AMD's next generation AM4 Zen APU "Raven Ridge" will reportedly feature 4 Zen cores, a 1024 core Vega GPU & stacked High Bandwidth Memory. All inside a compact 210mm² die with a thermal design power target of 95-35 watts.According to the same report from Bitsandchips.it, The company is also working on a smaller ~170mm² variant of Raven Ridge with 768 Vega GCN cores and no high bandwidth memory, just good old DDR4.

The beefier chip of the two will be compatible with the desktop AM4 socket. While the leaner, HBM-less, version will mainly go into notebooks.

AMD Bringing APUs With PS4 Gaming Grade Graphics And High Bandwidth Memory To MarketIn 2017

Last year we brought you an exclusive detailing the company's entire APU plans for the post-bulldozer 2017+ era. And they includeeverything from thedual core 10 watt7nm "Grey Hawk" to the insanely powerful HPC APU featuring the extraordinary 32 Zen core "Naples" chip and a 4096 stream processor "Greenland/Vega10" GPU. We also brought you some key details about the HBM equipped Raven Ridge APU. Including the fact that it will feature 128GB/s of memory bandwidth and deliver Playstation 4 class graphics performance.

With 1024 Vega GCN cores and plenty of memory bandwidth to feed them Raven Ridge can in fact easily outperform Sony's 1.84 TFLOPS PS4 graphics engine. In fact, AMD has just introduced a 35W mobile GPU based on Polaris 11 with 1024 stream processors and 2 teraflops of graphics horsepower. The chip in question is the Radeon Pro 460 and it's featured in Apple's new Macbook Pro lineup. With everything we know about Vega being significantly more power efficient, we can expect Raven Ridge's integrated graphics engine to easily surpass the PS4.

AMD's Die StackingProgram Is At Full Tilt

This isn't the first time that we've actually caught wind of AMD working on next generation productsfeaturing HBM and die stacking technology in general. In fact, going all the way back to 2012, the company's head of the die stacking program ,Bryan Black, gave a public talk titled "Die Stacking and the System" on die stacking technology and the pivotal role it's going to play in all of the company's future products.

Besides the paper that detailed how HBM is going to work with Raven Ridge last year we've also spotted another paper back in 2014detailing AMD's "Fast Forward Project" to implement die stacking across all of the company's product lines. It included a demonstration of an APU with integrated stacked high bandwidth memory in addition to stacked non-volatile memory cells. These memory cells would act as the system's storage system and would essentially replace SSDs.

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This integration would offerseveral key advantagesin compact low power mobile devices. The paper also described afascinating newinnovation called "Processor-in-Memory" which strives to push the performance of the device and reduce power. This is achieved bydoing more of the computational work inside of the memory, instead of moving data across the chip and back which is quite wasteful.

The company publicly disclosed plans in 2015to develop an HPC APU. Apapercame out later that described what this chip would look like. It demonstrated the use of stacked memory in a super-processor based on the 32 core Naples CPU and 4096 GCN core Vega 10 GPU. This type of processor could prove extremely effective at a host of applications. Including deep learning workloads which is a near-perfect pairing to this kind of heterogeneous system architecture enabled chip.

AMD APU Roadmap