In a groundbreaking development for AMD's X3D processor line, the Ryzen 7 9800X3D has achieved an unprecedented clock speed of 7.241GHz. This milestone marks a significant shift in the overclocking capabilities of X3D processors, which were previously limited in this regard.
Taiwanese overclocker TSAIK, using MSI's MEG X870E Godlike motherboard, pushed the 9800X3D to new heights. This achievement demonstrates AMD's commitment to enhancing the performance and flexibility of their processors.
To reach this extraordinary frequency, several adjustments were necessary:
- Hyperthreading was disabled
- A multiplication coefficient of 70 was applied
- The base clock (BCLK) was set to 103.46 GHz
The extreme nature of this overclock required liquid nitrogen cooling to manage the intense heat generated. The processor's core voltage (VCore) reached a staggering 1.969V, as reported by CPU-Z.
It's worth noting that this overclock was primarily focused on achieving maximum frequency rather than running stability tests or benchmarks. The overclocking community is eagerly anticipating further experiments to see how the 9800X3D performs in various tests at elevated clock speeds.
This development opens up new possibilities for enthusiasts and overclockers, potentially sparking renewed interest in AMD's X3D processor line. As more data becomes available, we'll gain a clearer picture of how these overclocked X3D processors stack up against their competitors in real-world scenarios.
The ability to overclock the 9800X3D represents a major leap forward for AMD, addressing a longstanding limitation of their X3D processors. This breakthrough could have far-reaching implications for the high-performance computing landscape, offering users unprecedented levels of customization and power.