Buying an eight-core
Mac Pro featuring two 3GHz Quad-Core Intel Xeon chips will cost you roughly $700 more than a single quad-core 3GHz machine. Yet, all that extra processing oomph will net you only a 4-percent performance boost in
Speedmark 4.5, Macworld Lab’s standard benchmark suite.
So does that mean the $3,997
eight-core Mac Pro announced in April is a bust? Not hardly—rather, it’s more a case of this being a desktop better suited for different tasks than our tests typically measure.
As many Macworld readers know, Speedmark looks to quantify the performance Mac users can expect when running typical real world tasks using typical applications such as Microsoft Office, iMovie, iTunes and OSX finder applications. That’s a perfectly acceptable battery of tests when dealing with Apple’s standard offerings—MacBooks, MacBook Pros, iMacs, and even the standard Mac Pro configuration. An eight-core Mac Pro, however, does not fit into that crowd.
Rather, this Mac Pro configuration uses a pair of Clovertown 3GHz Quad-Core Intel Xeon 5300 series processors, not to mention 8MB of L2 cache per processor, 1.33GHz 64-bit dual independent frontside buses, and the capacity for 16GB of main memory. It’s a machine that thrives when running applications that are optimized to take advantage of multiple cores. And while we include some higher-end tests like rendering scenes in Cinema 4D, using Compressor to encode some DV footage and running a Photoshop action script, these performance-hungry applications are in the minority in our test suite. Thus, the overall Speedmark score for the eight-core Mac Pro suffers.
Eight-core Mac Pro Benchmarks
| ||Speedmark 4.5 ||Adobe Photoshop CS3 ||Cinema 4D XL 9.5.21 ||Compressor 3 ||iMovie 6.0.1 ||iTunes 7.2 ||Unreal Tournament 2004 ||Finder |
| ||OVERALL SCORE ||SUITE ||RENDER ||MPEG2 Encode ||AGED EFFECT ||MP3 ENCODE ||FRAME RATE ||ZIP ARCHIVE |
|Mac Pro/2 3GHz Intel Xeon (eight-core) || 325 || 0:48 || 0:14 || 1:17 ||0:39 ||0:55 ||92.1 || 1:45 |
| Mac Pro/3GHz Intel Xeon (quad-core) || 313 || 0:50 || 0:25 || 1:18 || 0:35 || 0:52 || 95.6 || 1:55 |
| Power Mac G5/2.5GHz Power PC (quad-core) || 252 || 1:16 || 0:30 || 1:23 || 0:40 || 0:51 || 42.7 || 2:20 |
| ||>Better ||<Better ||<Better ||<Better ||<Better ||<Better ||>Better ||<Better |
Best results in bold. Reference systems in italics .
Speedmark 4.5 scores are relative to those of a 1.25GHz Mac mini, which is assigned a score of 100. Adobe Photoshop, Cinema 4D XL, iMovie, iTunes, and Finder scores are in minutes:seconds. All systems were running Mac OS X 10.4.9 with 1GB of RAM, with processor performance set to Highest in the Energy Saver preference pane when applicable. The Photoshop Suite test is a set of 14 scripted tasks using a 50MB file. Photoshop’s memory was set to 70 percent and History was set to Minimum. We recorded how long it took to render a scene in Cinema 4D XL. We used Compressor to encode a 6minute:26second DV file using the DVD: Fastest Encode 120 minutes – 4:3 setting. In iMovie, we applied the Aged video effect to a 1-minute movie. We converted 45 minutes of AAC audio files to MP3 using iTunes’ High Quality setting. We used Unreal Tournament 2004’s Antalus Botmatch average-frames-per-second score; we tested at a resolution of 1,024 by 768 pixels at the Maximum setting with both audio and graphics enabled. We created a Zip archive in the Finder from a 1GB folder.To compare Speedmark 4.5 scores for various Mac systems, visit our
Apple Hardware Guide .—MACWORLD LAB TESTING BY JAMES GALBRAITH, BRIAN CHEN, AND JERRY JUNG
If you spend most of your day researching articles on the Web, tinkering with Excel spreadsheets and writing e-mails, this is definitely not the system for you. And that shouldn’t be a surprise—after all, how can you expect Microsoft Office to make efficient use of eight processing cores when it doesn’t even work natively with the chips in an Intel-based Mac? In fact, the 2.5GHz Power Mac G5 leaves all the Intel-based Macs in the dust in our Microsoft tests.
But that’s not to say that the eight-core Mac Pro doesn’t have its constituency. If you spend you time rendering 3-D scenes in an optimized application like Cinema4D, these eight cores can crank out a result 44-percent faster than the 4-core system and 53-percent faster than the Power Mac G5. Compressor scores on the 8-core can also be very impressive, depending on the task. The test we usually run involves converting six minutes of video using MPEG 2; however, we didn’t see a big boost between the four- and eight-core machines. When we brought these results to Apple’s attention, company representatives suggested trying some other codecs, such as H.264. Using Compressor 3’s presets for converting to H.264 for Apple TV, we saw speeds go from 9:13 on the four-core to 7:43 on the eight-core, a 16-percent improvement. A quick test with extra RAM failed to make much of a difference in these results.
Apple agrees with our findings about routine tasks involving Office, e-mail, and Web browsing: This eight-core system is not meant for the general consumer. Rather, Apple describes its eight-core Mac Pro as one of those instances where the hardware is meant to push the software— Apple hopes that this eight-core machine will help developers of high-performance applications optimize their software for multi-core systems. We hope so too.
Check back for our full review, including more tests including a multitasking suite and tests with additional RAM.
[ James Galbraith is Macworld Lab director. ]