For one, a CPU with one 3D V-Cache chiplet is cheaper to produce than one with two, keeping prices down. This asymmetric design may sound odd, and it does have its drawbacks, but there are some clear advantages here too.
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The big difference here is that the 7950X3D sports an asymmetric design, with one of its chiplets receiving the 3D V-Cache upgrade in exchange for a slight penalty in terms of maximum frequency, while the other chiplet retains the smaller cache size and frequency of the 7950X it's based on.
Ryzen CPUs have used a chiplet design since their inception, with the low to mid-range parts using a single chiplet ("CCD" in AMD nomenclature) of up to eight cores and the high-end parts using two chiplets, and that continues with the 7950X3D.
Now its first two successors have arrived to try and capture the same magic, the Ryzen 9 7950X3D and 7900X3D - with the Ryzen 7 7800X3D set to debut in April.Īll three ought to be predigious performers, but can they wrest the 'best gaming crown' from Intel's 13900K? And with a more capable socket, faster DDR5 RAM and a more advanced manufacturing process, is the bigger 元 cache as transformative for Ryzen 7000 as it was for Ryzen 5000? To find out, we've been testing the flagship Ryzen 9 7950X3D, which delivers 16 Zen 4 cores and 3D V-Cache for £699/$699 - the same RRP as the original 7950X.īefore we get into the content creation and gaming benchmarks, it's worth outlining what makes the 7950X3D's hardware so fascinating. The Ryzen 7 5800X3D was a truly special CPU for AMD, a fitting tribute to the long-lived AM4 platform with gaming performance that dwarfed other Ryzen 5000 processors thanks to its 3D V-Cache design.
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