OCZ VX Memory + DFI nForce4 = DDR533 at 2-2-2
by Wesley Fink on March 4, 2005 6:45 AM EST- Posted in
- Memory
Test Results: OCZ EL PC4000 VX Gold
To be considered stable for test purposes, Quake3 benchmark, UT2003 Demo, Super PI, Aquamark 3, and Comanche 4 had to complete without incident. Any of these, especially Super PI, will crash a less-than stable memory configuration.OCZ EL PC4000 VX Gold (DDR500) - 2x512Mb Double-Bank | |||||||
CPU Ratio at 2.4GHz | Memory Speed | Memory Timings & Voltage |
Quake3 fps |
Sandra UNBuffered | Sandra Standard Buffered |
Super PI 2M places (time in sec) |
Wolfenstein - Radar - Enemy Territory fps |
12x200 | 400 DDR (Stock V) |
2-3-2-6 2.6V 1T (Stock V) |
567.4 | INT 2856 FLT 2998 |
INT 6130 FLT 6082 |
81 | 119.3 |
12x200 | 400 DDR | 2-2-2-6 3.0V 1T |
572.6 | INT 2920 FLT 3065 |
INT 6150 FLT 6098 |
80 | 120.3 |
11x218 | 436 DDR | 2-2-2-6 3.1V 1T |
580.6 | INT 3077 FLT 3253 |
INT 6538 FLT 6467 |
80 | 121.4 |
10x240 | 480 DDR | 2-2-2-6 3.2V 1T |
600.5 | INT 3234 FLT 3404 |
INT 6804 FLT 6727 |
78 | 123.4 |
9x267 | 533 DDR | 2-2-2-6 3.5V 1T |
601.5 | INT 3477 FLT 3679 |
INT 7143 FLT 7056 |
77 | 124.9 |
9x269 (2.42GHz) |
Highest 1T Mem Speed 538 DDR |
2-2-2-6 3.6V 1T |
602.3 | INT 3477 FLT 3683 |
INT 7169 FLT 7106 |
77 | 125.2 |
10x250 (2.5Ghz) |
Rated Speed 500 DDR |
2-2-2-6 3.2V 1T |
612.2 | INT 3364 FLT 3557 |
INT 7093 FLT 7009 |
75 | 128.4 |
10x267 (2.67GHz) |
Highest CPU/MEM Performance | 2-2-2-6 3.5V 1T |
645.0 | INT 3470 FLT 3629 |
INT 7554 FLT 7461 |
71 | 135.8 |
The top row of Performance results at 2.6V is included as a performance baseline. While VX cannot achieve 2-2-2 timings at stock voltage at DDR400, it can easily be coaxed into 2-2-2 performance at DDR400 with more voltage. With these modules, we reached an extremely stable DDR400 2-2-2-6 at 3.0V. We then maintained 2-2-2-6 timings all the way to DDR538, which required 3.6V for complete stability. The voltage requirements from 3.0 to 3.6 volts were very linear to Memory Speed.
The important results here are rows 1 to 6, where CPU speed is kept at 2.4GHZ and only the Memory Speed is varied. The performance differences that you see in that range are a result of Memory Speed only. In the case of VX, where memory timings also remain constant, the true impact of just memory speed can be seen. It is not a huge difference in real-world benchmarks, but the increase is real nonetheless.
However, speed from 400 to 533 is not the only thing that is important with OCZ VX. Please take a look at VX performance in our later performance comparisons. Look at each of these speeds, comparing VX to the best AMD TCCD and other memory that we have tested, and you will see something very interesting. VX is faster at every speed than competing memory that we have tested. This means that all 2-2-2 is not created equal, as VX is faster at every speed than the competition at 2-2-2.
