ASUS P5N-E SLI: NVIDIA's 650i enters with a Bang
by Gary Key on December 22, 2006 5:00 AM EST- Posted in
- Motherboards
First Thoughts
Once again we have to ask the $64,000 question: did NVIDIA succeed in designing a competitive chipset when compared to the Intel P965? Our answer to that question is a very reserved yes. While the chipset was very competitive in the majority of our early benchmark results, we have to wonder if this is due to the ASUS implementation or if our results indicate the actual strength of the chipset. Until we are able to test more motherboards based on this chipset it will be difficult to give a final answer. We have some hunches however and believe the chipset is competitive but certainly does not deliver a knockout blow to the P965.
Our initial thoughts are based upon how sensitive the board is to memory timing changes and types of memory utilized. We found the memory and chipset timings are tweaked very tightly resulting in a very narrow band of settings that are stable. We have discussed our memory timing issues with ASUS several times and currently we are awaiting a full response. While this is a drawback to the board, if you have memory capable of running at 4-4-4-12 1T at DDR2-800 then this board offers excellent gaming performance and very good application performance. ASUS can be congratulated for getting excellent results in the game and synthetic benchmarks, but it appears to be at the expense of memory compatibility. Of course, P965 also had quite a few issues with memory compatibility when it first launched, so perhaps NVIDIA and the board manufacturers just need a bit more time to become acquainted with the needs of the chipset.(Update - ASUS will be providing a Beta BIOS early next that addresses our memory timing issues.)
We have tested the board for over a week now with a wide variety of components in several different configurations. The board has proved to be extremely stable and performs very well when the right memory settings are applied. We still have significant testing left to complete once our retail kit arrives, but at this time we really like the chipset and the motherboard. The performance of the board and the fact it has a decent set of features leaves us wondering why we would spend over a $100 more for the 680i boards. Sure, the 680i boards have additional features such as dual Gigabit Ethernet connections with DualNet technology, dual x16 graphics slots along with a slot designed for physics capability, an additional two SATA 3Gb/s and USB 2.0 ports, and enhancements like LinkBoost, SLI Ready Memory, and extended overclocking capabilities. However, does every user need these additional features?
We think not, and we believe the 650i SLI chipset offers basically the same or better performance as the 680i about 95% of the time for significantly less money. It may turn out that this chipset isn't so much of a P965 killer but instead is a 680i killer in most cases. This is actually good news as this chipset was designed for the mainstream performance market and the 680i really is meant for the small but very vocal enthusiast sector. Coming back to the P965, we found the 650i SLI offered similar performance in most cases and excelled in gaming where its main purpose in life exists.
The advantages the 650i SLI offers is official SLI support, native IDE chipset capability along with support for four IDE devices, flexible memory and FSB settings, and a similar price to performance ratio when compared to the P965. The main negatives we see are increased power consumption, memory bandwidth is lower overall, and FSB overclocking is comparatively lower (although the true capabilities of the chipset are not yet fully known)than the upper end P965 motherboards.
In many ways that's the biggest concern at this time: the unknown. We do not know how this chipset will perform when utilized in other board designs and what the average cost for the board will be in the near future. We have seen the ASUS P5N-E SLI offered for around $129.99 and at that price with the right set of memory, we think it is a great bargain, especially if you plan on running an SLI setup or have multiple IDE devices still in use. We still have a lot of questions about this chipset and motherboard, too many to pass final judgment on either one at this time, but we will report back in the near future with additional test results and hopefully a look at several other new boards based on the 650i SLI chipset. We think this chipset has a bright future in the mainstream performance market and believe ASUS has, at first look, designed a very good board around it.
Once again we have to ask the $64,000 question: did NVIDIA succeed in designing a competitive chipset when compared to the Intel P965? Our answer to that question is a very reserved yes. While the chipset was very competitive in the majority of our early benchmark results, we have to wonder if this is due to the ASUS implementation or if our results indicate the actual strength of the chipset. Until we are able to test more motherboards based on this chipset it will be difficult to give a final answer. We have some hunches however and believe the chipset is competitive but certainly does not deliver a knockout blow to the P965.
Our initial thoughts are based upon how sensitive the board is to memory timing changes and types of memory utilized. We found the memory and chipset timings are tweaked very tightly resulting in a very narrow band of settings that are stable. We have discussed our memory timing issues with ASUS several times and currently we are awaiting a full response. While this is a drawback to the board, if you have memory capable of running at 4-4-4-12 1T at DDR2-800 then this board offers excellent gaming performance and very good application performance. ASUS can be congratulated for getting excellent results in the game and synthetic benchmarks, but it appears to be at the expense of memory compatibility. Of course, P965 also had quite a few issues with memory compatibility when it first launched, so perhaps NVIDIA and the board manufacturers just need a bit more time to become acquainted with the needs of the chipset.(Update - ASUS will be providing a Beta BIOS early next that addresses our memory timing issues.)
