AMD A10-7800 Review: Testing the A10 65W Kaveri

Kaveri was launched as a processor line, on desktop, back in January 2014. At the time we were given information on three of the APUs, the A10-7850K, A10-7700K and A8-7600, and reviewed two of them, including the A8-7600 65W processor. However, at the time, AMD stated that the model we tested was to come out at a later date: that date is today, in a trio of 65W parts. The A10-7800 we are testing today is the locked down version of the A10-7850K, with a slight speed reduction to hit 65W as well as a configurable TDP to 45W.

The Drive to Lower TDP

Previous AMD APU releases have often come with a flurry of processors up and down the price range. Back with the Llano cores and the FM1 platform, two processors were released in the first month followed by six the next and six more by the end of the 2011. With Trinity, it was a similar story: four processors in the first two months, then ten more by the end of the 2012. Richland had eight processors at launch, then other 8 by the end of 2013 and three more for 2014. This is what makes Kaveri a little different: two 95W processors at launch at the start of 2014, and three 65W for July 2014, six months later. Not only is this a large time gap between expanding the processor range, but also a small number of SKUs. That being said, CPU-World lists another 65W APU for release after this trio, and then no more Kaveri until the end of the year when four ‘PRO’ (aka ‘Business Class’) models enter the arena.

Having your mainstream platform headed up by two 95W APUs of the latest generation architecture for so long does nothing for the low power crowd, and AMD’s official reasons for delaying the launch of their 65W parts is due to the lower power message AMD wants to convey, especially in terms of configurable TDP.

Each of the new 65W parts released today has two modes of operation. Out of the box, they will run in 65W mode, using a restricted range of processor frequency in the faster end of operation but with ultimately less efficiency. With an adjustment in the BIOS, they will operate at 45W, which will adjust the base frequency of the processor, relying more on turbo for single threaded workloads. AMD’s numbers above quote a 6-7% dip in performance for a 31% drop in TDP.

If we consider Intel's strategy and AMD's older strategy into the mix, CPU manufacturers would release two processors, one at 45W and one at 65W, in order to offer this difference. That way each die could be tuned for frequency or voltage, as well as processor graphics residency. For whatever reason, AMD decided to consolidate the differing power options, perhaps in order to reduce the number of SKUs on the shelves and make the customer’s choice an easier one. 

But therein lies an issue. The number of users prepared to go into the BIOS and adjust the frequency is slim at best, which leads on to system integrators to implement this change in the units they sell. But which system integrators are going to sell products to their customers that do not perform at the maximum performance?  It only works when the APU is for a specific design, like an off-the-shelf HTPC or digital signage. The other implementation could be that in order to make the product stack work, it helps to have a few SKUs such that everyone pays more even if they use less – having 45W APUs in the stack might drive sales away from the higher performing models.

The New APUs

AMD’s nomenclature on Compute Cores sums up the number of CPU threads and the number of Compute Units in the processor graphics to give a total number. The previous APUs released were rated at 12 compute cores (A10-7850K) and 10 compute cores (A10-7700K), and the new APUs released today have 12 (A10-7800), 10 (A8-7600) and 6 (A6-7400).

AMD Kaveri APUs
  A10-7850K A10-7800 A10-7700K A8-7600 A6-7400K
TDP 95W 65W 95W 65W 65W
Compute Cores 4 CPU +
4 CPU +
4 CPU +
4 CPU +
2 CPU +
Modules / Threads 2 / 4 2 / 4 2 / 4 2 / 4 1 / 2
Base Frequency 3700 3500 3400 3100 3500
Turbo Frequency 4000 3900 3800 3800 3900
L1 Cache 192 KB I$
64 KB D$
192 KB I$
64 KB D$
192 KB I$
64 KB D$
192 KB I$
64 KB D$
96 KB I$
32 KB D$
L2 Cache 4 MB 4 MB 4 MB 4 MB 1 MB
Graphics R7 R7 R7 R7 R5
GPU Cores 512 512 384 384 256
GPU Clock 720 720 720 720 756
Max DDR3 2133 2133 2133 2133 1866
SSRP $173 $155 $155 $105 $77

One might imagine that AMD would at some point offer APUs at the same frequency with the same name but without the ‘K’ monitor for overclocking, but the distinct numbering difference is occompanied by the respective frequency adjustments. In this case, the A10-7800 is 200 MHz less on the base frequency than the A10-7850K but +100 MHz over the A10-7700K.