OCZ EL PC4000 VX Gold (DDR500) 2x512Mb Double-Bank |
||||
CPU Ratio at 2.4GHz | Memory Speed | Memory Timings & Voltage |
Everest 1.51 READ |
Everest 1.51 WRITE |
12x200 | 400 DDR (Stock V) |
2-3-2-6 2.6V 1T (Stock V) |
5941 | 2639 |
12x200 | 400 DDR | 2-2-2-6 3.0V 1T |
5996 | 2661 |
11x218 | 436 DDR | 2-2-2-6 3.1V 1T |
6338 | 2756 |
10x240 | 480 DDR | 2-2-2-6 3.2V 1T |
6977 | 2894 |
9x267 | 533 DDR | 2-2-2-6 3.5V 1T |
7455 | 3043 |
9x269 (2.42GHz) |
Highest 1T Mem Speed 538 DDR |
2-2-2-6 3.6V 1T |
7466 | 3055 |
10x250 (2.5GHz) |
Rated Speed 500 DDR |
2-2-2-6 3.2V 1T |
7236 | 3018 |
10x267 (2.67GHz) |
Highest CPU/MEM Performance | 2-2-2-6 3.5V 1T |
7603 | 3160 |
We have looked at Aida 32 results in the past, and found them very useful in examining read/write performance and memory latency. Aida 32 is now available as Everest Home Edition and can be downloaded for free from www.lavalys.com. It is very interesting to look at the real impact of memory speed on write performance compared to memory read performance. As we raise the memory speed from 200 to 267 (DDR400 to DDR533), keeping the CPU speed constant, memory Read increases over 25% while memory Write over the same range shows just a 14% increase. That means that while all operations benefit from memory speed increases, operations more dependent on memory Read will benefit much more from memory speed boosts than those that are memory Write dependent.
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ozzimark - Tuesday, March 8, 2005 - link
#56-it's easier to just go and get a booster and retest on the neo2 that was previously the benchmark system.
renzokuken - Tuesday, March 8, 2005 - link
With most comments before this one praising this RAM as if it were the Holy Messiah Himself, my comment will surely be seen as the Devil but the truth is, this article is biased. Mr. Fink doesnt know what he's on about. He's gone and tested the VX Gold and pitted the test results against the results obtained from other RAM on a completely different board. If you would take the time to indulge me, you will see that he's simply copied and pasted the performance results of RAM taken from the MSI Neo2 (NF3) and then compared these results to what he obtained with the VX Gold on the DFI LANParty nF4 SLI-DR. I cannot express in any written language how inconsistent this is. If I didn't know better, I'd say OCZ handed him a nice little duffle bag sporting a $ sign after writing this article.The fact is, OF COURSE the OCZ VX Gold will look like God when you compare RAM the way Mr.Fink has done. The test bed he's used for comparison has not been consistent. So you say "Who cares, its an onboard memory controller. It shouldn't matter which board you use". Do some research and you'll see that the previous statement is rediculous. Mr. Fink tested the DFI LANParty nF4 SLI-DR when it was first available and had the following results with the OCZ PC3200 Platinum Rev.2: "Quake 3 ran at 642FPS and SiSoft Sandra 2004 standard memory bandwidth was 8,300 MB/s. The Sandra unbuffered memory bandwidth was at 4000 MB/s" ( http://www.anandtech.com/mb/showdoc.aspx?i=2337&am... ). A direct comparison of these results to when the SAME RAM was tested on the MSI Neo2 ( http://www.anandtech.com/memory/showdoc.aspx?i=231... ) will show that the board itself makes all the difference, in DFI's favor. Considering the Corsair twinx1024-4400c25 outperformed the OCZ on the MSI, I still cant understand why we havent seen this RAM tested on the DFI yet. In any case, you cannot compare the test results of the VX Gold to those obtained by other RAM on the MSI board and thus the results and conclusion of this article is invalid.
I've emailed Mr.Fink regarding the inconsistencies of his articles and have outlined what we want as consumers. Because of the nature of the DFI board, I believe anandtech should test the top 5 RAM modules using this board (including the Corsair twinx1024-4400c25) and present us with results from an unbiased, completely controlled testbed so we, as consumers, can make a more informed decision when deciding which RAM to purchase.
slashbinslashbash - Tuesday, March 8, 2005 - link
#51: Thank you.bigtoe36 - Tuesday, March 8, 2005 - link
Guys, have a look at the front page of the ORB for 3D2001, many of the top benchers use ram thats running 2-2-2 at 250+.You have to remember here the VX beat out OCZ's 3200Plat rev2 which is also TCCD based so Wesleys review while showing one product in a good light shows another in a not so good.
Nvidia have said that the NF4 and NF3 chipsets clock ram and perform equal with the same memory, i have tested both boards here and found the same, if you want proof do a few days of testing yourself, remember the memory controller is on the CPU, not the chipset ;-) so actual bandwidth will probably be identicle.
