ULi M1695 PCIe/AGP for Athlon 64 – Part 2 with SLI
by Wesley Fink on August 5, 2005 10:00 AM EST- Posted in
- Motherboards
Overclocking : ULi M1695/M1567 Reference 2
ULi tells us that they have improved overclocking on the Reference 2. Our OC tests confirm that claim.ULi M1695/M1567 Reference 2 | |
Clock Speed Overclocking | |
Processor: | Athlon 64 FX57 (2.8GHz, 1MB Cache) Athlon 64 4000+ (2.4GHz, 1MB Cache) |
CPU Voltage: | 1.55V (default 1.40V) |
Cooling: | Thermaltake Silent Boost K8 Heat sink/Fan |
Power Supply: | OCZ Power Stream 520W |
Memory: | OCZ PC3200 EL Platinum Rev. 2 (Samsung TCCD Memory Chips) |
Hard Drive: | Seagate 120GB 7200RPM SATA 8MB Cache |
Maximum OC: (Standard Ratio) |
242x12 (4x HT, 2.5-3-3-10) 2904MHz (+21%) |
Maximum FSB: (Lower Ratio) |
400 x 7 (2800MHz) (3x HT) (2 DIMMs in DC mode) (+100% Bus Overclock) |
In the first OC testing with the Reference 2, we really did no better with our 4000+ than our last efforts, which reached 300 in FIRST LOOK: ULi M1695 PCIe/AGP Socket 939 for Athlon 64. ULi suggested that we test with the FX57 for the 400 Clock Frequency, and this indeed worked for an incredible 400x7 clock speed.
There are several potential reasons why the FX57 achieved what the 4000+ could not. First, the 4000+ has a stock voltage of 1.5V, while the FX57 is specified as 1.35V-1.4V. This means that the 1.55V available on the ULi is a more significant increase on the FX57 than the 4000+. ULi really needs to provide a wider range of vCore adjustments to accommodate the wide range of Athlon 64 processors in the market.
The second possibility is the memory controller, with the FX57 having a much better Rev. E+. The memory controller for Rev.E is much improved, according to AMD, and the FX57 is the latest in the Rev. E memory controller family.
Regardless of the reasons why FX57 worked at 400, we are still left with the severe overclocking limitation of no voltages for memory in the ULi Reference 2 BIOS. We had to toss our normal overclock procedures out the window to bring you a better idea of the overclocking capabilities of this board. Without memory voltage, the only way that this can be tested is by lowering memory ratios to those that can run at default voltage. In this case, that would be a 100 setting on memory, so the 400 clock setting would yield a 200 base or DDR400 at the fixed memory voltage. ULi needs to correct this and provide memory voltage adjustments to 3.2V or more in production boards.
Due to the improved performance of the FX57 in overclocking, we plan to use the FX57 or another Rev. E Athlon 64, in future overclocking tests.
It is also worth noting that ULi is another board that supports the new Athlon 64 high memory ratios with a Rev. E chip. As you can see, 433, 466, and 500 (216, 233, and 250) are new options when a Rev. E chip is installed.
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Some1ne - Friday, August 5, 2005 - link
Maybe this has already been pointed out, but running an AMD64 system at a 400 FSB with a lowered multiplier is a rather dubious accomplishment. My MSI board has no problems running at 400 FSB with my Athlon64 3000+ if I drop the CPU multiplier to 6x and the HTT to 2.5x, but this setting is actually slower than doing 352 FSB with 7x on the CPU and 3x on the HTT. Calling being able to run at 400 MHz FSB a "100% overclock" is just plain irresponsible, and implies that the author doesn't have a complete understanding about how the "FSB" (which is really a misnomer, as the AMD64 chips have *no* FSB in the traditional sense) works in the AMD64 context. Running at 400x7 is absolutely no different than running at 200x14 with an AMD chip (if memory and HTT speeds are also maintained at 200 MHz and 1000 MHz, respectively, which they were in the article), having the 400 instead of the 200 does not do a thing for performance (do some benchmarks if you don't believe me...if the CPU, HTT, and RAM speeds are kept the same, increasing the "FSB" speed on an Athlon64 system will not do a damn thing to improve performance), because none of the actual hardware is being clocked any differently. The only thing that specifying a 400 MHz "FSB" tests, in this case, is the board's clock frequency generator, which really isn't all that impressive.Wesley Fink - Friday, August 5, 2005 - link
Read carefully, I do not call the 400 "FSB" as you state, I have called it CPU clock speed. Without memory voltage adjustments the only way to test the claim of proper operation at 400 CPU clock fequency was to lower the multiplier and the memory speed. The only thing that is different here from our normal testing at lower multipliers is the lowering of memory speed as well - to 100 (200DDR), which is 200 (400DDR) at a CPU clock speed of 400. The HT was lowered to 3X, a value commonly used in the 300 to 320 range as well. The CPU is indeed running at spec 2.8GHz at 400x7 and the memory at spec DDR400, but the CPU clock frequency is double, or a 100% increase at stock speed.Certainly running memory at less than spec is allowing a higher frequency, we would expect a top-out at around 318 to 320 starting from DDR400 with this TCCD. It is still a rare board that is stable at a 400 setting, though there are a few others that can do this.
