Intel P965: Mid-Range Performance Sector Roundup
by Gary Key on October 20, 2006 9:00 PM EST- Posted in
- Motherboards
Media Encoding Performance
Our first test is quite easy - we take our original Office Space DVD and use AnyDVD Ripper to copy the full DVD to the hard drive without compression, thus providing an almost exact duplicate of the DVD. We then fired up Nero Recode 2, selected our Office Space copy on the hard drive, and performed a shrink operation to allow the entire movie along with extras to fit on a single 4.5GB DVD disc. We left all options on their defaults except we checked off the advanced analysis option. The scores reported include the full encoding process and are represented in minutes and seconds, with lower numbers providing better performance.
The results were interesting as the P965 boards scored better than the 975X board. We have seen this in previous testing with this benchmark and it appears the improved memory controller on the P965 is making a difference. The Gigabyte and ASUS 1.02G board score first with the other boards slightly behind. The ASUS 1.01G board consistently scored behind the 1.02G board in each of the test results due to the relaxed memory timings. If we set the memory timings on the 1.02G board to the 1.01G settings we produced the same test results.
Audio Encoding Performance
While the media encoding prowess of the P965 boards were superb in our initial media encoding testing, we wanted to see how they faired on the audio side. Our audio test suite consists of Exact Audio Copy v095.b4 and LAME 3.98a3. We utilize the INXS Greatest Hits CD that contains 16 tracks totaling 606MB of one time '80s hits.
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). We also set the number of active threads to two to ensure both cores are active during testing. The results are presented in minutes/seconds for the encoding process, with lower numbers being better.
As in the media encoding section, the more intensive CPU and storage system tests seem to favor the P965 over the i975X when running at the same memory timings. We basically see the same results again with the Gigabyte and ASUS 1.02G board taking top honors with the other P965 boards close on their heels. Once again the reworked/enhanced memory controller on the P965 offers better performance than the 975X and 570SLI although you need a benchmark to tell the differences. Our ASUS 1.02G and 1.01G boards scored identically when utilizing the same memory timings in our offline tests.
File Compression Performance
In order to save space on our hard drives and ensure we had another CPU crunching utility, we will be reporting our file compression results with the latest version of WinRAR that fully supports multi-treaded operations and should be of particular interest for those users with dual core or multi-processor systems. Our series of file compression tests utilizes WinRAR 3.61 to compress our test folder that contains 444 files, ten subfolders, and 602MB worth of data. All default settings are utilized in WinRAR along with our hard drive being defragmented before each test.
The results speak for themselves with the Intel P965 once again leading in our CPU intensive compression test. The Gigabyte and Biostar boards share first place honors with the Abit and ASUS boards finishing right behind them. The margins are once again extremely close between our P965 boards just reiterating the fact that boards based on the same chipset are going to offer the same performance. The 975X and 570SLI boards trail slightly and these results mirror the same scores we saw in our preview of the P965 chipset a couple of months ago.
Our first test is quite easy - we take our original Office Space DVD and use AnyDVD Ripper to copy the full DVD to the hard drive without compression, thus providing an almost exact duplicate of the DVD. We then fired up Nero Recode 2, selected our Office Space copy on the hard drive, and performed a shrink operation to allow the entire movie along with extras to fit on a single 4.5GB DVD disc. We left all options on their defaults except we checked off the advanced analysis option. The scores reported include the full encoding process and are represented in minutes and seconds, with lower numbers providing better performance.
The results were interesting as the P965 boards scored better than the 975X board. We have seen this in previous testing with this benchmark and it appears the improved memory controller on the P965 is making a difference. The Gigabyte and ASUS 1.02G board score first with the other boards slightly behind. The ASUS 1.01G board consistently scored behind the 1.02G board in each of the test results due to the relaxed memory timings. If we set the memory timings on the 1.02G board to the 1.01G settings we produced the same test results.
Audio Encoding Performance
While the media encoding prowess of the P965 boards were superb in our initial media encoding testing, we wanted to see how they faired on the audio side. Our audio test suite consists of Exact Audio Copy v095.b4 and LAME 3.98a3. We utilize the INXS Greatest Hits CD that contains 16 tracks totaling 606MB of one time '80s hits.
