Per TSMC, N3E (the version most people will be using) has 3-8% more performance than N3B. There’s almost no scaling difference between N4P and N3E sans DTCO
This is the bar that Intel 18A has to clear. If 18A manages to get >10% better performance than N4P they’ll have process leadership next year.
Don't think that graphs hold up, aren't the architectures different? I wouldn't be so quick to blame TSMC.
Also a more direct comparison between PPA of Intel and TSMC would be seen with ARL. Just need to wait a year.
AFAIK Intel 3 is meant only for Sapphire and Granite Rapids. Do you have any thoughts as to why they are seemingly skipping that node for client?
Why use Intel 3 when you could use Intel 20A (for ARL)?
I'm assuming that is still cancelled and all you will see is Arrow Lake at TSMC
Rumor still is that ARL-U is MTL refreshed, though idk if it will be Intel 4 or Intel 3. Don't think it's cancelled
The thing is, TSMC Finflex seems a much more affordable and higher-yielding solution.
Based on what? It's lauded for allowing greater flexibility (so better optimization for perf/watt) not for it's ability for greatly increasing yields
So is it still 18A, or more of a 20A+? Since Intel is seemingly pulling 18A in because high-NA isn't ready do we credit them for being on time, or do we blame Intel by saying 18A isn't what was originally promised?
Intel mentioned that Intel 18A never required high NA to work. It was completely optional. Pretty sure it's just used to improve yield/reduce complexity of the fabbing process, not actually changing any specs.
5 nodes in 4 years is marketing speak. In reality it’s 2 nodes in 4 years with Intel 4/3 and Intel 20A/18A being the 2 separate nodes.
Intel 20A/Intel 18A is not really a separate node from Intel 4/Intel 3. Same thing with TSMC 2nm vs TSMC 3nm. Though I'll eat my words if that level of density shrinks start becoming the norm.
Does Samsung not have a chance of gaining the process leadership?
Funnily enough Samsung also has been claiming that they will gain leadership in 2025 IIRC, just like Intel
Also for some reason I have an uneasy feeling that something could be up with Meteor Lake.
You sure it's not some uneasy
hope that something could be up with MTL? lol
It's kind of strange that Intel provided so much data but absolutely no performance data.
Perf gains are like nonexistent for MTL to be fair.
Seems like they are still trying to get performance to where it needs to be
Really? What about all the GB6 leaks of MTL online? These can be found publicly I'm pretty sure. MTL is hitting 5GHz already in ST, and it's max frequency is rumored to only be a 100-200MHz higher.
but if they are releasing in December then wouldn't parts already have been getting binned for quite some time now?
Not if they don't have volume. Didn't they announce they are a bit behind in converting one of their fabs to Intel 4? IIRC they only have one site where they are in HVM with Intel 4.
TSMC supposedly had N3B in "production" this entire year but with the only known product on that node shipping last week it is hard to claim anything else other than N3B was delivered in Sept 2023.
What's the problem with TSMC saying that? I don't see anything wrong about it. You do know stuff takes a while to ramp, right? I mean it's valid to say a node isn't complete until the product is launched, sure, but that doesn't mean companies have to be lying when they say there are in "HVM". Those things aren't mutually exclusive.
Given that Meteor Lake is hardly a big architectural change any issues that restrict performance or have delayed its launch pretty much have to do with the process not the chip design.
Glances at MTL "C0" steppings
Sure... there are no problems with the chip design... sureeeee
TSMC's issues with N3 have a lot of Intel boosters excited that Intel will retake the lead, as if Pat Gelsinger can wave a magic wand and erase all the issues that caused Intel's fabs past difficulties.
It did set back the "working" N3 node by a year, so yes, it really did help Intel's chances. Maybe not directly, but to pretend that TSMC falling behind isn't indirectly helping Intel is dumb.
TSMC had years of successful problem-free experience with EUV until they ran into significant issues with N3.
Intel had years of success problem-free experience with DUV too...
I would add that TSMC's N3 problems could make it more likely that Intel has similar issues. That is, if it turns out TSMC's problems were more due to limitations of EUV technology itself rather than screwups on the part of their engineers.
Looks like N3B is bad because they tried using too much EUV. Pretty sure Intel 4 is rumored to use drastically less EUV layers than N3B.