Haswell Media Engine: QuickSync the Third

Although we still have one more generation to go before QuickSync can apparently deliver close to x86 image quality, Haswell doesn't shy away from improving its media engine.

First and foremost is hardware support for the SVC (Scalable Video Coding) codec. The idea behind SVC is to take one high resolution bitstream from which lower quality versions can be derived. There are huge implications for SVC in applications that have varied bandwidth levels and/or decode capabilities.

Haswell also adds a hardware motion JPEG decoder, and MPEG2 hardware encoder.

Ivy Bridge will be getting 4K video playback support later this year, Haswell should obviously ship with it.

Finally there's a greater focus on image quality this generation, although as I mentioned before I'm not sure we'll see official support in a lot of the open source video codecs until Broadwell comes by. With added EUs we'll obviously see QuickSync performance improve, but I don't have data as to how much faster it'll be compared to Ivy Bridge.

Haswell's GPU Final Words
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  • Rectified - Friday, October 05, 2012 - link

    Anand, you write the best tech articles on the web. As a graduate student in computer engineering, I appreciate the practical yet technical analyses you write on the industry. Keep it up! Reply
  • Crazy1 - Friday, October 05, 2012 - link

    I like the concept of Panel Self Refresh, yet I feel that Intel could implement this themselves. I'm not an expert, but couldn't a buffer be placed on the CPU package between the GPU and panel? This may not be as efficient as if the panel makers did it themselves and it would probably only work when using the IGP (when it would most likely have the greatest impact), but at least it is a step in the right direction.

    Additionally, Great Article! Anandtech provides some of the most thorough technology articles. Keep it up.
    Reply
  • random2 - Saturday, October 06, 2012 - link

    " If all mainstream client computing moves to smartphones,..........."

    Seriously? The idea of all mainstream computing done on nothing but smartphones seems to stretch the imagination just a bit much. There isn't even the most basic of businesses that do not have a computer (made with mainstream components as are most small and medium sized businesses) and business software. Don't forget the PC gamers and people who like larger viewing and typing surfaces. Or the fact that in eight years, home and business PC's will be blindingly fast with larger displays with much greater pixel density, possibly clear screen touch surfaces, likely alternative interfaces than just a keyboard and mouse and incredible computing and rendering power.

    The likelihood of the general populace turning all their computing needs over to a palm size PC I see as kind of weird fantasy where people learn to love minute typing interfaces and squinting at hi density displays fit into 3.5by 4.5 inches for long periods of the day without interruption. No, to push the idea of micro computing one must discount all of the other advances in the computer/electronics industries in order to make their pet theory viable.
    Reply
  • random2 - Saturday, October 06, 2012 - link

    "The race to the bottom that we've seen in the LCD space made it unlikely that any of the panel vendors would be jumping at the opportunity to make their products more expensive."

    It's unfortunate, because of what might have been had the manufacturers, of which there are only three main ones, if I recall, had the foresight to market to customers that weren't just looking to buy the lowest priced panel on display at Best Buy. Had they the initiative to have started years ago, there would be some pretty fantastic panels available today for much more reasonable prices than seen for the 27 and 30 inch 2560X1600 panels today.
    Reply
  • Klugfan - Saturday, October 06, 2012 - link

    This doesn't really belong in the Haswell article, but I would love to know more about the physics and constraints of TDP. Like, hit me with a chart of TDP impact for a variety of important parts in phones, tablets, laptops, and desktops. Show me a chart of TDP budgets and mitigation strategies. Explain to me roughly how physics forces those things to relate. Please.

    Seems important and it's easy to understand the comparison from Ivy Bridge to Haswell but that doesn't feel like the big picture.
    Reply
  • havoti97 - Saturday, October 06, 2012 - link

    I read the 1st page then got bored. Writing style is overly wordy... am I the only the feeling this way? Reply
  • xeizo - Saturday, October 06, 2012 - link

    It's an article, not a twitter feed! Some of us like to get the whole picture not just the flashy stuff .... Reply
  • watersb - Saturday, October 06, 2012 - link

    Phenomenal feature, Anand! This is why I check your site each day. Thanks very much! Reply
  • bill4 - Saturday, October 06, 2012 - link

    like atom, you're stuck in no mans land. way too high for tablets and phones, but in desktops and laptop, who cares if the amd solution uses 30 watts instead of 8? that difference isn't enough to matter when you take the whole platform into account, especially at lower price points where battery life wont be fantastic anyway. on the dsktop it's completely pointless. Reply
  • JlHADJOE - Sunday, October 07, 2012 - link

    On a laptop using 30 watts instead of 8 will more than triple your battery life, especially at lower price points/smaller form factors where manufacturers gimp the battery.

    How's about browsing for 9 hours instead of 3? Or 27 hours instead of 9? I'd jump on it in a heartbeat.
    Reply

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