easily be argued that Intel should have configured these CPUs to run at peak efficiency for everyday users, while leaving tons of OC headroom for enthusiasts who know how to tune them - by your reasoning, that shouldn't be a problem whatsoever, right? But instead, it's clear from the tuning of these chips that Intel felt strong pressure to win in terms of performance, and thus tuned these chips to ludicrous levels of power in order to decisively do so. Which grants valuable and interesting insight into Intel's reactions to AMD's perf/W ant MT dominance over the past few years, and shows just how seriously they've taken that threat. Which means that for the vast majority of people, these chips run less efficiently than they should, at higher power than what's necessary or even remotely efficient, all because Intel desperately needed a benchmarking win.
I don't know why you think that ignorance is better just because more people choose to be ignorant. I fundamentally disagree with your way of thinking. Just yesterday I watched a review of some bequiet fans compared against the T30. There was a comment there saying, and im not kidding you, "im thinking about replacing my T30 cause they are too nosiy, these new bequiet fans seem like a good replacement". And all that because the user is probably running them at like 3000 RPM. He is literally going to spend even more money to replace a better product with a worse one. There are countless other people being gamers that are going to skip alderlake cause of power consumption, while they are looking at power chart numbers over prime 95 or something. And theyll end up with a zen 3 for example that might be less efficient in gaming. Do you think you are doing these people a favor by leaving them at their ignorance?

The reason why Intel (or even AMD for that matter) configure their CPUs the way they do is exactly because of reviewers. Intel wants you to think that the 12900k is faster than the 5950x in MT, which is not. But the average user looking at a review will just glance over the very popular CBR23 benchmark and conclude otherwise. For the same reasons zen 3 was powerlimited way lower, cause AMD had no competition in heavy MT workloads back in 2020.

Comparing stock and just stock for efficiency would be fine if people understood what they are looking at. They don't. They can't even fathom the fact that the 12900ks for example is a better binned 12900k can be a lot more efficient. They see powerdraw at 900w and that's all that matters to them.

And frankly, if what I'm suggesting (testing at similar power limits) wasn't very very important, TPU wouldn't have done it in the first place, right? I mean im pretty sure the time it took them to benchmark the CPU at so many different power levels would have been insane, and kudos to them for doing so.

EG1. You are right about the prosumer market, I thought SR would have been HEDT, for some reason I was thinking sierra forest would be the xeon part
 
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Also on that note, it being already 35% bigger than 2 CCDs of the 5950x; You have repeatedly said that 1 AL core should be compared to 1 Zen 3 core even fully knowing that 1 AL core is like twice the size of Zen 3 core. This is obvious since AL is a wide cpu design. So CPU core surface area, its architecture, its freq/voltage curves, etc. are all parts of the CPU design.
Saying let's take one AL core at THIS specific wattage and compare it in THAT specific workload is kind of unfair comparison.
How about we compare 1 design to another design at the same/similar price points? I.e. what the reviews usually are doing? It has been done and usually Zen 3 cores are more efficient.
Now due to AL's design it can be more efficient in certain workloads than Zen 3, we all agree on that.
Having said that, AL is not more efficient than Zen 3 at everything at any wattage.
Doing some quick measurements in photoshop and calculating this based on the official die size (20.5x10.5mm), the ADL version of the GC core without its L3 cache (just the roughly rectangular part towards the top/bottom of the die, not the middle interconnect+cache strip) is ~2.24x3.29mm, or 7.4mm². The matching area of Vermeer Zen3 (L3C excluded) is ~2.6x1.6mm, or 4.2mm² - 57% the area. Which in turn begs the question of what would be the most efficient of a 16C ADL design vs. a 16/57*100=28C Zen3 design at the same wattage. Of course we'd be well beyond useful core counts at that point, but arguably, so is 16 cores for most consumers. And more cores wouldn't help Zen3 catch up in ST performance, but it would likely trounce any 16C ADL in nT performance at the same wattage - though it would in turn also increase the IF power cost due to needing even more IF links, and would need a larger package size, etc., etc. Essentially it would be an EPYC/Threadripper light, just with slightly less than half the IF power and not the crazy I/O.

