![]() #INTEL QUICKSYNC AND BLENDER PRO#I’ll also add that both these processors stabilize at roughly 85-90% of their maximum potential in these VivoBook Pro mid-tier designs, and they would be able to perform 7-15% higher in beefier notebooks with more complex cooling modules. Both are within their design tolerances, though. On the Performance profile, while the Intel CPU averages 82-84 degrees Celsius on Performance mode in this test, the AMD CPU runs at 88-90 degrees Celsius. This test clearly favors the 8C/16T Ryzen 7 5800H processor, which ends up outscoring the 4C/8T Core i7-11370H by as much as 80% on the Performance profile, by 2x on the middle-ground Standard profile, and by almost 3x when the two laptops run in battery mode.Īt the same time, the Ryzen configuration also runs at slightly higher power in all cases, which results in a slight increase in noise levels over the Intel variant, as well as higher internal temperatures. ![]() So with that out of the way, we’ll first touch on the sustained CPU multi-core performance in the Cinebench R15 loop test, which runs the same test for 15+ times in a loop, with 1-2 sec delay between each run. Intel Core i7-11370H vs AMd Ryzen 7 5800H comparison in the same chassis These are the kind of information we go over in our reviews. We’ll touch on this down below, as this aspect would weigh in heavily if you decide to opt for configurations without any sort of dedicated graphics.īefore we get to talk benchmarks and numbers on the two Vivobook Pro 15 models down below, make sure to understand that not all laptops are created equal and that the performance is going to differ between units, based on their power settings and thermal designs. For the most part, the Intel solution is up to 25% faster in GPU loads and games, based on our tests. Furthermore, the Intel chips also benefit from a few extra perks such as support for faster PCIe gen4 storage, better WiFi+ integration, and support for Thunderbolt 4.0 or QuickSync.īoth chips come with integrated graphics, with Radeon Vega on the AMD processor and Iris Xe on the Intel side. But, thanks to early Linux development work on Meteor Lake, we see exciting hardware changes on future CPU architectures before launch.On the other hand, the higher single and multi-core clocks of the Intel Core H35 chip, corroborated with the improvements in IPC over the Ryzen Zen3 platform, allow it an advantage in single-core clocks and light daily multitasking. Unfortunately, we won’t see these new changes for a while since Meteor Lake is still at least a year or two away from release, with Intel busy preparing its upcoming 13th Gen Raptor Lake lineup. As a result, we should expect more advanced features such as AV1 encoding to make their way to consumer-based Meteor Lake chips. These changes include further architectural modifications to the graphics unit and transitioning to Intel’s Arc Alchemist GPU architecture. #INTEL QUICKSYNC AND BLENDER PATCH#Phoronix saw this change based on new Linux enablement work for Meteor Lake, which includes patch notes detailing the SMU changes. In addition, Intel server CPUs and potential HEDT chips could also benefit from this change since Intel disables the integrated graphics chip from these CPU lineups altogether. ![]() As a result, F-series Meteor Lake processors should theoretically gain access to all of Intel’s media features – including QuickSync, even with the iGP disabled at a silicon level. The situation gets even better if older discrete GPUs are installed that lack modern hardware acceleration codecs, such as AV1 or H265 encoding.Īnother perk of this transition is related to Intel’s F-series processors, which lack integrated graphics altogether. In a real-world scenario, once Meteor Lake launches, users building gaming PCs or content creation machines on the future platform will have access to all of Intel’s high-quality video decoding engines and Intel QuickSync technology, even if integrated GPU is disabled in favor of a discrete graphics card, which frees up memory resources and power resources - moving them towards the CPU entirely. It is a significant change by Intel, which will allow media functionality to be used at all times, even if the integrated graphics chip is disabled. In a surprising twist, Intel’s future 14th Generation Meteor Lake CPU architecture will reportedly split video playback and encode functionality from the integrated graphics into a new area known as an SMU or Standalone Media Unit on the CPU, as reported by Phoronix. ![]()
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