Expert's Rating
Pros
- Zippy performance from Sandy Bridge quad-core processors
- Facetime HD camera
- Two Thunderbolt ports
- Fastest graphics performance in iMac line
- Has the most configuration options
Cons
- Not much faster overall than the less expensive members of the iMac family
- No anti-glare screen option
Our Verdict
On Tuesday, Apple released an updated line of iMacs, featuring quad-core Sandy Bridge Intel processors and Thunderbolt ports. Macworld Lab has all four standard configuration models, and the results for the $1999 27-inch iMac are in. The results do not disappoint, with the new iMac besting the previous generation of standard-configuration iMacs. The new 3.1GHz iMac even bested the performance of some impressively-equipped build-to-order models we’ve tested previously.
The $1999 iMac was the first to arrive in our lab and the first to be tested. At the heart of this iMac is a 3.1GHz Core i5 quad-core processor. This iMac also has a 1TB 7200-rpm hard drive, and AMD Radeon HD 6970M graphics with 1GB of video memory.
Our overall system performance test suite, Speedmark 6.5, shows the new system to be 16 percent faster than the previous high-end standard configuration iMac, a 27-inch 2.8GHz Core i5 quad-core model with a 1TB 7,200-rpm hard drive, and ATI Radeon HD 5750 graphics with 1GB of dedicated RAM. (Apple considered the older 27-inch 2.8GHz Core i5 iMac a BTO option, but the online Apple Store didn’t treat it like one, so we decided to treat it like a standard configuration model.)
In our iTunes encode test, the new iMac was 22 percent faster than the 27-inch 2.8GHz Core i5 iMac. The new iMac was also 18 percent faster in our Handbrake test, 20 percent faster in the Cinebench graphics test, 21 percent faster in the Cinebench CPU test, and 16 percent faster in our MathematicaMark tests.
27-inch Core i5 iMac/3.1GHz benchmarks
| Speedmark 6.5 Score | |
|---|---|
| 27-inch iMac Core i5 3.1GHz | 227 |
| 21.5-inch iMac Core i3 3.06GHz (Mid 2010) | 174 |
| 21.5-inch iMac Core i3 3.2GHz (Mid 2010) | 179 |
| 27-inch iMac Core i3 3.2GHz (Mid 2010) | 177 |
| 27-inch iMac Core i5 2.8GHz (Mid 2010) | 196 |
| 27-inch iMac 2.93GHz Core i7 (BTO, Mid 2010) | 225 |
| 27-inch iMac 3.6GHz Core i5 (BTO, Mid 2010) | 199 |
| 21.5-inch iMac 3.06GHz Core 2 Duo (Late 2009) | 129 |
| 27-inch iMac 2.66GHz Core i5 (Late 2009) | 195 |
| 15-inch MacBook Pro 2.2GHz Core i7 (Early 2011) | 206 |
| Mac Pro 3.33GHz Xeon Westmere six-core (BTO, Mid 2010) | 263 |
Higher scores are better. Reference models in italics. Best result in bold.
Like the older 27-inch 2.8GHz Core i5 iMac, all of the new standard-configuration iMacs support Turbo Boost, which can give more processing power to individual cores when needed. And also like the older 27-inch 2.8GHz Core i5 iMac, all of the new standard-configuration iMacs don’t have Hyper Threading, a technology that presents the OS with two virtual cores for each physical core.
Comparing the new system to last year’s BTO models, we see less of a difference in performance. Just two Speedmark points separate the new 3.1GHz Core i5 iMac from the 2.93GHz Core i7 quad-core BTO iMac. The 2.93GHz model, like all 2010 iMacs, does not use Sandy Bridge processors, but it does support both Hyper Threading and Turbo Boost. In applications such as Cinebench and MathematicaMark, which can take advantage of eight virtual cores, the 2.93GHz BTO iMac outperformed the new 3.1GHz iMac.
Another 2010 BTO model, the 27-inch 3.6GHz Core i5 iMac, used a dual core processor at a faster clock speed. In terms of overall performance, the new standard 3.1GHz Core i5 iMac outperformed the 3.6GHz 2010 BTO iMac by 14 percent. In applications that make efficient use of four processors (Cinebench, Mathematica, and Handbrake), the new iMac was dominant, finishing 35 percent, 67 percent and 42 percent faster, respectively. In many tasks, however, having faster but fewer processors is an advantage, as can be seen in zipping and unzipping folders, and opening a Word document in Pages.
Compared to the 15-inch 2.2GHz Core i7 quad core MacBook Pro, the new 3.1GHz Core i5 iMac was 10 percent faster overall, and a few seconds faster in almost all of our individual application tests.