Which then leaves us with yet another axis of variability, which in turn also doesn't scale linearly across workloads, as most workloads aren't nT.
This is one of the things we went over in course of Computer architectures when I was doing my BS in computer science (which was about 10 years ago).

Bonus info, this class was taught by a former Intel engineer who was working on the Haswell (before we even knew it was a thing, as architectures are made years in advance of the actual product hitting the shelves) CPU as a signal integrity engineer since he has a PHD in that area. This was one of my favourite classes, and in it we discussed that you have to balance different things in the CPU in regards of wideness of the cpu, it's die area, caches (L1, L2 L3), registers, yields, etc.
It's an art, and there's no right or wrong answer here. Just different implementations of the different architectures which will yield obviously different performance numbers.
I still keep in touch with this guy. He was recently working for Ampere before they unveiled their first ARM processor, afterwards he left Ampere for Microsoft. He also still teaches CPU architectures in Portland university part-time all these years.
Fascinating! And yeah, there are far, far, far too many variables in play to pretend that there's any such thing as a "right answer" to any of this. That's what makes it so interesting!

I don't know why you think that ignorance is better just because more people choose to be ignorant. I fundamentally disagree with your way of thinking.
And here we're back to the ... well, I think this highlights a part of the problem with this discusison: your reading of what others write is simple, superficial, and bordering on bad faith in its assumptions. How on earth am I "thinking that ignorance is better?" Have I said that anything is better anywhere? No. I'm talking about useful information, relevant knowledge. And knowing how a chip operates at the parameters at which it will be operating in >99% of use cases is more relevant knowledge than how it can operate in hand-tuned scenarios.
Just yesterday I watched a review of some bequiet fans compared against the T30. There was a comment there saying, and im not kidding you, "im thinking about replacing my T30 cause they are too nosiy, these new bequiet fans seem like a good replacement". And all that because the user is probably running them at like 3000 RPM. He is literally going to spend even more money to replace a better product with a worse one. There are countless other people being gamers that are going to skip alderlake cause of power consumption, while they are looking at power chart numbers over prime 95 or something. And theyll end up with a zen 3 for example that might be less efficient in gaming. Do you think you are doing these people a favor by leaving them at their ignorance?
No, but then I have never argued for anything even remotely resembling what you're saying here either. Literally nothing you're saying here resembles what I've been saying at all. And if you think so: please, pretty please, try to actually read what I've been saying. Look at the words, and think about what they mean, without projecting some nefarious agenda into them. The solution to that CPU efficiency issue? Highlighting gaming power draw testing, and not using simplistic power testing for more than it's worth. (The problem with this is of course that gaming CPU power draw testing is really friggin' difficult due to driver variability and overhead, platform differences, actual gaming performance differences (which is largely GPU bound) and more, making a like-for-like comparison near impossible.)

