Extreme Player from China was able to get at their disposal the engineering sample of the Intel Core i9-13900K processor and tested it in several games and benchmarks. Earlier, we have already seen that the novelty bypasses the i9-12900K by about 10% in single-flow calculations and by 35% in multi-flow, but then nothing was known about the games.
Today we have the processor tests in Horizon Zero Dawn, Red Dead Redemption 2, Farcry 6, Forza Horizon 5, Monster Hunter Rise, Pubg and 3DMark. Colleagues tested the ASUS ROG Z690 EXTREME motherboard with 32 gigabytes of DDR5-6400 RAM. As a video card, the MSI GeForce RTX 3090 Ti SUPRIM X was used, and all this was eaten from the 1500-watt power supply.
If you divert average results, it turns out that the engineer I9-13900K bypasses the i9-12900K by about 4.46% in the average framework, but the largest growth (11-28%) is noticeable already in processor-dependent scenarios (3D mark Physics and statistics of 1% in games).
There is also a significant increase in energy consumption, which varies from 3 to 44 W relative to i9-12900K, depending on the load. In the vast majority of games, the engineer consumes noticeably more energy in complete independence from permissionExtreme Player from China was able to get at their disposal the engineering sample of the Intel Core i9-13900K processor and tested it in several games and benchmarks. Earlier, we have already seen that the novelty bypasses the i9-12900K by about 10% in single-flow calculations and by 35% in multi-flow, but then nothing was known about the games.
Today we have the processor tests in Horizon Zero Dawn, Red Dead Redemption 2, Farcry 6, Forza Horizon 5, Monster Hunter Rise, Pubg and 3DMark. Colleagues tested the ASUS ROG Z690 EXTREME motherboard with 32 gigabytes of DDR5-6400 RAM. As a video card, the MSI GeForce RTX 3090 Ti SUPRIM X was used, and all this was eaten from the 1500-watt power supply.
If you divert average results, it turns out that the engineer I9-13900K bypasses the i9-12900K by about 4.46% in the average framework, but the largest growth (11-28%) is noticeable already in processor-dependent scenarios (3D mark Physics and statistics of 1% in games).
There is also a significant increase in energy consumption, which varies from 3 to 44 W relative to i9-12900K, depending on the load. In the vast majority of games, the engineer consumes noticeably more energy in complete independence from permission.