The new generation Gorgon Point “Ryzen AI” developed by AMD for laptops has been leaked. According to leaked information, the new APUs come with augmented performance for higher clock speeds and artificial intelligence operations. In addition, Medusa “Ryzen AI Max” chips, which the company will launch next year, have been confirmed.What will Gorgon Point “Ryzen AI” offer?
AMD’s current Ryzen AI 300 series is based on the Strix Point design. This new Gorgon Point family comes with small but important updates compared to the current series. In particular, artificial intelligence processing capacity (NPU) is increased, while the core and thread structure is preserved.
According to leaked information, although 7 different SKUs (product numbers) are listed in total, only two models have remarkable innovations. At the top, the same 12 cores and 24 threads based on Zen 5 architecture, 36 MB cache, 16 RDNA 3.5 CU and 16 PCIe Gen4 line have Amd Ryzen AI 9 HX. 5.2 GHz+ Boost Frequency (RYZEN AI 9 HX 370 increased 100 MHz) and 55+ Tops NPU capacity will offer more in artificial intelligence.The remarkable model is 8 cores, 16 threatening, 24 MB cache, 8 rdna 3.5 CU, 16 PCIe Gen4 line, 5.2 GHz+ Boost frequency and XDNA 2 NPU and 55+ AI Tops and AMD RYZEN AI 7.
Ryzen AI 300, Ryzen AI 400?
Under the naming of these new APUs, it remains uncertain. The Medusa Point series, which is expected to introduce AMD next year, will probably be called Ryzen AI 400. Medusa will continue to use the RDNA 3.5 engine on the graphic side while switching to Zen 6 core architecture.
Gorgon Point is designed for premium laptops and will use the FP8 socket. On the other hand, the Medusa Point series will come with the new FP10 socket. In addition, AMD’nin Ryzen AI 3, 4 Zen 5 cores, artificial intelligence accelerating entry -level entry -level developed in a series said. These entry -level models are expected to reach 50 AI Tops performance.According to leaked performance tests, AMD Gorgon Point “Ryzen AI” renewed APUs will provide performance up to 10 percent in a single core compared to existing models and up to 12 percent in many nuclei.