Also, I will continue rejecting the stupid and oversimplified false equivalency you keep making between tuning a CPU and applying a fan profile. Yes, both are done in BIOS, but that's about where the similarities end. The risk involved and the level of complexity are so staggeringly different that the two are simply not comparable. Also, fan profiles are reliably adjustable in software (though that software typically sucks, but that's another problem), unlike CPU power limits.
The reason why Intel (or even AMD for that matter) configure their CPUs the way they do is exactly because of reviewers.
Again, oversimplified. It was configured that way because of the complex mix of competitive realities, architectural and implementational physical characteristics of the chip, marketing, strategy, and more. "Because of reviewers" is a reductive and stupidly oversimplified summation of that.
Intel wants you to think that the 12900k is faster than the 5950x in MT, which is not. But the average user looking at a review will just glance over the very popular CBR23 benchmark and conclude otherwise. For the same reasons zen 3 was powerlimited way lower, cause AMD had no competition in heavy MT workloads back in 2020.
Uh ... Zen3 was power limited way lower because it literally doesn't scale higher. At all. There is no meaningful performance improvement to be had by pushing Zen3 higher. So, Zen3 wasn't power limited way lower because of no competition, but because if they set it to 240W, performance would likely be worse due to leakage currents and thermal issues, rather than better.
Comparing stock and just stock for efficiency would be fine if people understood what they are looking at. They don't. They can't even fathom the fact that the 12900ks for example is a better binned 12900k can be a lot more efficient. They see powerdraw at 900w and that's all that matters to them.
... and they would understand what they were looking at if you instead showed them arbitrarily power limited non-stock configurations? Yeah, your logic is wildly inconsistent here.
And frankly, if what I'm suggesting (testing at similar power limits) wasn't very very important, TPU wouldn't have done it in the first place, right? I mean im pretty sure the time it took them to benchmark the CPU at so many different power levels would have been insane, and kudos to them for doing so.
But ... nobody here is saying that this isn't important, or useful, or a great thing. It absolutely is! But it's an interesting and useful thing specifically for us enthusiasts, as it informs both our opinions and practices. It is explicitly not useful for anyone outside of this very small niche hobby (and perhaps a few other very niche groups, like SI system tuners and the like), because for even a well informed general audience, all it would do would be sow confusion. "Why doesn't my PC act like this? Your benchmark said X, but mine is A?" Etc. Presenting complex information like this is a complex communicative and pedagogical act, and not one suited for something aimed at giving a relatively representative overview, like a product review. It's a follow-up-article thing, for people who are prone to reading follow-up articles. And that's perfectly fine.
EG1. You are right about the prosumer market, I thought SR would have been HEDT, for some reason I was thinking sierra forest would be the xeon part
Ah, Sierra Forest is that E core only Xeon project, right? Yeah, no, SR is HPC/Server, AFAIK its biggest PR push is one of those exascale supercomputers. ... Aurora? I think? Intel HEDT is dead, and is showing no signs of returning. The closest thing they've got is Xeon-W - just like how AMD has killed TR, replacing it with TR Pro and EPYC (which are the same, just with marginally different tuning).
 
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And here we're back to the ... well, I think this highlights a part of the problem with this discusison: your reading of what others write is simple, superficial, and bordering on bad faith in its assumptions. How on earth am I "thinking that ignorance is better?" Have I said that anything is better anywhere? No. I'm talking about useful information, relevant knowledge. And knowing how a chip operates at the parameters at which it will be operating in >99% of use cases is more relevant knowledge than how it can operate in hand-tuned scenarios.

No, but then I have never argued for anything even remotely resembling what you're saying here either. Literally nothing you're saying here resembles what I've been saying at all. And if you think so: please, pretty please, try to actually read what I've been saying. Look at the words, and think about what they mean, without projecting some nefarious agenda into them. The solution to that CPU efficiency issue? Highlighting gaming power draw testing, and not using simplistic power testing for more than it's worth. (The problem with this is of course that gaming CPU power draw testing is really friggin' difficult due to driver variability and overhead, platform differences, actual gaming performance differences (which is largely GPU bound) and more, making a like-for-like comparison near impossible.)
I don't know why we are arguing about this. Only people that don't know they can power limit their CPU would be interested in how the CPU's perform at stock power limits. Hence ignorance. A couple of days ago I read someone complaining about the TDP on Ryzen 5 being raised to 125w TDP instead of 65 for the zen 3 model. Like....why would you care unless you don't know that you can put it back to 65w? I mean I swear to you, I cannot possibly think of any other reason why an end user would care about what powerlimit intel or amd decides to put on their products. I'm not even sure those are determined by the actual engineers, I think they are determined by the marketing department in order to position their CPU's against each others products.