AMD confirmed with us after the initial press call the number of streaming processors in the processor graphics, as well as their frequencies. Based on these numbers, the two 78xx APUs have the full complement at 720 MHz, with the 77xx and 76xx reducing down to 6 compute cores. The A6-7400K is interesting in that the frequency is increased to 756 MHz, perhaps indicating that removing one of the CPU modules and half the IGP gives them extra room to play with for frequency. The A6 model does have another metric to set it apart – official memory support is down to DDR3-1866. This differentiation was also present on the Richland 65W A6 and Trinity 65W A6 processors as well.

AMD 65W Bulldozer Based APUs
  Trinity Richland Kaveri
Model A6-
Microarchitecture Piledriver Steamroller
Socket FM2 FM2+
Modules /
1 / 2 2 / 4 1 / 2
CPU Base Freq 3600 3200 3400 3500 3700 3500 3100 3500
Max Turbo 3800 3700 4000 4100 4300 3900 3800 3900
L1 C$ 64/32 128 KB C$
64 KB D$
192 KB C$
64 KB D$
L2 C$ 1 MB 2 x 2 MB 1 MB
Graphics HD
R7 R7 R5
GPU Cores 192 256 384 256 384 512 384 256
GPU Clock 760 760 760 800 844 720 720 756
Max DDR3 1866 1866 1866 1866 1866 2133 2133 1866
Current Price $60 $99 N/A $119 N/A $155 $105 $77

Kaveri APU Features

In our initial Kaveri coverage and review of the A10-7850K, AMD spent a large amount of time with the press going over their new features for the Kaveri line of APUs. At the time, Mantle support was the big headline, along with HSA (Heterogeneuous System Architecture) that afforded several compute features which could accelerate certain workloads.

Rahul’s deep dive on HSA is well worth a read, beyond my simple coverage here. The main principles allow the processor threads and integrated graphics to both access the same areas of DRAM (known as a Unified Memory Architecture) without expensive memory copies and maintaining the data structure. 

With heterogeneous queuing, both the CPU threads and integrated graphics can generate extra work for the other, allowing for dynamic asynchronous compute.

These features, along with working with software developers to optimize their workflow, allow AMD to quote improvements. In our PR pack with this launch AMD is quoting up to 69% faster upscaling in Adobe Photoshop CC for A10 vs. i5, up to 7x faster in LibreOffice for A8 vs. i3, and up to 65% faster JPEG decoding time on A6 vs. Pentium.

For gaming, alongside Mantle support due to the use of GCN, AMD has also implemented the TrueAudio DSP on the Kaveri APU line. Rather than use CPU power or shaders for complex directional audio affects, the DSP is designed to speed these up and reduce stress on other components of the system for better frame rates. The two games being quoted for TrueAudio are Thief and Lichdom Battlemage.

The other feature using the GCN cores is HEVC Compute support with PowerDVD 14, using OpenCL to speed up decoding for high definition content. With a soon-to-be released update, AMD Fluid Motion Video should also be supported.

Launch Deal

With the launch of the 65W APUs, AMD is going to run a promotion for any user purchasing an A10 between August and October – purchase an A10 APU and have a choice of a free game between Thief, Sniper Elite III and Murdered Soul Suspect.

Test Setup

As these APUs are still part of the Kaveri line, they should work with any FM2+ motherboard, although depending on the motherboard manufacturer it may require a BIOS update. We suggest that you contact the retailer to ensure that the motherboard BIOS is up to date and compatible with the new APU.

Test Setup
Processor AMD A10-7800
2 Modules, 4 Threads
Motherboards MSI A88X-G45 Gaming
Cooling Corsair H80i
Thermalright TRUE Copper
Power Supply OCZ 1250W Gold ZX Series
Memory 2 x Corsair Vengeance Pro 2x8 GB DDR3-2400 10-12-12 Kit
Memory Settings 2133 8-9-9
Video Cards MSI GTX 770 Lightning 2GB (1150/1202 Boost)
Video Drivers Catalyst 14.3
NVIDIA Drivers 337
Hard Drive OCZ Vertex 3 256GB
Optical Drive LG GH22NS50
Case Open Test Bed
Operating System Windows 7 64-bit SP1
USB 2/3 Testing OCZ Vertex 3 240GB with SATA->USB Adaptor
WiFi Testing D-Link DIR-865L 802.11ac Dual Band Router


CPU Benchmarks


View All Comments

  • extremesheep49 - Thursday, July 31, 2014 - link

    Does the A10-7800 still suffer from the power delivery issue from previous articles? I thought I heard it might be related to the CPU's being from an early batch. Is this now a non-issue?

