- Joined
- Apr 12, 2021
- Messages
- 903
- Motherboard
- Asus z590 ROG Maximus XIII Hero
- CPU
- i9-11900K
- Graphics
- RX 6600 XT
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- Classic Mac
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I'm intrigued at how Intel is building a pyramidal response to increasing performance: a peak of 2 cores going all out, a middle layer of 6 power hungry P-cores, and a base of 16 low-clocked E-cores. This gives a mix of responsiveness that's overtly marketable as advancing on all fronts.
Does anyone think ECC RAM should become standard for this scheme, or does the performance envelope depend on ignoring errors, or something else re DDR5?
No story here on improved coupling of heatsink to package, nor of wild new temp limit, so I am wondering how the heat is moved out of the die? Maybe it's covered by increased die area alone (a huge chip with a lot of E-cores)
As to what sales angle is gated by 7zip performance...?
Progress marches on.
Does anyone think ECC RAM should become standard for this scheme, or does the performance envelope depend on ignoring errors, or something else re DDR5?
No story here on improved coupling of heatsink to package, nor of wild new temp limit, so I am wondering how the heat is moved out of the die? Maybe it's covered by increased die area alone (a huge chip with a lot of E-cores)
Intel Core i9-13900K Raptor Lake CPU Comes With "Extreme Performance" Mode, Up To 350W Power On High-End Z790 Motherboards
Intel's Raptor Lake flagship, the Core i9-13900K, is going to feature a new "Extreme Performance" mode on high-end Z790 motherboards.
wccftech.com
As to what sales angle is gated by 7zip performance...?
Intel Core i9-13900K Raptor Lake CPU Shows Huge Increase In Compression & Decompression Benchmark, Up To 60% Faster Than 12900K
New benchmarks of Intel's Core i9-13900K Raptor Lake CPU have appeared, showcasing the compression & decompression performance.
wccftech.com
Progress marches on.