AMD just announced that Vega GPUs and the Radeon 500 series will officially launch in the second quarter of 2017. Furthermore, the company confirmed that its resident graphics guru Raja Koduri Chief Architect of the Radeon Technologies Group will take the stage at the upcoming "Capsaicin and Cream" press event at GDC 2017 to talk about upcoming Radeon Vega GPUs.

The Capsaicin and Cream event is due on the 28th of February and will be streamed live over the web. The event will include an exclusive look at the company's upcoming Radeon 500 series graphics cards. More performance benchmarks and gaming demonstrations are expected. So all of you AMD fans make sure to mark that date down in your calendars.

AMD Ryzen 7 2700X 3DMark Benchmarks Leaked, 18% Faster vs 1700X & Cheaper

AMD Capsaicin & Cream press release excerpt: Hosted by Radeon Technologies Group's Senior Vice President and Chief Architect, Raja Koduri, the show will be a celebration of PC gaming, the technology steering its future, and the developers who work tirelessly to transform their imaginations into tomorrow's blockbuster games. The one-hour live event will offer PC gaming enthusiasts and developers around the world a preview of AMD's latest graphics and processor technologies, reveal exciting new details surrounding Vega, and showcase the summer's most anticipated PC and VR games from visionary game developers.

AMD Demos Enthusiast Vega Graphics Card & Ryzen 7 1800X CPU Running Star Wars Battlefront At 4K 60FPS+

AMD took the opportunity to showcase what a high-end all AMD system would be capable of in 2017 at Ryzen's announcement press event. The company demonstrated an all AMD system equipped with the $399 8-core 16-thread Ryzen 7 1700X CPU paired with an enthusiast Vega graphics card running Star Wars Battlefront at 4K. The resulting performance was incredible.



















Members of the press attending the event were allowed not only to play on this demo system but actually see what's inside it and even go outside of the game to verify the specifications. The Vega + Ryzen machine managed to deliver a 60 FPS plus framerate throughout. This isn't the first demo we've seen of Vega however. An early engineering sample of Vega has already been demonstrated in action, outperforming the GTX 1080 by approximately 10% in DOOM whilst running on alpha 300 series Fury drivers.

AMD Vega Lineup

Graphics Card Radeon R9 Fury X Radeon RX 480 Radeon RX Vega Frontier Edition Radeon Vega Pro Radeon RX Vega (Gaming) Radeon RX Vega Pro Duo GPU Fiji XT Polaris 10 Vega 10 Vega 10 Vega 10 2x Vega 10 Process Node 28nm 14nm FinFET FinFET FinFET FinFET FinFET Stream Processors 4096 2304 4096 3584 4096 (?) Up to 8192 Performance 8.6 TFLOPS

8.6 (FP16) TFLOPS 5.8 TFLOPS

5.8 (FP16) TFLOPS ~13 TFLOLPS

~25 (FP16) TFLOPS 11 TFLOLPS

22 (FP16) TFLOPS >13 TFLOLPS

>25 (FP16) TFLOPS TBA

TBA Memory 4GB HBM 8GB GDDR5 16GB HBM2 TBA TBA TBA Memory Bus 4096-bit 256-bit 2048-bit 2048-bit 2048-bit 4096-bit Bandwidth 512GB/s 256GB/S 480GB/S 400GB/S TBA TBA TDP 275W 150W TBA TBA TBA TBA Launch 2015 2016 June 2017 June 2017 July 2017 TBA

Everything We Know About Vega 10 & The Vega Architecture

– 4x power efficiency vs. the Fury X in half precision compute, 2x efficiency in full precision workloads.

– Earliest demos showed Vega 10 outperforming the GTX 1080 by 10%.

– Will officially be released in the second quarter of 2017, rumored to be landing in May.

– 80% of AMD's driver team is currently working on polishing the drivers for Vega.

– Vega 10 GPU features 64 next generation Compute Units with 4096 stream processors.

– ~1550Mhz Clock Speed.

– 2x Peak Throughput/Performance Per Clock vs. Fury X.

– First GPU in the world to feature High Bandwidth Cache.

– Features second generation High Bandwidth Memory with 2x Bandwidth per pin vs. the Fury X.

– 8x Capacity Per stack (2nd Generation High Bandwidth Memory) vs. Fury X.

– 512TB Virtual Address Space.

– Next Generation Compute Engine

– Next Generation Pixel Engine

– Next Generation Compute Unit optimized for higher clock speeds

– Rapid Packed Math

– Draw Stream Binning Rasterizer

– Primitive Shaders

You can find our full architectural deep-dive article here.