As part of our MWC coverage we had the pleasure to have a guided tour through MediaTek's booth to see what kind of new technologies the company has in its pipeline. MediaTek has seen some enormous momentum over the last few years and we're quickly seeing the Taiwanese company becoming a serious competitor to be reckoned with.

What was far the biggest surprise for us was the showing off of MT8173 hardware, a mid-range tablet SoC employing ARM's new Cortex A72. It's only been a few weeks since ARM officially announced the ARM Cortex A72, and while we still don't know much about the micro-architectural nuances of the core, having MediaTek already displaying silicon is a severe departure from ARM's usual announcement-to-release cadence. This puts the number A72 licensees with announced products already at two, with Qualcomm being the other one in the form of the Snapdragon 618 and 620.

The MT8173 employs two Cortex A72 CPUs at up to 2.4GHz and two Cortex A53 CPUs in a big.LITTLE configuration. On the GPU side we find a PowerVR GX6250 GPU, which if MediaTek's clocking strategy continues should run north of 700MHz. The SoC is still powered by LPDDR3 as the preferred memory interface, undoubtedly a cost decision as we're only starting to see LPDDR4 in flagship devices. On the multimedia side there's MediaTek's new display pipeline capable of 120Hz operation, 4K H.264/HEVC(10-bit)/VP9 video decoders and an ISP capable of 20MP sensors.

As part of the MWC announcements was also a (re)branding of MediaTek's SoC lineup. Beginning with the MT6795 which is now denominated the Helio X10, MediaTek will in the future begin naming their new chips after the Helio (After the Greek word for sun, "helios") brand. We'll be seeing the P-line targeting the premium performance segment while the X-line targets the high-end and the best MediaTek has to offer.

MT3188: PMA, WPC and A4WP Wireless Charging Solution In 1

As part of the booth demos, MediaTek showed off the MT3188 wireless charging IC solution which supports all three currently available standards, PMA, WPC and the newly emerged A4WP standard. While we've had the IC announced early last year, it is still impressive to see the real thing in hardware.

WPC (Wireless Power Consortium) is by far the currently most widely available standard in the form of Qi, which has seen large adoption in the mobile space. PMA (Power Matters Alliance) remains as the competitor standard but which hasn't seen as wide of an adoption rate with its Powermat/Duracell chargers. Both WPC and PMA rely on inductive charging which limit the spatial freedom between the transmitter and receiver coils to a few mm. 

A4WP on the other hand is the new standard which is based on resonance charging, giving devices the freedom in x, y and z directions around the emitter coil. The charging area can be much larger than in the inductive charging technologies and also allows for one charger to simultaneously charge multiple devices. The advantage of inductive charging over resonance charging remains in the efficiency and EMI aspects.

The demonstration of the A4WP standard was impressive as it allows for an enormous amount of flexibility in terms of integrating charging pads into furniture. Among multi-device charging bases, we also saw charging through relatively thick wooden tables where the charger was hidden underneath, instead of having to integrate them into the table of having a mat on lying on top.

The MT3188 joins other unified charging solutions such as Broadcomm's BCM59350 which we also saw demonsrated at MWC this year.

MiraVision Display Pipeline Processing

Another interesting demo was the showing off of MiraVision integrated in MediaTek's SoCs. Basically MiraVision is a fixed-function post-processor which sits on the display pipeline which has full control of the image data being sent to the display. The use-cases which MediaTek demonstrated were colour gamut manipulation on one side, something which is already for example done in products such as the Meizu MX4 with the MT6595. What was impressive to me was the dynamic analysis of image content in dark environments and subsequent adjusting of back-light and pixel data to allow for better visibility. Think of it as a dynamic gamma-curve adjustment.

There were a few demos, including a third-person shooter one where the effect was considerable to the viewing experience. We've seen Samsung employ similar technology in their Exynos and television SoCs called mDNIe (Mobile digital natural image enhancement) which used among other things to change between display profiles on Galaxy devices. MediaTek's solution seems to one-up that as it allows for more dynamic settings as opposed to simply just having fixed programmed profiles.