Also, I will continue rejecting the stupid and oversimplified false equivalency you keep making between tuning a CPU and applying a fan profile. Yes, both are done in BIOS, but that's about where the similarities end. The risk involved and the level of complexity are so staggeringly different that the two are simply not comparable. Also, fan profiles are reliably adjustable in software (though that software typically sucks, but that's another problem), unlike CPU power limits.
I wasn't trying to compare the complexity, although in my opinion, it's easier to change your power limit than your fan curve. Not even kidding. At least for Intel, you can't even get into the bios without a huge POPUP asking you to choose the maximum wattage / cooler you have.

But my point is, a consumer will spend even more money than he already has to buy a worse product cause the review didn't bother testing at same noise levels. Which is pretty equivalent to testing at same power levels in my opinion when it comes to CPUs. Imagine random BOB replacing his 12900k for a 5900x cause the first is very inefficient, drawing 240w while the latter only sips power at 125w. Wouldn't that be completely stupid since he can limit his 12900k to 125w and actually outperform the 5900x?

Uh ... Zen3 was power limited way lower because it literally doesn't scale higher. At all. There is no meaningful performance improvement to be had by pushing Zen3 higher. So, Zen3 wasn't power limited way lower because of no competition, but because if they set it to 240W, performance would likely be worse due to leakage currents and thermal issues, rather than better.
And yet that's exactly what Intel did. Actually, the 12900k scales even worse than the 5950x from 125 to 240w, yet here we are.

... and they would understand what they were looking at if you instead showed them arbitrarily power limited non-stock configurations? Yeah, your logic is wildly inconsistent here.

But ... nobody here is saying that this isn't important, or useful, or a great thing. It absolutely is! But it's an interesting and useful thing specifically for us enthusiasts, as it informs both our opinions and practices. It is explicitly not useful for anyone outside of this very small niche hobby (and perhaps a few other very niche groups, like SI system tuners and the like), because for even a well informed general audience, all it would do would be sow confusion. "Why doesn't my PC act like this? Your benchmark said X, but mine is A?" Etc. Presenting complex information like this is a complex communicative and pedagogical act, and not one suited for something aimed at giving a relatively representative overview, like a product review. It's a follow-up-article thing, for people who are prone to reading follow-up articles. And that's perfectly fine.
I'm just too tired to reading the same nonsense over and over again from people that don't understand what graphs show you. Oh look - X GPU at 300w is more efficient than Y GPU configured at 900w. Hooray, like who cares? Again, unless you don't know you can change the power limits - quite easily imo (I know you disagree with that part), I don't see the point.
 
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This back and forth reminds me of a guy from some years ago (on a different forum), he flashed his HD 6950 with a 6970 BIOS. The flash took and the extra shaders were unlocked, but his card couldn't take the voltage boost to allow higher clocks to match an actual 6970 level. He argued with people defending his card and calling it a 6970 even though it was gimped.

The debate went back and forth on each side and no one in the end cared except for the couple of people wanting to pad their egos.
 
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I don't know why we are arguing about this. Only people that don't know they can power limit their CPU would be interested in how the CPU's perform at stock power limits. Hence ignorance. A couple of days ago I read someone complaining about the TDP on Ryzen 5 being raised to 125w TDP instead of 65 for the zen 3 model. Like....why would you care unless you don't know that you can put it back to 65w? I mean I swear to you, I cannot possibly think of any other reason why an end user would care about what powerlimit intel or amd decides to put on their products. I'm not even sure those are determined by the actual engineers, I think they are determined by the marketing department in order to position their CPU's against each others products.
This is still unbelievable what you are writing. And the problems that you are putting on there from so called "people" having problems with TDP of a processor? They are comparing Ryzen 5 to Ryzen 3 first of all and second what a bullshit of a problem especially if you can buy 5000 series ranging from 35w to 105w processors. Maybe they have picked the wrong processor if they are buying with TDP as a main purchase reason. It would seem again you want to justify your power limiting CPU argument by bringing up ''some people said'' they are upset with their purchase.
If you buy according to TDP you would not get 12900K and saying you can limit yest sure but you still use performance. It does not matter how much but you do which is not what you have paid for.
So please, stop this nonsense with limiting power to satisfy the TDP argument. When you limit power you limit performance and it is not what you have paid for. It does not matter how much you limit the CPU it is not being advertised as that and the price is not reflecting your opinion and power limit factors and how much efficient it is at 35w limit. do you know why? Because if I were to buy a CPU for $800 (or what is the price now?) and limit it to 35W or 50w (it really doesnt matter at this point) I would rather buy a dedicated CPU with that power range 35w-50w. Heck, for $800 i can buy the whole PC. You see how your arguments melt quickly with your flawed logic.
I wasn't trying to compare the complexity, although in my opinion, it's easier to change your power limit than your fan curve. Not even kidding. At least for Intel, you can't even get into the bios without a huge POPUP asking you to choose the maximum wattage / cooler you have.

