- The workstation processor Threadripper Pro 9995WX of AMD reached 6 GHz and established New World Performance Records
- ASUS overclockers carried the 96 -core CPU to new heights with a liquid nitrogen cooling configuration
- The new flagship of the Threadripper 9000 series combines extreme specifications with unlocked overclocking potential
AMD’s new Threadripper Pro 9995WX is already demonstrating to be the most powerful workstation CPU available.
The upper end offer in the newly launched Threadripper 9000 series, the 9995WX presents 96 nuclei, 192 wires, a 2.5 GHz base watch and an increase speed of up to 5.4 GHz.
It also admits 144 usable PCIe Gen5 lanes, 128 MB of L3 cache and 8 -channel to up to 6400mt/s.
Records
Now for sale, with a price of $ 11,699 in Amazon and Newgg, 9995Wx is technically designed for high -end work stations, but it has already become a popular option in the extreme overclocking scene.
Using liquid nitrogen and an ASUS Pro WRX90E-Sage SE, the member census of the Overclocking Asus team brought the chip to almost 6 GHz in the 96 nuclei, reaching a Cinebench R23 score of 227,817, which is a world record of all time.
The CPU cooled at -47 ° C during the session and was fed by a PSU of 2,000W.
The clock speeds were stable between 5,746mhz and 5,950MHz, allowing the chip to maintain the complete core stability under sustained loads.
This action exceeded the previous record of 210,000 points established by the 7995Wx chip previous of AMD, and positions 9995Wx firmly at the top of the Hedt segment.
In total, 9995WX was part of eight new world records and reference results in the first place in Cinebench, Geekbench, 7-Zip, Hwbot X265 and Y-Cruncher.
Asus Overclockers Cens, OGS, Seby and others used the same chip to take the best points in global and hardware categories.
The 9995WX can be aimed at professionals, but its unlocked design and its massive core count also make it a showcase for what the current desktop CPU engineering can achieve.
Boardly with a high -end table and a liquid nitrogen cooling, Asus demonstrates how hard a work station processor can be pushed.