We have tested the board for over a week now with a wide variety of components in several different configurations. The board has proved to be extremely stable and performs very well when the right memory settings are applied. We still have significant testing left to complete once our retail kit arrives, but at this time we really like the chipset and the motherboard. The performance of the board and the fact it has a decent set of features leaves us wondering why we would spend over a $100 more for the 680i boards. Sure, the 680i boards have additional features such as dual Gigabit Ethernet connections with DualNet technology, dual x16 graphics slots along with a slot designed for physics capability, an additional two SATA 3Gb/s and USB 2.0 ports, and enhancements like LinkBoost, SLI Ready Memory, and extended overclocking capabilities. However, does every user need these additional features?
We think not, and we believe the 650i SLI chipset offers basically the same or better performance as the 680i about 95% of the time for significantly less money. It may turn out that this chipset isn't so much of a P965 killer but instead is a 680i killer in most cases. This is actually good news as this chipset was designed for the mainstream performance market and the 680i really is meant for the small but very vocal enthusiast sector. Coming back to the P965, we found the 650i SLI offered similar performance in most cases and excelled in gaming where its main purpose in life exists.
The advantages the 650i SLI offers is official SLI support, native IDE chipset capability along with support for four IDE devices, flexible memory and FSB settings, and a similar price to performance ratio when compared to the P965. The main negatives we see are increased power consumption, memory bandwidth is lower overall, and FSB overclocking is comparatively lower (although the true capabilities of the chipset are not yet fully known)than the upper end P965 motherboards.
In many ways that's the biggest concern at this time: the unknown. We do not know how this chipset will perform when utilized in other board designs and what the average cost for the board will be in the near future. We have seen the ASUS P5N-E SLI offered for around $129.99 and at that price with the right set of memory, we think it is a great bargain, especially if you plan on running an SLI setup or have multiple IDE devices still in use. We still have a lot of questions about this chipset and motherboard, too many to pass final judgment on either one at this time, but we will report back in the near future with additional test results and hopefully a look at several other new boards based on the 650i SLI chipset. We think this chipset has a bright future in the mainstream performance market and believe ASUS has, at first look, designed a very good board around it.
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JarredWalton - Monday, December 25, 2006 - link
The big problem with AGP is that it only allowed for one high-speed port. PCIe allows for many more (depending on chipset), plus you get high up and down bandwidth, whereas AGP had fast writes (CPU to card) but slow reads (card to CPU). X8 PCIe is still at least as fast as 8X AGP in terms of bandwidth, and in most instances we aren't stressing that level of bandwidth.Lord Evermore - Monday, December 25, 2006 - link
x8 PCIe can be as slow as AGP4X depending on the traffic pattern. 4 lanes of PCIe (or 8 half-lanes technically; the number of lanes in each direction in x8) is 1GBps, AGP4X is 1.066GBps. So if most of the data were being streamed in one direction, those two would be equivalent, theoretically. AGP8X would have 2.13GBps in which to stream that uni-directional data. If half the data were going in each direction, then x8 PCIe would be equivalent to AGP8X since they'd both have 1GBps available for each direction, or 2GBps half the time for AGP actually (though performance might be lower with AGP because of the non-independent half-duplex nature).But since AGP4X is probably still capable of handling the majority of applications, it doesn't really matter much.
Too bad we can't manually control the number of lanes in use to a particular slot. It would be very interesting to compare performance using the same graphics card on the same mainboard using x1, which could depending on the pattern be about equal to a simple PCI card or AGP1X, to x2, x4, x8 and x16 (since x16 can in some cases be comparable to AGP8X). That would help to definitively say whether all the increased bandwidth is actually making a difference, or if other factors are involved.
Lord Evermore - Monday, December 25, 2006 - link
AGP 3.0 supports multiple slots depending on what the chipset is designed to support. According to Wikipedia, HP AlphaServer GS1280 has up to 16 AGP slots. Those basically all connect to a single interface on the chipset. It's likely that since it's a part of the AGP3 spec, every chipset could have supported multiple ports, but normal mainboard makers never used it. There were probably reasons that it wouldn't have worked well for an SLI type feature, possibly the read/write bandwidth issue.Any chipset designer also could have just put in multiple AGP interfaces I bet, even if they only supported one card a time. Don't know what effect that would have on bandwidth or contention for access to the CPU. The cards probably also would have not been able to work in any sort of SLI configuration where the data had to go over the chipset bus.
PrinceGaz - Friday, December 22, 2006 - link
Your article starts with questions about this, and they remain unresolved at least up until nForce4 chipsets to my knowledge (because I have one). Of course I'm not stupid enough to risk using nVidia's hardware firewall and associated drivers, but even their IDE drivers can cause a normal installation of Windows XP to have trouble starting which means I cannot safely enable NCQ (I have a dual-core processor) or even benefit from any acceleration the nForce4 chipset might provide, because the nVidia drivers are unstable.I once used to trust nVidia, especially with drivers back in the early GeForce days, but the latest official GeForce drivers have been bug-ridden what with incorrect monitor refresh-rate detection (even after using the .inf file), and stupidity like doubling the reported memory clock speed of the card when it had always previously been correct.
