AMD Ryzen 7 7840U tested: Desktop powered

Launching the Ryzen 7000 series desktop processors in the past months, AMD has turned its focus to the "Phoenix" series laptop processors with the Zen 4 architecture.In this context, the top model Ryzen 9 7945HX, especially laptop processors, has turned its focus in the past months.
 AMD Ryzen 7 7840U tested: Desktop powered
READING NOW AMD Ryzen 7 7840U tested: Desktop powered
Launching the Ryzen 7000 series desktop processors in the past months, AMD has turned its focus to the “Phoenix” series laptop processors with Zen 4 architecture. In this context, we have briefly mentioned that the top model Ryzen 9 7945HX pushes the limits especially in laptop competition. Now the family’s “U” The first information from the ‘ series started to come in. Today, Ryzen 7 7840U was tested on Cinebench platform.

AMD Ryzen 7 7840U could be class leader

For those who don’t know, the AMD Ryzen 7 7840U will be one of the mid-range Phoenix APUs aimed at thin laptops with a TDP of 15-28W. This new CPU is powered by the RDNA 3 Radeon 780M integrated graphics unit, in addition to 8 cores and 16 threads based on the Zen 4 architecture.

According to the shared images, the Ryzen 7 7840U scores 14,824 points in Cinebench R23 multi-core tests and 700 points in single-core tests. We can say that this score looks quite impressive for a processor with a base clock speed of 3.3 GHz, eight cores and a relatively limited power budget.

Because, as can be seen above, the new processor lags behind the 14-core Intel 12700H with a slight difference, while performing higher than the 45W Ryzen 9 6980HX. It should also be noted that this score is close to the desktop Ryzen 5 7600X. On the integrated graphics unit side, the processor supported by Radeon 780M scores around 3000 points in 3DMark Time Spy, which we can say close to Nvidia GTX 1650.

AMD Ryzen 7040U Phoenix processors are expected to launch in thin and light notebooks next quarter. For this reason, it should not be forgotten that there may be changes in the final performance of the processors.

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