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I think I've read somewhere that having the CPU and GPU on the same chip can reduce certain latencies and improve performance beyond what you would expect from the equivalent powered discreet GPU and CPU, whether this is true or not I don't know.Hardware Unboxed have recently done a video benchmarking the Ryzen 5 2500U in the HP Envy x360 which has the APU configured at 25W TDP (when plugged into the wall). The gaming performance is impressive being able to average 32 FPS @ 1080p in Metro Last Light medium settings, that's not bad considering its 25W TDP. For comparison from other reviews the mobile GTX 965M gets around 63 FPS @ 1080p Medium, and a GTX 750Ti + 4670K@3.4GHz gets around 53 FPS @ 1080p Medium.Not sure how this would scale up when going from 25w > 65W (and maybe 95W K chips?), but maybe we can expect something in the region of 250% better performance for the 65W desktop versions?[MEDIA=youtube]TOdFZYuG78w[/MEDIA]
I think I've read somewhere that having the CPU and GPU on the same chip can reduce certain latencies and improve performance beyond what you would expect from the equivalent powered discreet GPU and CPU, whether this is true or not I don't know.
Hardware Unboxed have recently done a video benchmarking the Ryzen 5 2500U in the HP Envy x360 which has the APU configured at 25W TDP (when plugged into the wall). The gaming performance is impressive being able to average 32 FPS @ 1080p in Metro Last Light medium settings, that's not bad considering its 25W TDP. For comparison from other reviews the mobile GTX 965M gets around 63 FPS @ 1080p Medium, and a GTX 750Ti + 4670K@3.4GHz gets around 53 FPS @ 1080p Medium.
Not sure how this would scale up when going from 25w > 65W (and maybe 95W K chips?), but maybe we can expect something in the region of 250% better performance for the 65W desktop versions?
[MEDIA=youtube]TOdFZYuG78w[/MEDIA]
