Media Encoding Performance using DVD Shrink, WME9, Quicktime and iTunes

First up is DVD Shrink 3.2.0.15. Our test was simple - we took a copy of Star Wars Episode VI and ripped the full DVD to the hard drive without compression, effectively giving us an exact copy of the disc on the hard drive.  Then, using the copy of the DVD on the hard drive (to eliminate any DVD drive bottlenecks), we performed a DVD shrink operation to shrink the movie to fit on a single 4.5GB DVD disc.  All of the options were left on their defaults, so the test ends up being pretty easy to run and reproduce.  The scores reported are DVD encoding times in minutes, with lower numbers meaning better performance. 

The DVD Shrink test is quite important as DVD Shrink is quite possibly one of the easiest tools to rip a DVD.  The easier a tool is to use, the more likely it's going to be used, and arguably, the more important performance using it happens to be. 

DVD Shrink 3.2.0.15

MPEG-2 encoding performance using DVD Shrink clearly favors the Pentium Extreme Edition; while the Athlon 64 X2 4800+ is competitive, it falls behind both EE chips.

Moving on, we have our Windows Media Encoder 9 test, which uses the advanced profile settings for video encoding.  We left all settings at their defaults and just proceeded with an MPEG-2 to WMV-HD conversion.  The values reported are in frames per second, with higher numbers being better.

Windows Media Encoder 9 - Advanced Profile

The situation under Windows Media Encoder 9 is no different, with the EE taking the lead once more.

Next up, we have Quicktime Pro 7.0.3 and we perform a MPEG-2 to H.264 encoding task.  All of the settings are left at their defaults, with the exception that we optimize the output file for download with a 256kbps data rate while leaving the resolution untouched.  We also adjust the video options to optimize for the best quality.  We report the transcoding time in minutes, with lower values being better. 

H.264 Encoding with Quicktime Pro 7.0.3

The tables are turned under Quicktime 7, with the Athlon 64 X2s taking the lead and pushing the Pentium EE 955 to third place.

Finally, we have a MP3 encoding test using iTunes 6.0.1.3.  For this test, we simply took a 304MB wav file and converted it to a 192kbps MP3 file, measuring the encode time in seconds.  The only iTunes option that we changed was to prevent the playback of the song while encoding. 

MP3 Encoding with iTunes 6.0.1.3

MP3 encoding performance is a close race between the Athlon 64 X2 4800+ and the EE 955, with AMD taking the slight lead.

3D Rendering Performance using 3dsmax 7 Gaming Performance
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  • yacoub - Tuesday, January 3, 2006 - link

    quote:

    The Athlon 64 X2 4800+ actually is faster in the Splinter Cell: CT benchmark without anything else running, but here we see a very different story. Although its 66 fps average frame rate is reasonably competitive with the Presler HT system, its minimum frame rate is barely over 10 fps - approximately 1/3 that of the Presler HT.


    Yet no mention of the Max, where the 4800+ utterly trounces the two Intel chips. Does Max not matter (in which case why bother listing it), or does it matter but you just neglected to mention that (whether on purpose or by accident)?
  • jjunk - Tuesday, January 3, 2006 - link

    quote:

    Yet no mention of the Max, where the 4800+ utterly trounces the two Intel chips. Does Max not matter (in which case why bother listing it), or does it matter but you just neglected to mention that (whether on purpose or by accident)?


    It's right there in the chart. As for further discussion not really necessary. Screaming frame rates might look good on the chart but they don't help game play. A 10 fps min will definately be noticiable.
  • IntelUser2000 - Sunday, January 1, 2006 - link

    quote:

    When we do receive the new motherboard, we will take a look at power consumption once more to get an idea of the final state of Intel's 65nm power consumption, but until then, we don't want to draw any conclusions based on what we've seen.
    '

    I don't like that paragraph. It makes it sound like 65nm will be all that makes Presler in power consumption. It will also make people judge 65nm based on Presler, since that's the first CPU on the 65nm.

    In fact its not that simple. Taking a CPU that's on a certain process like the Smithfield and putting on a smaller process won't mean instant 40-50% decrease in power consumption. That's called the dumb shrink. The reason Northwood had significantly lower power than Willamette was because Northwood was optimized to lower power consumption.