What would you suggest in benchmarking here? To not check the 400 clock frequency would paint an inaccurate picture of the board's potential. We carefully spelled out what we did, how it was different, and why we did it. What more do you want?
Some1ne - Friday, August 5, 2005 - link
You're correct, you didn't call it the FSB...I'm just so used to people referring to it like that. At any rate however, calling it the "CPU clock speed" is misleading as well, as this is typically interpreted to mean the speed that the CPU is actually clocked at (i.e. the 2.8 GHz you had on the FX-57 as a final result of the 400x7 setting). Perhaps a better name for this setting would be "base system clock frequency", since that's essentially what it is...it's the frequency that the board's clock generator runs at, and is used to derive the frequency used for the other components.That said, my main objection was to referring to being able to run at a 400 MHz "base system clock frequency" as being a 100% overclock, because it's really not (increasing the speed on the clock generator really does not count as overclocking). In order to attain a 100% overclock, the CPU would have to be run at 5.6 GHz, which is completely impossible with an FX-57. As you pointed out in your post (and in the article), the *only* thing that was overclocked at all was the HTT bus, by a mere 200 MHz. The CPU and RAM ran at stock speeds. This makes this a 0% overclock (raising the HTT speed above 1000 MHz really doesn't do much), and all it shows is that the board's clock generator will work at 400 MHz. No hardware other than the clock generator was affected by selecting a speed of 400 MHz (that's what the multipliers are for).
In reference to the benchmarking, what I meant was that if you were to take your FX-57 test system, and run it at stock settings and do some benchmarks like PCMark or SiSoft Sandra or whatever, and then run it at 400 MHz, 7x CPU multiplier, 2.5x HTT (or 3x if the board does not offer 2.5x), 100 MHz memclock index, and run the same benchmarks again, the results will be exactly the same (and they certainly won't be twice as good, which is what could be expected in the event of a "100% overclock"), meaning that just setting the clock generator at 400 MHz doesn't have any impact on performance at all, and doesn't say anything about how well the board will actually overclock...all it says is that you can actually select the higher clock generator settings without the board itself failing.
mino - Friday, August 5, 2005 - link
Actually this approach - testing maximum base frequency the board is capable of should be tested, I do not care about memory overclock. but I DO care how high teh board can go since the are Sempron 2500+ chips with 7x max. multiplier and these need such insane clockgen freqs to achieve some substantial overclocks. Actually any board not capable hitting 350 base freq. at these terms(lowered memfreq) should not be regarded an OC board. or it should be aslo noted that the board is suitable only for higre end overclocking. You know, around here OCing is a way to make something from nothing and better board shoul pay itself in decrease in processor price required to achieve certian level of performance. BTW mem speed is in no way important on K8, the timing are.mino - Saturday, August 6, 2005 - link
The memfreq comment refers to freqs above DDR400, of course.NullSubroutine - Friday, August 5, 2005 - link
Anyone know if there will be any Socket 754 versions with this chipset?g33k - Friday, August 5, 2005 - link
By the time Skt 754 becomes obsolete, AGP based x800 and 6xxx cards will also be obsolete. Hence, users will replace both at the same time.The only reason for this board is if someone wants a dualcore cpu and has an AGP card. But that is a very small percentage of the market.
deathwalker - Saturday, August 6, 2005 - link
I think not!! I would love to be able to continue to use my $400 investment in my 68oogt graphics card while at the same time be able to go to a socket 939 platform and preserve the ability to upgrade graphics to PCIe at a future date if desired.Shinei - Friday, August 5, 2005 - link
That's not true at all--right now I'm running an Athlon XP and would like to upgrade to an S939 processor... I can't justify dropping $800 to replace my 6800GT AND get a new motherboard/processor, but I CAN justify $300 for a ULi board and a cheap Venice processor.Araemo - Friday, August 5, 2005 - link
In the graph of the maximum FSB clock at lower multipliers.. is this board the only one that was retested with the FX-57? If so, that seems a little unfair to the other boards listed.