this is pretty good information so far. so VR, HVEC, H.264, vp9 4k resolution playback. um, coming from the broadwell architecture, well, especially for gaming PCs, not necessarily for work-load PCs. shipping 7700k's at 4.5 turbo without a "liquid cooler" or really any cpu-heatsink at all, isnt that a bit decieving or reckless. for example when translating like GNU libraries, HTML, PHP, c++, NVIDIA/AMD cuda cores, ram extentions from gpu to cpu, i don't particularly think this turbo boost speed would do well. to give an example of the throughput chain is like Need for speed Online. well something with a high bit-rate and obviously using alot of threads, with just a standard cooler, is like a melt-down/shut-off case for at least one component in the PC. if they put these in slim-orientated/non-heatflow type of models eventually like laptops i can see alot of tech repairs being needed. so, particularly for alot of people these days youtube videos function on vp9 so over skylake even 1080p+ and probably the entire site will function faster/smoother which is great for people that don't like to read.
people are overclocking skylake to 4.4-4.5 pretty stable, but turbo boost is different. in mathematics, with other components is not rounded off or particularized linearly. especially when dealing with
4.2ghz for the cpu
1.8-2.025ghz for new gpus
2400-3600ghz for new ram
2400+ is good for the GPU kind of except its internal frequencies can be 8k to 10k
so a factor of 4 is actually closer.
about 3 or 3.2 would be good for the cpu through the mobo bus frequency.
then wireless/wired data from 54mbps and 16-40gbps
well if you get the picture it seems like instability in a sense of clock formation. 4.5? already at 95w....
i dont know, in a way it seems like it is the processor to get 77 is actually translates to "christ" in gemetria or the spiritual master, and is also nietzche's rational thought number.
in other ways i dont think its finished yet.
