Abit AW9D-MAX: When "Beta" MAX is a good thing
by Gary Key on September 8, 2006 3:10 AM EST- Posted in
- Motherboards
Memory Performance
We have been saying for years that the Buffered benchmark does not correlate well with real performance in applications on the same computer. For that reason, our memory bandwidth tests have always included an Unbuffered Sandra memory score. The Unbuffered result turns off the buffering schemes, and we have found the results correlate well with real-world performance as we will see shortly.
With the E6600, our Abit board offers a 5% improvement in the stock clock speed Sandra Unbuffered test and a 3% improvement in the overclock tests over the ASUS board. The ASUS board holds a small advantage in both clock settings in our latency tests which is surprising considering the Abit advantage in the Unbuffered tests.
General Performance
We also tested a couple of real world applications that typically stress the CPU, memory, and storage systems along with a synthetic test to see if the performance differences in our memory synthetic tests carry over to the desktop. Our real world application tests include activities that are common on the desktop.
Our first test was to measure the time it takes to shrink the entire Office Space DVD that was extracted with AnyDVD into a single 4.5GB DVD image utilizing Nero Recode 2. Our second test consists of utilizing Exact Audio Copy as the front end for our version 3.98a3 of LAME. We set up EAC for variable bit rate encoding, burst mode for extraction, use external program for compression, and to start the external compressor upon extraction (EAC will read the next track while LAME is working on the previous track, thus removing a potential bottleneck with the optical drive). Our test CD is INXS Greatest Hits, a one time '80s glory masterpiece containing 16 tracks totaling 606MB of songs. The results of our tests are presented in minutes/seconds with lower numbers being better.
Our third test is Cinebench 9.5 which heavily stresses the CPU subsystem while performing graphics modeling and rendering. We utilize the standard benchmark demo within the program along with the default settings. Cinebench 9.5 features two different benchmarks with one test utilizing a single core and the second test showcasing the power of multiple cores in rendering the benchmark image. The results are presented in a standardized score format with higher numbers being better.
Our fourth test is 3DMark06 which tests the graphics and CPU subsystems. The 3DMark series of benchmarks by Futuremark are among the most widely used tools for benchmark reporting and comparisons. Although the benchmarks are very useful for providing apples-to-apples comparisons across a broad array of GPU and CPU configurations, they are not a substitute for actual application and gaming benchmarks. In this sense we consider the 3DMark benchmarks to be purely synthetic in nature but still valuable for providing consistent measurements of performance. The results are presented in a standardized score format with higher numbers being better.
The performance of the Abit AW9D-MAX was very consistent and in alignment with the memory test results. We found the board to be very responsive and extremely stable during testing. In fact, if you were doing a blind box test it would have been difficult to figure out which board was performing the best. The differences in performance between the two boards are very minor but the Abit board had up to a 5% advantage in our video/audio encoding tests. This indicates to us Abit has properly optimized the processor, memory, and storage subsystems within their BIOS code. However, this is a beta BIOS and performance could change either way. We suggest waiting on the production level BIOS before drawing any absolute performance conclusions. Let's see if these results carryover into our game benchmarks.
Click to enlarge |
We have been saying for years that the Buffered benchmark does not correlate well with real performance in applications on the same computer. For that reason, our memory bandwidth tests have always included an Unbuffered Sandra memory score. The Unbuffered result turns off the buffering schemes, and we have found the results correlate well with real-world performance as we will see shortly.
With the E6600, our Abit board offers a 5% improvement in the stock clock speed Sandra Unbuffered test and a 3% improvement in the overclock tests over the ASUS board. The ASUS board holds a small advantage in both clock settings in our latency tests which is surprising considering the Abit advantage in the Unbuffered tests.
General Performance
We also tested a couple of real world applications that typically stress the CPU, memory, and storage systems along with a synthetic test to see if the performance differences in our memory synthetic tests carry over to the desktop. Our real world application tests include activities that are common on the desktop.
