On the back of AMD’s Tech Day at CES 2014, all of which was under NDA until the launch of Kaveri, AMD have supplied us with some information that we can talk about today.  For those not following the AMD roadmap, Kaveri is the natural progression of the AMD A-Series APU line, from Llano, Trinity to Richland and now Kaveri.  At the heart of the AMD APU design is the combination of CPU cores (‘Bulldozer’, ‘Steamroller’) and a large dollop of GPU cores for on-chip graphics prowess.

Kaveri is that next iteration in line which uses an updated FM2+ socket from Richland and the architecture is updated for Q1 2014.  AMD are attacking with Kaveri on four fronts:

Redesigned Compute Cores* (Compute = CPU + GPU)

Kaveri uses an enhanced version of the Richland CPU core, codename Steamroller.  As with every new CPU generation or architecture update, the main goal is better performance and lower power – preferably both.  AMD is quoting a 20% better x86 IPC with Kaveri compared to Richland when put clock to clock.  For the purposes of this information release, we were provided with several AMD benchmarking results to share:

These results border pretty much on the synthetic – AMD did not give any real world examples today but numbers will come through in time.  AMD is set to release two CPUs on January 14th (date provided in our pre-release slide deck), namely the A10-7700K and the A10-7850K.  Some of the specifications were also provided:

AMD APUs
  Richland
A8-6600K
Richland
A10-6800K
Kaveri
A10-7700K
Kaveri
A10-7850K
Release June 4 '13 June 4 '13 Jan 14th '14 Jan 14th '14
Frequency 3900 MHz 4100 MHz ? 3700 MHz
Turbo 4200 MHz 4400 MHz ? ?
DRAM DDR3-1866 DDR3-2133 DDR3-2133 DDR3-2133
Microarhitecture Piledriver Piledriver Steamroller Steamroller
Manufacturing Process 32nm 32nm ? ?
Modules 2 2 ? 2
Threads 4 4 ? 4
Socket FM2 FM2 FM2+ FM2+
L1 Cache 2 x 64 KB I$
4 x 16 KB D$
2 x 64 KB I$
4 x 16 KB D$
? ?
L2 Cache 2 x 2 MB 2 x 2 MB ? ?
Integrated GPU HD 8570D HD 8670D R7 R7
IGP Cores 256 384 ? 512
IGP Architecture Cayman Cayman GCN GCN
IGP Frequency 844 844 ? 720
Power 100W 100W ? 95W

All the values marked ‘?’ have not been confirmed at this point, although it is interesting to see that the CPU MHz has decreased from Richland.  A lot of the APU die goes to that integrated GPU, which as we can see above becomes fully GCN, rather than the Cayman derived Richland APUs.  This comes with a core bump as well, seeing 512 GPU cores on the high end module – this equates to 8 CUs on die and what AMD calls ’12 Compute Cores’ overall.  These GCN cores are primed and AMD Mantle ready, suggesting that performance gains could be had directly from Mantle enabled titles. 

Described in AMD’s own words: ‘A compute core is an HSA-enabled hardware block that is programmable (CPU, GPU or other processing element), capable of running at least one process in its own context and virtual memory space, independently from other cores. A GPU Core is a GCN-based hardware block containing a dedicated scheduler that feeds four 16-wide SIMD vector processors, a scalar processor, local data registers and data share memory, a branch & message processor, 16 texture fetch or load/store units, four texture filter units, and a texture cache. A GPU Core can independently execute work-groups consisting of 64 work items in parallel.’  This suggests that if we were to run asynchronous kernels on the AMD APU, we could technically run twelve on the high end APU, given that each Compute Core is capable of running at least one process in its own context and virtual memory space independent of the others.

The reason why AMD calls them Compute Cores is based on their second of their four pronged attack: hUMA.