Their good graphics-card drivers were why I bought an nForce4 based board, and also on this site's recommendation, and I must admit I'm only so-so about it. It works and does everything it says it should on the box, but the computer doesn't feel as responsive as it should and I suspect that is partly because I had to revert to the default Microsoft disk drivers.
All reviews of nVidia chipset motherboards should include a mention about their driver issues (bugs) until they are fixed. Just because you test a mobo for one day and it seems to work and overclock to a given level, does not mean it can be trusted day-in day-out. If you cannot install the IDE drivers, then NCQ and other hard-drive features are negated. If the hardware firewall drivers are so bad no one with any sense goes near them, then that hardware in the chipset is worthless and could best be described as a liability.
I like this site, but it would be nice if you sometimes looked back on products you've been given earlier in the year and report on whether they actually lived up to expectations. Assuming you get to keep any of your stuff. If you don't, then the opinions of the writers becomes almost meaningless because anything looks good for a day or two.
Tanclearas - Saturday, December 23, 2006 - link
Gary Key should be sensitive to this issue more than anyone. Gary tried to facilitate contact between me and Nvidia to try to nail down the cause of the hardware firewall corruption issues. He contacted Nvidia several times for me, and I was contacted by an Nvidia rep twice. I provided the Nvidia rep with detailed steps that I had used to install Windows and the drivers. I conducted tests without any software installed, and continually experienced issues. I provided screen shots of errors to the rep as well. I offered to install Windows and drivers of any version they requested, using whatever steps they wanted.After providing them with all of the details and making that offer, Nvidia never contacted me again. Gary followed up with me, and contacted Nvidia again on my behalf to try to get them to get in touch with me. Ultimately, they just removed official support for the firewall. I am honestly surprised a class action suit never came of it. Nvidia used the hardware firewall as a selling feature, then made no attempt to solve the issues that were being experienced by many users, and finally just pulled the plug on it.
Anyway, I too have little faith in Nvidia actually taking the issues seriously and finding a solution. I'm not going to say that I'll never buy a board with an Nvidia chipset again, but I can guarantee I won't be buying 680/650 when there are already known issues, and any future board based on an Nvidia chipset will have to go through months of retail availability and positive user feedback before I'd be willing to try again.
LoneWolf15 - Tuesday, December 26, 2006 - link
Insightful post. I'm still using an nForce 4 Ultra chipset board (MSI 7125 K8N Neo4 Platinum), and it's been good for me, but I've never used their firewall software after hearing reports from others.The current 680i issues have led me to the same conclusion as you: I have no interest in buying an nVidia chipset mainboard next time around (so far, Intel's i975X seems to be the only one I'd be interested in). It seems nVidia has a history of sweeping troubles (i.e., this issue, first-generation PureVideo fiascos with the NV40/45 graphics chipsets that I'm surprised never caused a class-action, the nForce3 250Gb firewall that didn't provide the acceleration they first claimed it did) under the rug if they cannot resolve them through software fixes, and hope nobody raises enough of a ruckus (a method which seems to have worked well for them).
I've just bought a new Geforce graphics card, but experiencing the PureVideo issues alone caused me to skip to ATI for two generations. It's also taught me to read forums with additional user experiences of a product for the first month after release, before I purchase. It seems review sites often miss driver issues/bugs in first-rev. hardware, due to limited time envelopes for review, or not being able to test with as wide a variety of hardware as the community (admittedly, not their fault). I'm not willing to pay the early-adopter/rev 0.9 price any more.
KeypoX - Saturday, December 23, 2006 - link
anyone notice how low quality these articles have become? A couple years ago this site was a decent place to get some info but now ...Please go back to the old good qual cause now you guys are not good at all ... i feel pretty sad everytime i visit the site
Xcom1Cheetah - Friday, December 22, 2006 - link
Was just wandering isn't the power numbers of idle and full load are a little to high for the stability of the system.. i m not sure but i feel the higher power is going to reduce the stability of the over clock in the longer run...Performance and feature wise it look pretty ideal to me.. only if its power number has been inline with P965.
Any chance that these power number coming down due to the BIOS fix/update.?
JarredWalton - Friday, December 22, 2006 - link
I doubt the power req's will drop much at all over time. However, higher power draw doesn't necessarily mean less stable. It does mean you usually need more cooling, but a lot of it is simply a factor of the chipset design. I'm pretty sure 650i is a 90nm process technology, but for whatever reason NVIDIA has always made chips that run hot. The Pentium 4 wasn't less stable because it used more power, though, and neither is the nForce series.Perhaps part of the cause of the high power is that NVIDIA uses HyperTransport as well as the Intel FSB architecture. Then having two chips that run hot.... Added circuitry to go from one to the other? I don't know. Still, the ~40W power difference is pretty amazing (in a bad way).
Avalon - Friday, December 22, 2006 - link
For $130, that's a pretty good looking board. I was expecting the 650SLI chipset based boards to be more around $150-$175. Now this makes me curious as to how 650Ultra will pan out.