But my point is, a consumer will spend even more money than he already has to buy a worse product cause the review didn't bother testing at same noise levels. Which is pretty equivalent to testing at same power levels in my opinion when it comes to CPUs. Imagine random BOB replacing his 12900k for a 5900x cause the first is very inefficient, drawing 240w while the latter only sips power at 125w. Wouldn't that be completely stupid since he can limit his 12900k to 125w and actually outperform the 5900x?
No. You get for what you pay not all the way around. You pay first and then you decide what you want this CPU to perform like? Full speed or half speed. This TDP or that TDP? That is bullshit.
This power limitations, tweaking is for enthusiasts not for everyone. This is a ridiculous argument. You can try things and see where it lands with power limits and decrease in performance but with other perks you may find valuable. Why would he buy 12900K if the 240w tdp is the most concern for him? He should have gone with 5900x from the start or 12600 non-k or if he needs more cores 12900T.
And yet that's exactly what Intel did. Actually, the 12900k scales even worse than the 5950x from 125 to 240w, yet here we are.
Intel did this to squeeze whatever left performance was there. Even if the cost of power consumption was high they went with it. Even though they did, still didnt top all the charts with AMD top processor.
That was their choice and you pay for that choice as well and a lot. Limiting it to brag about how efficient it is? Buy a 12900T which does not go above 110w in power consumption if i remember correctly but boost stays below 5GHz and it is cheaper.
 
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This is still unbelievable what you are writing. And the problems that you are putting on there from so called "people" having problems with TDP of a processor? They are comparing Ryzen 5 to Ryzen 3 first of all and second what a bullshit of a problem especially if you can buy 5000 series ranging from 35w to 105w processors. Maybe they have picked the wrong processor if they are buying with TDP as a main purchase reason. It would seem again you want to justify your power limiting CPU argument by bringing up ''some people said'' they are upset with their purchase.
If you buy according to TDP you would not get 12900K and saying you can limit yest sure but you still use performance. It does not matter how much but you do which is not what you have paid for.
So please, stop this nonsense with limiting power to satisfy the TDP argument. When you limit power you limit performance and it is not what you have paid for. It does not matter how much you limit the CPU it is not being advertised as that and the price is not reflecting your opinion and power limit factors and how much efficient it is at 35w limit. do you know why? Because if I were to buy a CPU for $800 (or what is the price now?) and limit it to 35W or 50w (it really doesnt matter at this point) I would rather buy a dedicated CPU with that power range 35w-50w. Heck, for $800 i can buy the whole PC. You see how your arguments melt quickly with your flawed logic.

No. You get for what you pay not all the way around. You pay first and then you decide what you want this CPU to perform like? Full speed or half speed. This TDP or that TDP? That is bullshit.
This power limitations, tweaking is for enthusiasts not for everyone. This is a ridiculous argument. You can try things and see where it lands with power limits and decrease in performance but with other perks you may find valuable. Why would he buy 12900K if the 240w tdp is the most concern for him? He should have gone with 5900x from the start or 12600 non-k or if he needs more cores 12900T.

