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Trim-Slice: Dual-Core ARM Tegra 2 Desktop

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  • #11
    Originally posted by cynyr View Post
    1. HTPC, Not enough grunt to get 1080P or even 720P done. No flash so not Hulu, or youtube. Running full linux, so no netflix.
    Don't know about video accel. and render speed, but YouTube has html video, and Lightspark is coming along (but I don't know how well it or gnash works on ARM)...netflix, silverlight, bleh.

    Originally posted by cynyr View Post
    Does the arm world have something like PCI-E or even PCI? How about a way to get more than 4 SATA ports and Dual GbE Lan that isn't via USB2.0?
    Not as far as I know, but then I don't know much about ARM. I'm sure someone's thought of it...but unless the board has PCI (or USB, or some special expansion connector) ports/slots/headers, there aren't many options at the moment.
    Last edited by Nobu; 09 January 2012, 11:27 PM.

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    • #12
      Originally posted by [Knuckles] View Post
      I hope that in a future article you can talk a little about 3D support and hardware video decoding.
      Many devices such as this one tend to fall short on that department: they could do this, and that, and the other, but in reality the drivers aren't up-to-date/the sdk is unavailable/you're stuck with only an old linux or userland version.
      Its probably faster than the original Xbox.

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      • #13
        Originally posted by jannis View Post
        Another interesting project to look at for small/tiny "desktops" is the "Rapsberry Pi"-board ....
        What I forgot: It's only $25 (w/o Ethernet) and $35 (with Ethernet). But since it has USB-Ports, you can get the cheaper version and use USB-WiFi adapters if you wish.

        @cynyr: The hardware does support decoding videos in hardware in most cases, it's just the question of driver and API support. So 1080p shouldn't be a problem (as long as we get drivers running). Perfect for sticking them to the back of your TV and use them as MythTV-clients or other media-player/HTPC stuff. Uses very few power, perfect to be hidden at the back of TV and has HDMI output.
        And you're right: for people who just use their PCs for surfing and office stuff using linux these devices are enough.
        Of course since it has no/few SATA-ports, these kind of devices don't do well as NAS/servers. My NAS can't be a "weak-CPU" device since my data is completely encrypted and en/decrypting using AES at 90MBytes/s (or more) needs some processing power.

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        • #14
          Originally posted by jannis View Post
          What I forgot: It's only $25 (w/o Ethernet) and $35 (with Ethernet). But since it has USB-Ports, you can get the cheaper version and use USB-WiFi adapters if you wish.
          The problem is that the cheaper version has only one USB port so you have to use external USB hub if you need more ports, e.g. for keyboard, mouse, remote control IR receiver, etc.

          What worries me more, though, is the desktop experience. In a video from 2 months ago Eben demonstrated LXDE desktop on the Raspbery Pi but it was running unaccelerated X. The experience is sub optimal, to put it mildly. I imagine the built in graphics accelerator doesn't have a 2D graphics engine and relies on the 3D engine for all drawing. So it has to be employed for the 2D acceleration. I don't know whether X can be made to do that. Maybe we'll need Wayland for that. In any case, it's not at all clear what the 3D situation is either. Will the drivers be open source, for instance. The same for the video decoding acceleration.

          Don't get me wrong - I think the Raspberry Pi is a wonderful machine and I plan to get at least 2 but I'll use them without a display. Yet for its intended purpose the desktop experience is very important. And information on that is suspiciously missing. Or I may be wrong about that in which case please provide links. But given the record so far, I'm afraid that the drivers will not be open source which is very very bad (reference - Intel Poulsbo).

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          • #15
            Originally posted by jannis View Post
            Of course since it has no/few SATA-ports, these kind of devices don't do well as NAS/servers. My NAS can't be a "weak-CPU" device since my data is completely encrypted and en/decrypting using AES at 90MBytes/s (or more) needs some processing power.
            Or crypto accel. Some ARM cpus come with a block similar to Via's.

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            • #16
              Originally posted by gururise View Post
              Michael,

              Thank you for these recent great ARM reviews! Could you please include power consumption for these ARM systems in your tests? It can be as simple as measuring from the wall plug.

              Also, its very interesting that this Tegra 2 box beat out the Pandaboard with a "theoretically" better processor running at 20% higher speed with NEON extensions, and they managed this on an Ubuntu 11.04 distro with an older kernel.

              Trim-Slice must have backported some ARM optimizations from the newer kernels to achieve this. I'd really like to see a comparison of both the Pandaboard (omap) and Trim-Slice (tegra) running on the latest Linux 3.2 kernel. That would make for a very interesting comparison.
              There is an easy explanation.. in ubuntu 11.10 / 3.0 kernel, there isn't much power mgmt and 4460 is only running at a conservative ~700MHz (IIRC.. I don't have that kernel handy, but rule of thumb for cortex-a9 is that bogomips will be 2x clock speed). The boot loader just configures clocks with a conservative setting, and expects DVFS to take over once the kernel starts, but there is no DVFS enabled in that kernel.

              It does appear from benchmark results that none of the benchmarks are benefiting from NEON. That would give a significant advantage, even at lower clock speeds, for algorithms that can be vectorized. (I'm also not sure to what extent the x86 benchmarks benefit from MMX/SSE.. so I'm not quite sure if for an apples-to-apples comparison neon should be utilized)

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              • #17
                Originally posted by cynyr View Post
                Okay, I keep looking at these ARM boards off and on and keep asking myself what would I do with it.
                [*]File Server, no go not enough SATA ports or an expansion slot.
                Port multiplier may help. Even with a single port's bandwidth being split among multiple devices, you are still limited to the network speed.