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). We also set the number of active threads to two to ensure both cores are active during testing. The results are presented in minutes/seconds for the encoding process, with lower numbers being better.
As in the media encoding section, the more intensive CPU and storage system tests seem to favor the P965 over the i975X when running at the same memory timings. We basically see the same results again with the Gigabyte and ASUS 1.02G board taking top honors with the other P965 boards close on their heels. Once again the reworked/enhanced memory controller on the P965 offers better performance than the 975X and 570SLI although you need a benchmark to tell the differences. Our ASUS 1.02G and 1.01G boards scored identically when utilizing the same memory timings in our offline tests.
File Compression Performance
In order to save space on our hard drives and ensure we had another CPU crunching utility, we will be reporting our file compression results with the latest version of WinRAR that fully supports multi-treaded operations and should be of particular interest for those users with dual core or multi-processor systems. Our series of file compression tests utilizes WinRAR 3.61 to compress our test folder that contains 444 files, ten subfolders, and 602MB worth of data. All default settings are utilized in WinRAR along with our hard drive being defragmented before each test.
The results speak for themselves with the Intel P965 once again leading in our CPU intensive compression test. The Gigabyte and Biostar boards share first place honors with the Abit and ASUS boards finishing right behind them. The margins are once again extremely close between our P965 boards just reiterating the fact that boards based on the same chipset are going to offer the same performance. The 975X and 570SLI boards trail slightly and these results mirror the same scores we saw in our preview of the P965 chipset a couple of months ago.
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smn198 - Monday, October 23, 2006 - link
Would you be able to re-run using 4 drives for all of the tests please?
jonp - Sunday, October 22, 2006 - link
-- “…budget sector and includes boards from ECS, Foxconn, Intel, and Gigabyte.” – will the MSI P965 Neo-F be in this set?-- the Abit AB9 Pro feature set does not show the eSata port on the SI 3132 (two SATA). it does show a serial port on the i/o panel but not one in the picture.
-- The Biostar feature set shows 4 USB on the i/o panel when there are six in the picture.
JarredWalton - Sunday, October 22, 2006 - link
Fixed - thanks.powchi - Saturday, October 21, 2006 - link
Can I use a 20-pin power supply on these boards since all are using 24-pin connectors? Or will I be needing 20pin to 24pin adaptor?The PSU is an Enermax NoiseTaker EG475P-VE SFMA 470W ATX 12V v1.3.
Aikouka - Sunday, October 22, 2006 - link
Some motherboard manufacturers will no longer support your motherboard if they find out you've been running it with a 20-pin ATX plug or a 20->24-pin adapter. Just be safe and get a newer PSU :). I know DFI will no longer support the motherboard if it specifically asks for a 24-pin.JarredWalton - Saturday, October 21, 2006 - link
Technically, yes you can use 20-pin PSUs. Will they work, and will the system be stable? That varies. I haven't had any issues on the systems where I've done it, but if you do high overclocking it will likely become a serious issue.powchi - Saturday, October 21, 2006 - link
Jarred,So there's no need to use a 20pin to 24pin adaptor? What are the differences when using and not using an adaptor? Thanks.
lopri - Sunday, October 22, 2006 - link
No. As a matter of fact, the adapter should be avoided. Just plug the 20-pin connector to 24-pin receptacle with 4-pin left empty. Like Jarred said, it should work in theory and it does in practice. However, the quality of PSU and how intense is one's OC can affect the (long-term) stability.JarredWalton - Sunday, October 22, 2006 - link
I suppose the adapter *could* help, as it ensures power is available on all the 24-pins, but you're still taking the power from the same source so depending on how that works out it can actually make things worse. I would typically say that if you have a 400W or better PSU you should be fine with little to moderate OC'ing even with 20-pins. (I have an OCZ ModStream 450W that certainly works fine in a 939 board with a decent 2.0 to 2.6 GHz overclock.)lopri - Sunday, October 22, 2006 - link
Yes! Not to brag about myself or anything, but I went through countless Socket 939 Opterons on DFI NF4 SLI-D with original Antec TruePower EPS12V (20-pins, not the TP2 with 24-pins) including an Opteron 165 @3.0GHz (9x333). TCCD up to 325MHz/2.5-4-3-8! The setup was absolutely stable.