HSA, hUMA, and all that jazz

AMD went for the heterogeneous system architecture early on to exploit the fact that many compute intensive tasks can be offloaded to parts of the CPU that are designed to run them faster or at low power.  By combining CPU and GPU on a single die, the system should be able to shift work around to complete the process quicker.  When this was first envisaged, AMD had two issues: lack of software out in the public domain to take advantage (as is any new computing paradigm) and restrictive OS support.  Now that Windows 8 is built to allow HSA to take advantage of this, all that leaves is the programming.  However AMD have gone one step further with hUMA, and giving the system access to all the memory, all of the time, from any location:

Now that Kaveri offers a proper HSA stack, and can call upon 12 compute cores to do work, applications that are designed (or have code paths) to take advantage of this should emerge.  One such example that AMD are willing to share today is stock calculation using LibreOffice's Calc application – calculating the BETA (return) of 21 fake stocks and plotting 100 points on a graph of each stock.  With HSA acceleration on, the system performed the task in 0.12 seconds, compared to 0.99 seconds when turned off.

Prong 3: Gaming Technologies

In a year where new gaming technologies are at the forefront of design, along with gaming power, AMD are tackling the issue on one front with Kaveri.  By giving it a GCN graphics backbone, features from the main GPU line can fully integrate (with HSA) into the APU.  As we have seen in previous AMD releases and talks, this means several things:

  • Mantle
  • AMD TrueAudio
  • PCIe Gen 3

AMD is wanting to revolutionize the way that games are played and shown with Mantle – it is a small shame that the Mantle release was delayed and that AMD did not provide any numbers to share with us today.  The results should find their way online after release however.

Prong 4: Power Optimisations

With Richland we had CPUs in the range of 65W to 100W, and using the architecture in the FX range produced CPUs up to 220W.  Techincally we had 45W Richland APUs launch, but to date I have not seen one for sale.  However this time around, AMD are focusing a slightly lower power segment – 45W to 95W.  Chances are the top end APUs (A10-7850K) will be 95W, suggesting that we have a combination of a 20% IPC improvement, 400 MHz decrease but a 5% TDP decrease for the high end chip.  Bundle in some HSA and let’s get this thing on the road.

Release Date

AMD have given us the release date for the APUs: January 14th will see the launch of the A10-7850K and the A10-7700K.  Certain system builders should be offering pre-built systems based on these APUs from today as well.

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  • Doomtomb - Tuesday, January 7, 2014 - link

    Scratch that, that's the i7 my bad.
  • ingwe - Monday, January 6, 2014 - link

    I hope these are great, but I don't expect them to be. We need some competition in more than just ultra mobile spheres...
  • CosmonautDave - Monday, January 6, 2014 - link

    I hope they update their Dual Graphics compatibility--would be a nice feature if one was using a dGPU, to get a bit more bang for the buck out of the APU. Just a question of which cards I suppose? They tweeted about it: https://twitter.com/AMD/status/420366942763880448
  • nuby - Monday, January 6, 2014 - link

    Hows Linux support with AMD's new APUS?
  • tcube - Tuesday, January 7, 2014 - link

    not great but ok... I managed to install their drivers and run a few things on ubuntu with a richland APU... Wasn't a walk in the park but it ultimately worked, plus the open source drivers are also ok-ish. All in all still far behind the windows optimizations but slowly getting there
  • gradinaruvasile - Tuesday, January 7, 2014 - link

    I compiled the latest kernel (includes the radeon kernel driver module), mesa (opengl), xf86-ati (user space driver) and drm directly from git (on Debian Testing distro). On Trinity (A8-5500) and Richland(A8-6500) the drivers run well, HD decoding is working great and Steam games such as the hl2/source engine based ones - L4D2, Day of Defeat, TF2 and other hl2 mods run perfectly with slight visual adjustments such as forced multi core rendering, no AA and vsync on.
  • mikato - Wednesday, January 8, 2014 - link

    Good info, thanks!
  • Drumsticks - Monday, January 6, 2014 - link

    Bias is still bias no matter how much (or not) you try to hide it.
  • Hrel - Monday, January 6, 2014 - link

    So... AMD is just never gonna be competitive again huh :(
  • Krysto - Monday, January 6, 2014 - link

    Very interesting! Now all AMD needs is to be on a competitive node for once. They need to jump to 14/16nm FinFET as soon as it's available in 2015 (with their next-gen chips, obviously).

    Forget about cost-cutting. AMD needs some good PR, and it's going to get that PR if it has great performance and power consumption numbers, especially when compared to the competition. Always being 2 nodes behind Intel, isn't helping much with that...

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