                [*]HTPC, Not enough grunt to get 1080P or even 720P done.
                Virtually ALL ARM chips have dedicated video decoder hardware. These, in fact, would make ***EXCELLENT*** HTPCs for precisely this reason. You don't need a massive CPU for video decoding.

                No flash so not Hulu, or youtube. Running full linux, so no netflix.[*]Desktop for grandma/kids, no flash as it is arm + linux based, no way to play those cheep games from the bin at bestbuy.
                You don't have to use a "full linux".... Adobe has an Android/ARM version available, Google has a youtube application, netflix has an android version.

                Does the arm world have something like PCI-E or even PCI? How about a way to get more than 4 SATA ports and Dual GbE Lan that isn't via USB2.0?
                I don't think that there is any chance of this kind of device running up against server hardware any time soon. For now that will remain dominated by x86_64.

                Anyways, could someone explain to me what I would do with a Trim-Slice/Pandaboard ES? Looks fun to play with and maybe it would work nice for a kitchen/embeded computer, but I'm just not getting it.
                HTPC is probably the main use for now, as well as low power "light use" desktop systems.

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                • #18
                  Originally posted by cynyr View Post
                  Okay, I keep looking at these ARM boards off and on and keep asking myself what would I do with it.
                  1. File Server, no go not enough SATA ports or an expansion slot.
                  2. HTPC, Not enough grunt to get 1080P or even 720P done. No flash so not Hulu, or youtube. Running full linux, so no netflix.
                  3. Desktop for grandma/kids, no flash as it is arm + linux based, no way to play those cheep games from the bin at bestbuy.


                  Does the arm world have something like PCI-E or even PCI? How about a way to get more than 4 SATA ports and Dual GbE Lan that isn't via USB2.0?

                  Anyways, could someone explain to me what I would do with a Trim-Slice/Pandaboard ES? Looks fun to play with and maybe it would work nice for a kitchen/embeded computer, but I'm just not getting it.
                  one idea:
                  Part of the effort we spent during the Linaro 11.12 cycle was to try to enable at Pandaboard not only hardware graphics support (GLES with PVR SGX), but also hardware accelerated video decode, as T…


                  or hopefully in near future:
                  Yesterday Canonical announced the first UI concept for the Ubuntu TV. Together with the announcement, the first code drop was released, so we could read and understand better the technologies used,…

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                  • #19
                    Originally posted by droidhacker View Post
                    Port multiplier may help. Even with a single port's bandwidth being split among multiple devices, you are still limited to the network speed.
                    This is true, right up until you want to rebuild a software raid array...


                    Originally posted by droidhacker View Post
                    Virtually ALL ARM chips have dedicated video decoder hardware. These, in fact, would make ***EXCELLENT*** HTPCs for precisely this reason. You don't need a massive CPU for video decoding.
                    Very few of these seem to support high bit rate high profile high level h264 (think 25MB/sec 1080P high profile level 4.1 with 8.1 channel AAC audio or raw PCM), or anything else of equivalent quality. My Tegra based tablet doesn't really like my 480P high profile level 4.1, with 5.1 AAC DVD rips. Later this could become 4k2k 3D at even higher bitrates. Anyways, I'd like to not need to replace this for 5 years or so, so buying some extra power now would be a good idea.


                    Originally posted by droidhacker View Post
                    You don't have to use a "full linux".... Adobe has an Android/ARM version available, Google has a youtube application, netflix has an android version.
                    Right, I could roll my own version of android, but that isn't really ideal for an HTPC as it would be hard to get a mythTV/XBMC/Boxee sort of experiance. It also would then leave out hulu for hulu plus.


                    Originally posted by droidhacker View Post
                    I don't think that there is any chance of this kind of device running up against server hardware any time soon. For now that will remain dominated by x86_64.


                    HTPC is probably the main use for now, as well as low power "light use" desktop systems.
                    I would love to get to an even lower power than the AMD E-350 server I'm building (~18W TDP for the board, we'll see if i can measure actual power consumption). It idles 95% of the day (seeding gentoo dvd isos mostly) and then gets used to send a video to my PS3, or desktop/laptop in the evenings. So it's not like it needs a pile of power.

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                    • #20
                      Originally posted by robclark View Post
                      There is an easy explanation.. in ubuntu 11.10 / 3.0 kernel, there isn't much power mgmt and 4460 is only running at a conservative ~700MHz (IIRC.. I don't have that kernel handy, but rule of thumb for cortex-a9 is that bogomips will be 2x clock speed). The boot loader just configures clocks with a conservative setting, and expects DVFS to take over once the kernel starts, but there is no DVFS enabled in that kernel.
                      Do release notes for ARM version of ubuntu 11.10 mention this fact in any way? This would clearly help to avoid a lot of confusion.

                      It does appear from benchmark results that none of the benchmarks are benefiting from NEON. That would give a significant advantage, even at lower clock speeds, for algorithms that can be vectorized. (I'm also not sure to what extent the x86 benchmarks benefit from MMX/SSE.. so I'm not quite sure if for an apples-to-apples comparison neon should be utilized)
                      I looked a bit at the internals of these benchmarks, trying to figure out why the results are so strange and unrealistic. And looks like a lot of fixes are badly needed. Some comments are in the Pandaboard ES thread: http://phoronix.com/forums/showthrea...096#post246096

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