Specifications of the Intel Tiger Lake-H Core i9-11980HK have come to light indicating 200 MHz higher base and 300 MHz lower boost clocks compared to its predecessor, the Core i9-10980HK. The leaked specs also indicate that the Core i9-11980HK may potentially offer improved AVX-512 performance when the TDP is configured up to 65 W.
https://www.notebookcheck.net/Intel-Tiger-Lake-H-Core-i9-11980HK-specs-10-nm-Enhanced-SuperFin-chip-offers-300-MHz-lower-boost-than-Core-i9-10980HK-but-clocks-higher-in-AVX-512-at-65-W-cTDP.526552.0.html
I believe TGL is SF. Alder Lake is ESF.
Quote from: JayN on March 07, 2021, 22:16:44
I believe TGL is SF. Alder Lake is ESF.
I could be wrong, but I remember reading somewhere that TGL-H will also be ESF though we know ESF is definitely coming with ADL. Thanks for pointing it out. Corrected the headline :)
It only took:
AMD going 7nm
Apple going 7m
other companies churning their own processors
for intel to go 10nm -.-
These processors are essentially dead on arrival...
Not really, unlike Rocket Lake, 10nm superfin should be comparable to AMD's 7nm, so benchmarks should be more interesting.
I'm surprised that intel didn't go for another 6 core with higher clock speed though. Would make more sense than those H35 cpu's
Quote from: undervolter0x0309 on March 07, 2021, 23:12:27
It only took:
AMD going 7nm
Apple going 7m
other companies churning their own processors
for intel to go 10nm -.-
There's plenty of analysis to show Intel's 10nm is comparable to Global Foundaries/Ryzen 7nm process - same transistor density etc. Since 90nm, process naming has less to do with actual physical measurements and more to do with marketing - it's all of case of where you decide to measure. Much like the gigahertz myth of the late 90's - 2000s
Ultimately it's transistor density as well as the how fast these transistors can switch at high power levels for the performance desktop market that actually matters - here Intel 10nm is predicted to be comparable to Global Foundries 7nm..