Our first test was to measure the time it takes to shrink the entire Office Space DVD that was extracted with AnyDVD into a single 4.5GB DVD image utilizing Nero Recode 2. Our second test consists of utilizing Exact Audio Copy as the front end for our version 3.98a3 of LAME. We set up EAC for variable bit rate encoding, burst mode for extraction, use external program for compression, and to start the external compressor upon extraction (EAC will read the next track while LAME is working on the previous track, thus removing a potential bottleneck with the optical drive). Our test CD is INXS Greatest Hits, a one time '80s glory masterpiece containing 16 tracks totaling 606MB of songs. The results of our tests are presented in minutes/seconds with lower numbers being better.
Our third test is Cinebench 9.5 which heavily stresses the CPU subsystem while performing graphics modeling and rendering. We utilize the standard benchmark demo within the program along with the default settings. Cinebench 9.5 features two different benchmarks with one test utilizing a single core and the second test showcasing the power of multiple cores in rendering the benchmark image. The results are presented in a standardized score format with higher numbers being better.
Our fourth test is 3DMark06 which tests the graphics and CPU subsystems. The 3DMark series of benchmarks by Futuremark are among the most widely used tools for benchmark reporting and comparisons. Although the benchmarks are very useful for providing apples-to-apples comparisons across a broad array of GPU and CPU configurations, they are not a substitute for actual application and gaming benchmarks. In this sense we consider the 3DMark benchmarks to be purely synthetic in nature but still valuable for providing consistent measurements of performance. The results are presented in a standardized score format with higher numbers being better.
Click to enlarge |
The performance of the Abit AW9D-MAX was very consistent and in alignment with the memory test results. We found the board to be very responsive and extremely stable during testing. In fact, if you were doing a blind box test it would have been difficult to figure out which board was performing the best. The differences in performance between the two boards are very minor but the Abit board had up to a 5% advantage in our video/audio encoding tests. This indicates to us Abit has properly optimized the processor, memory, and storage subsystems within their BIOS code. However, this is a beta BIOS and performance could change either way. We suggest waiting on the production level BIOS before drawing any absolute performance conclusions. Let's see if these results carryover into our game benchmarks.
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OvErHeAtInG - Sunday, September 10, 2006 - link
...probably to avoid cracking. Yes?yyrkoon - Monday, September 11, 2006 - link
Actually, Its a known issue with some ABIT motherboards, that if you put a metal screws in these holes, it will short the board out. Dont take my word for it though, look around on ABITs forums :)jackylman - Friday, September 8, 2006 - link
Abit also integrates additional cooper layers in between the PCB layers to aid in the extraction of heat from these areas.OvErHeAtInG - Friday, September 8, 2006 - link
While we're picking nits:The 24-pin ATX connector is conveniently located on the edge of the board in front of the number four DIMM slot. The 12-pin ATX connector is located at the edge of the first DIMM slot. The CPU fan header is located next to the 12-pin ATX plug and due to the size of the CPU area requires your heatsink/fan to be properly oriented if the cable is short.
Am I daft, or do you mean 8-pin instead of 12-pin? Sorry if this was already mentioned, I skimmed the comments.
jackylman - Saturday, September 9, 2006 - link
Both typo's fixed. Good job! ;)Gary Key - Sunday, September 10, 2006 - link
I apologize about those errors, using DNS on this article and still do not know how eight became twelve (eight in the charts and my type written text), flat missed catching the other one as that is one word that DNS does not like. ;-)joex444 - Friday, September 8, 2006 - link
you say one of the bios issues was not being able to change the multiplier down, then describe how you went from a 9x to an 8x multiplier... does it allow multiplier changing only with the new bios and the stock one didn't? i don't really care what the stock bios does if i'm going to flash it to the newest one anyways...Gary Key - Friday, September 8, 2006 - link
We could change the multiplier on the X6800 only. We used that chip as stated in the overclocking section to test at 8X and 6X. The issue with the X6800 is that you cannot raise it past 11x. :)johnsonx - Friday, September 8, 2006 - link
You gave us over a half dozen pictures of the board from every angle, but you couldn't toss us a picture of these 'overclocking stripes'? what the hell are they, and how do they work?
Gary Key - Friday, September 8, 2006 - link
A picture of the OC-Strips technology along with additional wording is available now.