AMD Ryzen 7 4700U is seen in PCMark 10
The next generation of APUs from AMD could arrive early next year. The current Ryzen 3000 generation APUs contribute little compared to the Ryzen 2000 APUs, because in both cases they are cores under the 12nm lithography. This new generation of APUs will be based on the Zen2 @ 7nm architecture. Specifically, the Ryzen 7 4700U under the software PCMark 10 benchmark.
One solution, these AMD APUs, ideal for low-cost gaming systems. The great advantage is that they offer an optimal iGPU to play eSports titles under 1080p resolutions. With the integration of iGPU Vega, acceptable performance has been achieved for simpler titles.
- Default tdp / tdp: 65w
- Number of CPU cores: 4
- Max boost clock: 42ghz
- Thermal solution: wraith spire
- Pci express version: pcie 30 x8
Ryzen 7 4700U APU First Benchmark
AMD wants to make a big leap with its next generation of APUs, especially in its notebook side. This new Ryzen 7 4700U APU for laptops offers 8 cores and 8 threads of processing. Regarding frequencies, this processor starts at 2.0GHz and arrives in Boost mode at 4.2GHz.
This new processor easily outperforms processor Intel Core i7-10510U what implements 4 cores and 8 threads. This processor works at 1.8GHz and comes in Boost mode at 4.9GHz under the 14nm ++ lithography. Of course, it is slightly behind the processor Core i7-10710U with 6 cores and 12 threads. This processor works at a frequency of 1.1GHz and reaches in Boost mode up to 4.7GHz under the 14nm lithography ++
Perhaps the most relevant is that the Ryzen 7 4700U outperforms the Ryzen 3 XNUMXU by XNUMX% Core i7-1065G7. Intel processor has 4 cores and 8 threads working at 1.3GHz and reaching 3.9GHz in Boost mode under 10nm lithography. AMD APU outperforms Core i13-7U by 10510%, 18% faster than Ryzen 7 3700U, but 12% slower than the Core i7-10710U.
According to the data, this Ryzen 7 4700U processor will be accompanied with graphics Radeon GFX902 of which we do not know anything. Possibly based on the Vega architecture, but we don't know much more.
Source: VZ