Intel did this to squeeze whatever left performance was there. Even if the cost of power consumption was high they went with it. Even though they did, still didnt top all the charts with AMD top processor.
That was their choice and you pay for that choice as well and a lot. Limiting it to brag about how efficient it is? Buy a 12900T which does not go above 110w in power consumption if i remember correctly but boost stays below 5GHz and it is cheaper.
That's nonsense. Are you saying that if the 12900k was limited to 125w it would be cheaper? Of course not. Therefore I'm not paying for the TDP, im paying for the CPU. This is the exact kind of arguments I have a problem with. They are completely meaningless. What does it even mean that you "pay for that performance". Makes no sense. Absolutely none. I bought the CPU for the ST and gaming performance, so even limited to 125w it performs exactly the same on those scenarios. I also paid to have a very efficient CPU, and when limited to 125w it's exactly that.
 

Mussels

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Giving me infractions doesnt make you right, go ahead and tell me where im wrong. I'm sorry but TPUs review is obviously horribly wrong and whoever claims otherwise is in absolute denial. You dont even have to compare it with another review to realize its wrong. The 12600k matching the 12900k at same wattage is an obvious red flag that something is completely messed up.

Anyways, I've already posted 3 more reviews that show the same thing (igors lab, techspot and club365), so whatever you are claiming here (which you havent made clear) is absolutely wrong as well.

I just checked your post history, wtf are you even talking about? You just said that my test setup is flawed and not the TPUs and then you left the conversation. So what links and proofs are you talking about, lol
It's the part where you lied, that I called you out on.
You're just... continuing to lie. About everything.

No one can prove you wrong or even discuss what you're saying because you're just throwing things out chaotically - It's like you're so worried about being wrong that you're just throwing out anything and everything you can, acting like people getting bored and ignoring you is the same as you winning this argument you've made up.


Honestly, I've had enough - especially since the previous infractions you decided never happened were about you trolling AMD reviews and news posts on this exact topic.

Have a week off, think some things through. Come back with an improved attitude or it'll be a longer holiday next time... and don't try making alternate accounts. It'll be pretty obvious who you are, when no one else makes the wild claims you do.
 
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That's nonsense. Are you saying that if the 12900k was limited to 125w it would be cheaper? Of course not. Therefore I'm not paying for the TDP, im paying for the CPU. This is the exact kind of arguments I have a problem with. They are completely meaningless. What does it even mean that you "pay for that performance". Makes no sense. Absolutely none. I bought the CPU for the ST and gaming performance, so even limited to 125w it performs exactly the same on those scenarios. I also paid to have a very efficient CPU, and when limited to 125w it's exactly that.
Seriously read again because I'm not saying that and I have no idea where do you get this. BTW 12900T is cheaper and has a TDP of 110w but that is not the point here.
You are paying for performance obviously and then limit the performance to match your TDP but you still pay for performance. It does not make sense for me especially when you told the lame example about a dude buying 12900K and switching to 5950x due to hi TDP of the latter one. That was the stupidest example ever. Anyway read again cause you simply twist everything around or your comprehension of what's been said and what people are pointing out is very skewed.

It's the part where you lied, that I called you out on.
You're just... continuing to lie. About everything.

No one can prove you wrong or even discuss what you're saying because you're just throwing things out chaotically - It's like you're so worried about being wrong that you're just throwing out anything and everything you can, acting like people getting bored and ignoring you is the same as you winning this argument you've made up.


Honestly, I've had enough - especially since the previous infractions you decided never happened were about you trolling AMD reviews and news posts on this exact topic.

Have a week off, think some things through. Come back with an improved attitude or it'll be a longer holiday next time... and don't try making alternate accounts. It'll be pretty obvious who you are, when no one else makes the wild claims you do.
I thought Aussies have everything 'upside down' but this dude there, he's got upside down, reflected of a water surface ran through a prism and mirror imaged. Can't follow his chain of thought literally and I don't think it is a language barrier.
 