MediaTek also demonstrated a frame-interpolation function for video playback through MiraVision. The result is similar to what SVP achieves in the PC space via software, but here it's again implemented through fixed-function hardware to achieve high performance at very low power. Video content that is sourced at 24fps is interpolated to 60fps on the screen. The result is remarkable on a small screen as it suffers less from the "fake motion" that one associates with such techniques (Or MediaTek's implementation is just really good?). 

The demo unit was again a Meizu MX4, so it means the hardware and products are already out there but just merely need to be officially adopted by the vendors in software.

MediaTek's Modem Progression

Modems are an important part of MediaTek's strategy and we've had more or less a status-update on how things are progressing. The LTE products from MediaTek are still far and few in-between that seems to be changing in the future as we're seeing quick progression from the current Cat. 4 modem IP to Cat. 6 solutions in 2015 and Cat. 10 in 2016. 

An interesting addition is the adoption and field testing of C2K, or better known as CDMA2000. Other vendors such as Intel and Samsung chose not to adopt the technology as in the future we'll see it being phased out in favour of LTE-only networks. For MediaTek to adopt it even though long-term it makes no sense, puts them in a unique position against Qualcomm in markets such as the US and China.

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  • Gigaplex - Sunday, March 8, 2015 - link

    Certainly far more prime than NZ. Reply
  • Pissedoffyouth - Monday, March 9, 2015 - link

    https://en.wikipedia.org/wiki/Asia-Pacific_Telecom...

    Bigger market than the US has for it's LTE networks, mate.
    Reply
  • sonicmerlin - Sunday, March 8, 2015 - link

    The A4WP standard uses the wireless charging tech demonstrated by Witricity at TED in 2009 (http://www.youtube.com/watch?v=MgBYQh4zC2Y). I've been waiting years for this to come out. It's gonna be so cool. They've even demonstrated a solution for charging electric cars. Just place the wireless charger on your garage floor and you'll never have to think about plugging in your car at home ever again.

    I can easily see Apple integrating a wireless charger into their iMacs so you can charge all your iDevices just by sitting at your desk.
    Reply
  • sonicmerlin - Sunday, March 8, 2015 - link

    Also the PMA and A4WP groups have agreed to merge in 2015: http://www.powermatters.org/new-in-the-media/338-c... Reply
  • nathanddrews - Monday, March 9, 2015 - link

    No we just need to bring in the Wireless Power Consortium (Qi) and start selling some home upgrade kits! Reply
  • sonicmerlin - Sunday, March 8, 2015 - link

    I thought category 10 LTE (aka LTE Advanced) was supposed to get 1 Gbps with 66 MHz of spectrum. Instead they're showing off 450 Mbps with 60 MHz, which is only half of the original spec. Wth happened? Is there a category 11? Reply
  • MrSpadge - Sunday, March 8, 2015 - link

    The MT8173 is very impressive, indeed! And a notable departure from the usual 8 x A7 Mediatek. Be it labeled midrange or not, I'd prefer the CPU config of the MT8173 over the current Snapdragon or Exynos high end SoCs. Reply
  • darkich - Monday, March 9, 2015 - link

    Indeed, this should be roughly as fast as the newest Exynos in multi, but much faster in single core.

    The single core performance should actually be higher than even in the A8X or Core M chips.
    Reply
  • Novacius - Monday, March 9, 2015 - link

    Core M should still be faster. The 5Y71 clocks with up to 2.9 GHz and has a much higher IPC, but even the 5Y10 should surpasss an A72. Reply
  • jjj - Monday, March 9, 2015 - link

    At launch Core M was priced at some 280$ , A Tegra was 30$ and less at launch , something high end with integrated LTE is bellow 50$.
    So Core M is one the stupidest SoCs ever made.
    Reply

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