This debate has been runmbling for years, whether high fsb's high latency beat low latency at lower fsb's, we debated for ages with the 875 chipsets but the cross over for performance was a lot lower down the fsb range, and boards are now clocking ram better than they ever did. Many prefered 250fsb 5:4 with 2-2-2 over 250 1:1 with 2.5-4-3 as the benches were always higher in games running async, you needed 265fsb for the high latency 1:1 to equal the 5:4 score and then pull away.All we see now is a much more flexable memory controller which just like the P4 C Northwoods is low latency, it will perform much better with low latency ram...and as the fsb of this low latency ram increases we will need to push higher latency ram to much higher speeds to match it.
I know many overclockers who are now running old Corsair/OCZ/Kingston BH5 bought off Ebay at some incredible speeds and overclocks professing its the best ram for A64...the only difference is now OCZ are pretty much the only manufacturer to offer an alternative to buying second hand.
If you have both types of ram, run a few benches off and see for yourselves which is faster.
TCCD has its place, 2-2-2 at low voltage and incredible clocks at reasonable voltages, but for all out benching high voltage and tight latency to many is the king.
kmmatney - Tuesday, March 8, 2005 - link
"Wesley, you're claiming that I will get a 10% increase in FPS by *just* switching memories"Yeah, but that's only at 1024 x 768 (and Quake 3?). Anyone buying this sort of memory would most likely be gaming at a much higher resolution. Is there much gain at all at 1600 x 1200? A video encoding benchmark would have been nice...
Quanticles - Monday, March 7, 2005 - link
Wesley, you're claiming that I will get a 10% increase in FPS by *just* switching memories, and you dont want to go ahead and do a more thorough review? I find the results hard to believe, and it doesnt help that OCZ runs so many ads on here.I also find it hard to believe that you couldnt get a DDR booster. As far as I can tell, OCZ was the one to send you the memory, so they should also have the boosters for the test. If OCZ doesnt have DDR boosters, who does?
I dont know a better way of saying this, but I'd prefer if the advertisements stayed in the boxes at the top of the screen, and out of the content of the pages.
Wesley Fink - Monday, March 7, 2005 - link
#49 & #50 - I have updated the test configuration to include all components used in the series of memory tests. Comments have also been added to the configuration page clearly stating the configuration used and the rationale for our test methods.Ideally all memory would have been retested on the MSI or the VX would have been tested in the MSI using a DDR Booster. However, a Booster was not available, and the time for retesting on the DFI did not seem justified based on the close nF4/nf3 performance we have seen in past benchmarking.
sangyup81 - Monday, March 7, 2005 - link
Wesley, you yourself demonstrated in the SLI roundup that nf4 boards have an ideal tras at 6-8 which is clearly lower than the ideal tras of older athlon 64 boards. There is plenty of reason to think using the DFI could skew the results. Why not just put it to rest once and for all and compare results of the 2 boards keeping all other things equal? Well except the whole PCIe and AGP thing. But everything else.slashbinslashbash - Monday, March 7, 2005 - link
#46 -- BTW, "In the review we never stated that the other memory chips were tested on the DFI."That's EXACTLY what "Performance Test Configuration" says. Or are we to assume that every other AT benchmark test is similarly flawed?
slashbinslashbash - Monday, March 7, 2005 - link
Further, why not just test *one* of those other sticks of RAM on this board and with these drivers? Under the section "Performance Test Configuration" we have listed: 8 kinds of RAM, Forceware 71.80, DFI LANParty nF4. This is NOT representative of the actual numbers to come later in the review, where again, all 8 kinds of RAM are presented on the same graph, implying that the differences we se here are solely because of the RAM, and all other factors have been held constant.One thing that hasn't even been mentioned is that you ran this OCZ VX at 6 tRAS while the other numbers come from 10 tRAS. Who knows how that might have changed things on an nF4 board. I'm not saying that that changed things, but it *could* have, and we would never know from this review because this review doesn't present the results in a way that is valid.
Please, for the sake of AT's benchmarking integrity, take JUST the top-performing RAM (the Corsair?) from the earlier test. Put it through the wringer with the DFI and the newer drivers. Then re-do the charts in this review, comparing JUST the OCZ VX and the Corsair 4400C25. Then you can say "Look at this other review to get an idea of the comparison of OCZ VX vs. Geil, G.Skill, Crucial, etc. We won't compare directly, but OCZ VX crushed Corsair, which beat all the others."
We all know that your conclusion is right. We know that this OCZ VX RAM really is performing the way you claim -- way better than anything else available. The problem is with the essentially dishonest way that you're presenting those results, even if the results themselves are true. I hope that you can understand this sentiment that makes us hold on to this most important principle of benchmarking or any kind of scientific testing: hold everything else constant!