95Viper

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Get on topic... discuss the tech facts, not members.
Stop the insulting remarks.
Don't drag out a back & forth argument for 3 or more pages, it ruins the threads.
 
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<snip>

But I doubt that would change the current state, which is that Zen 3 is on average 50% more efficient and about the same or worse efficiency in the worst case (heavily biased towards intel by running it in optimised mode).

That's demonstrably wrong outside of a handfull of strictly multi-core workloads, which are typically used (erroneously) by these sites to show 'worst case' power situations.

PCWorld did a more thorough examination under more realistic scenarios than running Cinebench. So has Igor's Lab.

"The problem with painting the entire 12th-gen chip with the broad brush of an all-core or single-core load is reality isn’t like that. For the next results, we captured both systems running Puget System’s PugetBench Premiere Pro benchmark. Most assume Adobe Premiere Pro will hammer all of the CPU all of the time, but it’s really a mix of different CPU and different GPU tasks at work. It’s actually a little surprising, but instead of Ryzen 9 easily winning from its better all-core power efficiency, it’s pretty much dead even. In performance, the Core i9 actually outscores the Ryzen 9 by 40 percent when the integrated graphics (IGP) are enabled and by 6 percent when it’s off. For this test, we show power consumption when the IGP is off. Considering that Premiere is probably one of the more intensive applications a regular nerd will use, it tells us that those who insist the 12th-gen Core i9-12900K will be a “power hog” are vastly overstating the situation."

So with that, actual measured power draw over time, Purple is AMD the dark red is Intel 12900K.

Gaming - 12900K wins on power efficiency, and is faster :





Adobe Lightroom and Photoshop, again the 12900K is more power efficient than the 5950X (purple is AMD, red Intel):




So what you are talking about is some kind of odd "proof" based on singular use cases, like Cinebench.

So indeed, if your use case is to run renders all day long, 5950X is the chip for you.

Real question, is that what you do with your PC?

If not, why do you care about Cinebench?
 

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"Core i9 actually outscores the Ryzen 9 by 40 percent when the integrated graphics (IGP) are enabled and by 6 percent when it’s off. For this test, we show power consumption when the IGP is off."

Yeah... because it's using hardware encoding/decoding of the IGP? That's a pretty good example of misinterpreting the results.
That 6% win, is the CPU performance difference.

As to what gamers do with their PC's?
They game. On anything but a 5950x.

Where you'll find that everyone talking about AMD being more efficient at gaming still holds up
1660627409880.png
1660627999021.png


Doesn't matter if its power consumption over time measured in never-ending tasks

Or tasks that benefit from finishing the job faster
1660627495717.png




It's strange the ways people reach to describe this stuff - no gamer needs or wants a 5950x or a 12900K/F.
The gaming performance difference between them is tiny.

When you're looking at options that perform within 6% (Per your claim)

or 1.5-10% (TPU's claims)
1660627563609.png
1660627596765.png


At low resolutions when not GPU limited, intel have a performance advantage.
That's when their power consumption goes up.
Anything that prevents the CPU from reaching those high turbo states and the high power consumption, also prevents that performance advantage. They happen together, or not at all.


The argument that "My 12th gen intel isn't bad with power consumption because it's GPU limited" is just so... strange.
Because you can get that exact same performance from a CPU that wont suddenly triple in power usage any time the CPU actually has work to do.

Anything beyond a 12600K, is simply not power efficient by any metric - single threaded, multi threaded, or total consumption for a task like rendering.


You can get a 5600x or a 12600K and unless you're running at 1080p 360Hz with a 3090Ti, the higher end CPU's from AMD and Intel literally just throw away power for no gains.
Running GPU limited or with a frame cap reduces that, but if you *rely* on that you might as well underclock the CPU because you're relying on low enough load do automatically do it for you.

It's buying a 3090Ti, gaming at 720p 30Hz with Vsync on and claiming it's the most power efficient GPU of all time.

If you don't care about cinebench, rendering or multithreaded workloads why would you buy anything greater than a 6 core CPU?
 

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