    A CPU that runs well at 130nm may do bad at 90nm and even worse at 65nm for example. Presler was said to be not Intel's main focus and Intel moved their design teams to Conroe, so people who's supposed to be optimizing Presler for 65nm all went away and Presler was just done a dumb shrink.

    Sleep transistor was an optional feature on 65nm, not required. So Presler may not have it.
  • IntelUser2000 - Monday, January 2, 2006 - link

    Why use DDR2-667 with 5-5-5-15 timings?? Most DDR2-667 can do 4-4-4-8(around there). This is gonna skew the results in AMD's favor as DDR400 used is the lowest latency possible.

    In reality nobody is gonna use DDR400 at 2-2-2-7 lateny or DDR2-667 at 4-4-4-8 latency. Nobody I have ever heard in outside internet uses the RAM at those timings.

    Anandtech should either benchmark them all at JEDEC timings or use them all with low latency. I understand they want to be sure the new test system to work properly, but using low latency RAM for the comparison system is just not fair.

    JEDEC timings for DDR400 is 3-3-3-8. Where are your DDR400 advantage over DDR2 now??
  • hans007 - Sunday, January 1, 2006 - link

    i think that the 9xx series is a big improvement over the 8xx.

    i have an 8xx myself the 820 which is the lowest power. the leakage is exponential so the 955 is going to draw a much highe ramount than say a 920 will.

    i bet the 920 will be a half decent cpu drawing maybe only 70 watts. which isnt TOO terrible in the grand scheme of power. the 920 would only run at 2.8 ghz and have not as high leakage percentage so i think it will be the one to get.

    true intel is not better yet, but they are getting there. and their dual cores still cost less.

    i also think that intel should be commended for writing the smp code for q4. that is the doom3 engine which will go into a LOT of games. and since it speeds up the amd chips as well, it is a free upgrade for everyone. sure it makes up for a large deficiency in the intel chips, but it is FREE.

    and it makes the really cheap 920/820 chips very price competitive. as the 820 chips are very very cheap about $150 on ebay (which is probably near what oems get them for in bulk, this the rampant dell 820 deals going on)
  • jjmcwill - Saturday, December 31, 2005 - link

    I do professional software development for a living, using Visual Studio 2003 to build the code for a product I work on. We have over 1000 .cpp files and over 1500 header files.

    On my work box: An HP xw6200 workstation with a single 3.0GHz Xeon CPU, 2MB L2 cache, 1G RAM, compilation takes 10:45 for a single project in our solution. On my home system: Socket 754 Athlon 64 3000+, 1.5G RAM, compilation takes 7:30. Both systems build the code off of the exact same, external ide hard drive in a Firewire enclosure. I use it to carry all my work back and forth between work and home.

    At some point we'll be investigating Make to launch parallel compiles, and I would be VERY interested in seeing dual-core CPU comparisons which include compilation benchmarks, using Visual Studio 2003 under Windows, using Make -j2 or Make -j3 under windows, and using gcc/make under Linux.

    Based on what I've seen with the Xeon, I'm leaning toward an AMD X2 or dual core Opteron for my next upgrade.


    Thanks.

  • Calin - Tuesday, January 3, 2006 - link

    I think that an Extreme Edition CPU (while much more expensive) would give better results with hyperthreading enabled than a simple Pentium D and maybe even than an Athlon64 X2 while doing several threads of compile.
  • Brian23 - Saturday, December 31, 2005 - link

    The second valuable post in this thread.

    I own a X2 3800 and I'm pleased with the results anand posted. I won't need to upgrade for a while.

    I'm looking forward to AMD implementing something similar to Sun's design: multiple threads running simultaneously. It shouldn't be that hard to do. It's just adding GPRs and a little logic that controls the thread contexts.
  • Missing Ghost - Saturday, December 31, 2005 - link

    Some other web sites report that the cpu becomes too hot with the stock heatsink.
  • Gary Key - Saturday, December 31, 2005 - link

    quote:

    Some other web sites report that the cpu becomes too hot with the stock heatsink.


    The initial press release kits that contained the Intel D975XBX motherboard had an issue that created higher than normal idle/load temperatures. We have new boards on the way from Intel. I can promise you that the first results shown in other 955EE reviews do not occur on the 975x boards from Gigabyte and Asus, nor will it occur on the production release Intel D975XBX. I highly recommend a different air cooling system than the stock heatsink but most of the reported results at this time are incorrect.

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