Since its first appearance with a prototype, AMD Radeon Rx Vega GPU has massively been in speculations throughout the world of technology. The graphics card recently saw some potential leaks along with AMD's update over Linux platform. The leak revealed too much about its expected specs and features. Now, according to the latest report, AMD Radeon RX Vega also secured eye-catching performance level in 3DMark Fire Strike benchmarking which is evolved by a promising and trusted name in GPU benchmarking: Futuremark.

According to Hot Hardware, the benchmark listing showcased the marking number: 687F:C1, which hints to the same content which was earlier demonstrated in this year's Consumer Electronic Show as a Vega 10 prototype. The Vega 10 variant then fetched ultimate performance ranging with 60 Frames per second rate. In the demonstration, it even thrilled the audience there with 70 fps and even more frame speed, evolving 4K contents at Ultra settings. In the newest 3DMark Fire Strike benchmarking, the supposed variant of AMD Radeon RX Vega thrilled with even better flawlessness.

Tweak Town pointed that the listed AMD Radeon RX Vega graphics unit in the 3DMark Fire Strike was clocked with its alleged Vega 10 GPU settings at 1200 MHz. The card's memory, which is supposed to be made of 8 GB second-generation high bandwidth memory, was rolling at 700 MHz. The benchmarking resulted into a fantastic performance scoring at 14, 412. In the testing format, the AMD Radeon RX Vega graphics card was attributed to Asus Prime X370-Pro motherboard coupled with a Ryzen 7 1800X processor, which thrilled all its nearest rival cards and stood second with the costlier GeForce GTX 1070 GPU scoring the highest rate of 14, 582.

However, AMD Radeon RX Vega clinched better graphics score than GeForce GTX 1070. While the later was able to secure 16992 in graphics scale, AMD Radeon RX Vega graphics card scored: 17801. AMD is also expected to utilize the time before its release to increase its performance ratings as well with more effective measures.