Compared to a recent six-core 3.33GHz Xeon Westmere Mac Pro with 8GB of RAM, the Mac Pro was about 15 percent faster overall than the new iMac. The iMac was a little faster in the graphics tests and iTunes encode tests, but considerably slower in most tasks, especially MathematicaMark and Cinebench CPU tests.
Speedmark 6.5 individual application test results: 27-inch Core i5 iMac/3.1GHz benchmarks
| Duplicate 1GB File | Zip 2GB folder | Unzip 2GB folder | Pages ’09 Open Word Doc | |
|---|---|---|---|---|
| 27-inch iMac Core i5 3.1GHz | 20 | 144 | 48 | 70 |
| 21.5-inch iMac Core i3 3.06GHz (Mid 2010) | 19 | 166 | 42 | 77 |
| 21.5-inch iMac Core i3 3.2GHz (Mid 2010) | 19 | 160 | 42 | 67 |
| 27-inch iMac Core i3 3.2GHz (Mid 2010) | 20 | 161 | 43 | 76 |
| 27-inch iMac Core i5 2.8GHz (Mid 2010) | 21 | 170 | 44 | 76 |
| 27-inch iMac 2.93GHz Core i7 (BTO, Mid 2010) | 17 | 157 | 36 | 71 |
| 27-inch iMac 3.6GHz Core i5 (BTO, Mid 2010) | 17 | 140 | 36 | 65 |
| 21.5-inch iMac 3.06GHz Core 2 Duo (Late 2009) | 20 | 177 | 40 | 85 |
| 27-inch iMac 2.66GHz Core i5 (Late 2009) | 22 | 179 | 43 | 76 |
| 15-inch MacBook Pro 2.2GHz Core i7 (Early 2011) | 23 | 159 | 50 | 76 |
| Mac Pro 3.33GHz Xeon Westmere six-core (BTO, Mid 2010) | 18 | 148 | 26 | 62 |
Results are in seconds. Lower results are better. Reference models in italics. Best result in bold.
Speedmark 6.5 individual application test results: 27-inch Core i5 iMac/3.1GHz benchmarks
| iTunes 10 AAC to MP3 encode | Import movie archive to iMovie ’09 | iMovie ’09 export to iTunes 10 for iPhone | Call of Duty 4 framerate | |
|---|---|---|---|---|
| 27-inch iMac Core i5 3.1GHz | 74 | 66 | 51 | 88.5 |
| 21.5-inch iMac Core i3 3.06GHz (Mid 2010) | 95 | 103 | 69 | 78.3 |
| 21.5-inch iMac Core i3 3.2GHz (Mid 2010) | 91 | 101 | 68 | 78.4 |
| 27-inch iMac Core i3 3.2GHz (Mid 2010) | 91 | 100 | 68 | 78.2 |
| 27-inch iMac Core i5 2.8GHz (Mid 2010) | 95 | 78 | 56 | 88.1 |
| 27-inch iMac 2.93GHz Core i7 (BTO, Mid 2010) | 92 | 61 | 55 | 88.3 |
| 27-inch iMac 3.6GHz Core i5 (BTO, Mid 2010) | 80 | 90 | 61 | 79.0 |
| 21.5-inch iMac 3.06GHz Core 2 Duo (Late 2009) | 123 | 97 | 102 | 19.1 |
| 27-inch iMac 2.66GHz Core i5 (Late 2009) | 101 | 82 | 60 | 87.5 |
| 15-inch MacBook Pro 2.2GHz Core i7 (Early 2011) | 83 | 70 | 55 | 81 |
| Mac Pro 3.33GHz Xeon Westmere six-core (BTO, Mid 2010) | 81 | 48 | 48 | 88.3 |
Call of Duty 4 results are based on framerate; higher results are better. All other test results in the above chart are in seconds; lower results are better. References models in italics. Best result in bold.