    "In our recent FM2+ motherboard reviews [1,2], one of the common themes has been the ability of the motherboard power delivery to cope with temperature. When the power delivery is too hot, the system may cease to function or various benchmarks fail. Over-engineering the power delivery to be efficient has benefits, but increases the cost of the product. When I pulled the A88XM-E35 out of the box and saw no heatsink present, I was worried that the same issue would rear its head, and it did. Without additional VRM cooling, the A88XM-E35 caused an instant reboot on some of our more strenuous benchmarks (Agisoft, Handbrake). Therefore it should be noted that the results of this review were taken with an additional fan on the VRM cooling, and users of the A88XM-E35 should bare this in mind."

    Also, it would be awesome if you covered Dota 2 for these IGPU's because it is the most popular game in the world. On a A10-5700 at 1920x1200 I need to run almost minimum settings to insure I never go under 10 FPS. I would have expected better from the best IGPU's around.

    Tom's hardware covers Dota 2 and it seems like it might be poorly optimized because it's getting half the FPS of the intel card. Not sure. If it is poorly optimized...
  • R3MF - Friday, August 1, 2014 - link

    Seconded. Reply
  • extremesheep49 - Wednesday, August 6, 2014 - link

    By the way, the min FPS in that Dota 2 performance article seem too high. They may not have had any really big visible fights in that test. Here's how I test Dota 2:

    0. Enable Fraps benchmarking on F12; record frametimes at least; stop bench after 500 sec or so
    1. Dota 2 -> Play -> Create a lobby -> Create Lobby (not local; local is CPU intensive and reduces FPS)
    2. Join a slot
    3. Edit settings:
    - Game mode: all pick
    - Check `Enable Cheats`
    - Check `Fill empty slots with bots`
    4. Start game and choose `Faceless Void` (`Warlock` is another good choice). Both have ults which can slow down a slow computer when the ult happens
    5. Use these cheats (hit enter to bring up chat box; type `-gold 100` in chatbox to get 100 gold for example)
    - `-lvlup 24` (level yourself up to level 25)
    - `-item item_travel_boots`
    - `-item item_assault`
    - `-item item_refresher`
    - `-item item_mjollnir`
    - `-item item_butterfly`
    - `-item item_bloodstone`
    - `-levelbots 24` (level all the bots up to level 25)
    - `-givebots item_shivas_guard`
    - `-givebots item_bloodstone`
    6. Note these cheats:
    - `-respawn` to bring yourself back to life
    - `-refresh` to give everyone full health, mana, and to remove item cooldowns
    6. Start the benchmark
    7. Teleport to mid and attack until benchmark ends. Make sure to use `Chronosphere` and `Refresher Orb` so you can place 2 Chronospheres at once. Use `-refresh` to reset cooldowns to continue the attack. Bots will use `Shivas guard` a lot so there's a lot of special effects occurring.
    7 - alternate. Using `Warlock` is a little different. You need `Aghanim Sceptor` to get the full effect from his ult.

    On my A10-5700 with graphics maxed at 1920x1200, I will get less than 5 FPS during these fight scenes. These are not infrequent occurrences. These are the most important moments of the fight.
  • FriendlyUser - Thursday, July 31, 2014 - link

    Looks good and the adjustable TDP is a great feature for different applications (NAS or media server etc). It seemed really improbable a little time ago, but we are really approaching playable territory for many modern games without a dGPU. I would really love to see TrueAudio and HSA work in more games and applications... Reply
  • GreenMeters - Thursday, July 31, 2014 - link

    Someday, I will be able to read the name of this processor without then spending 10 minutes singing to myself: NANA-NANANANANA-NA-NA-NA, Ka[ta]veri Damacy.

    This is not that day.
  • ssj3gohan - Thursday, July 31, 2014 - link

    So... when is this AMD center bullshit going to stop? Because I really can't help thinking anything else than that I'm reading an advert instead of a quality review. I'm seriously avoiding reading any AMD-related Anandtech articles in fear of ending up here. Reply
  • tcube - Friday, August 1, 2014 - link

    Fair enough... now complain the same about intel center and nvidia center... geez you fanboys Reply
  • austinsguitar - Thursday, July 31, 2014 - link

    amd needs something up there sleves... this is not it. An intel (i7 4500U 15W!)cpu in my laptop out-performs this disgrace.... i miss amd. APU or not, i dont think people care that much about trivial performance like this. it pains me. Reply
  • leopard_jumps - Thursday, July 31, 2014 - link

    it is an ultra low voltage CPU . i7 4700MQ is a great deal but for me i5 3230M + Geforce GT 740M/Radeon 8750M is a good deal . Of course , the more the better . Reply
  • medi02 - Saturday, August 2, 2014 - link

    APU is what it has at the moment. (actually closing TDP gap is a nice step forward)
    What is it, that I can do with i7, but can't do with A10?

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