Speedmark 6.5 individual application test results: 27-inch Core i5 iMac/3.1GHz benchmarks
| iPhoto ’09 200 JPEG import | Photoshop CS5 action | HandBrake 0.9.4 encode | Cinebench R11.5 graphics | |
|---|---|---|---|---|
| 27-inch iMac Core i5 3.1GHz | 28 | 53 | 209 | 38 |
| 21.5-inch iMac Core i3 3.06GHz (Mid 2010) | 35 | 60 | 405 | 25.4 |
| 21.5-inch iMac Core i3 3.2GHz (Mid 2010) | 34 | 58 | 391 | 27.4 |
| 27-inch iMac Core i3 3.2GHz (Mid 2010) | 35 | 59 | 392 | 27.3 |
| 27-inch iMac Core i5 2.8GHz (Mid 2010) | 36 | 55 | 256 | 31.9 |
| 27-inch iMac 2.93GHz Core i7 (BTO, Mid 2010) | 29 | 53 | 208 | 34.8 |
| 27-inch iMac 3.6GHz Core i5 (BTO, Mid 2010) | 33 | 55 | 340 | 31.0 |
| 21.5-inch iMac 3.06GHz Core 2 Duo (Late 2009) | 42 | 62 | 569 | 6.4 |
| 27-inch iMac 2.66GHz Core i5 (Late 2009) | 38 | 57 | 267 | 30.7 |
| 15-inch MacBook Pro 2.2GHz Core i7 (Early 2011) | 52 | 55 | 220 | 35 |
| Mac Pro 3.33GHz Xeon Westmere six-core (BTO, Mid 2010) | 27 | 55 | 144 | 34 |
CineBench R11.5 Graphics results are a score; higher results are better. All other test results in the above chart are in seconds; lower results are better. Reference models in italics. Best result in bold.
Speedmark 6.5 individual application test results: 27-inch Core i5 iMac/3.1GHz benchmarks
| Cine- bench R11.5 CPU | Mathe- matica Mark 7 | Parallels World- Bench Multitask test | Aperture 3 import and process | Multi- tasking | |
|---|---|---|---|---|---|
| 27-inch iMac Core i5 3.1GHz | 85 | 11.7 | 247 | 107 | 58 |
| 21.5-inch iMac Core i3 3.06GHz (Mid 2010) | 157 | 6.1 | 340 | 125 | 78 |
| 21.5-inch iMac Core i3 3.2GHz (Mid 2010) | 152 | 6.3 | 333 | 121 | 75 |
| 27-inch iMac Core i3 3.2GHz (Mid 2010) | 152 | 6.23 | 332 | 123 | 75 |
| 27-inch iMac Core i5 2.8GHz (Mid 2010) | 108 | 10.1 | 290 | 118 | 65 |
| 27-inch iMac 2.93GHz Core i7 (BTO, Mid 2010) | 77 | 12.5 | 282 | 108 | 62 |
| 27-inch iMac 3.6GHz Core i5 (BTO, Mid 2010) | 130 | 7.0 | 293 | 109 | 72 |
| 21.5-inch iMac 3.06GHz Core 2 Duo (Late 2009) | 229 | 4.3 | 355 | 137 | 88 |
| 27-inch iMac 2.66GHz Core i5 (Late 2009) | 112 | 9.7 | 300 | 118 | 65 |
| 15-inch MacBook Pro 2.2GHz Core i7 (Early 2011) | 81 | 11.4 | 278 | 118 | 61 |
| Mac Pro 3.33GHz Xeon Westmere six-core (BTO, Mid 2010) | 48 | 19.2 | 253 | 101 | 59 |
MathematicaMark 7 results are scores; higher results are better. All other test results in the above chart are in seconds; lower results are better. Reference models in italics. Best result in bold.
How we tested. Speedmark 6.5 scores are relative to those of a 2.4GHz Core 2 Duo Mac mini (Mid 2010) with 2GB of RAM, which is assigned a score of 100. We duplicated a 1GB file, created a Zip archive in the Finder from the two 1GB files and then unzipped it. We converted 135 minutes of AAC audio files to MP3 using iTunes’ High Quality setting. In iMovie ’09, we imported a camera archive and exported it to iTunes using the Mobile Devices setting. We ran a Timedemo at 1024-by-768 with 4X anti-aliasing on in Call of Duty 4. We imported 200 JPEGs into iPhoto ’09. The Photoshop Suite test is a set of 23 scripted tasks using a 50MB file. Photoshop’s memory was set to 70 percent and History was set to Minimum. For our multitasking test, we timed the Photoshop test again, but with the iTunes MP3 encoding and file compression tests running in the background. We used Handbrake to encode four chapters from a DVD previously ripped to the hard drive to H.264. We recorded how long it took to render a scene with multiprocessors in Cinebench and ran that application’s OpenGL, frames per second test. We ran the Evaluate Notebook test in MathematicaMark 7. We ran the WorldBench 6 multitasking test on a Parallels 6 VM running Windows 7 Professional. We timed the import and processing time for 200 photos in Aperture.—Macworld Lab testing by James Galbraith, William Wang, and Mauricio Grijalva
We’re busy testing the other new models, so check back for more benchmarks soon. (The wait for Thunderbolt performance results will be longer, however, as the first few drives announced won’t be available until this summer.) We’re also working on the full review of the new iMacs.
[James Galbraith is Macworld’s lab director.]