Asus P5AD2 Premium: Overclocking and Stress Testing

FSB Overclocking Results

Front Side Bus Overclocking Testbed
Processor: Pentium 4 Prescott LGA 775
2.8GHz
CPU Voltage: 1.3875V (default)
Cooling: Thermaltake Jungle 502
Power Supply: HiPro 470W
Maximum OC: 280FSB (+40%)

The LGA 775 CPUs are multiplier locked, so the only way to overclock the CPU is to increase the FSB. Fixing the PCIe frequency tends to limit the overclocking of the 925X, so Asus, like others in the roundup, allows the PCI Express frequency to float. Asus then manipulates the PCIe frequency (or ratios to be more precise) during boot to achieve higher overclocks. For more information on how Asus manages to reach such outstanding overclock with the P5AD2, please check Breaking Intel's Overclock Lock: The REAL Story.

The Asus was able to reach a FSB of 280, a 40% overclock, with an ATI X800 XT and SATA hard drive. This is by far the highest overclock that we achieved with this hardware in the roundup. The P5AD2 was more limited with an nVidia 6800 Ultra video card, reaching 258. The nVidia appears to be less tolerant of out-of-spec PCIe frequency than the X800 XT.

Memory Stress Test Results:

The memory stress test measures the ability of the Asus P5AD2 to operate at its officially supported memory frequency (533MHz DDR2), at the best performing memory timings that Crucial/Micron PC2-4300U will support. Memory stress testing was conducted by running DDR2 at 533MHz (stock 3:4 ratio) with 2 DIMM slots operating in Dual-Channel mode.

Stable DDR533 Timings - 2 DIMMs
(2/4 DIMMs - 1 Dual-Channel Bank)
Clock Speed: 266MHz
Timing Mode: 3:4 (200:266 - Default)
CAS Latency: 3.0
Bank Interleave: Auto
RAS to CAS Delay: 3
RAS Precharge: 3
Cycle Time (tRAS): 10*
Command Rate: N/A
*SPD (Auto) timings for DDR2 are normally 4-4-4-12 at DDR2-533. A tRAS setting of 12 is normal. We ran a series of tests to measure memory bandwidth, and found the tRAS setting made very little difference in the performance of DDR2. The most effective range of tRAS was 8 to 13 for DDR2 on the 925X chipset, so a tRAS of 10 was chosen for benchmarking.

The Asus P5AD2 Premium was completely stable with 2 DDR2 modules in Dual-Channel at the settings of 3-3-3-10 at 1.8V default voltage. This matches the best timings that all the motherboards in this roundup were able to achieve with DDR2 memory. 3-3-3 is also faster than the specified 4-4-4 timings specified for the Crucial/Micron DDR2 modules used for these benchmarks.

Filling all four available memory slots is more strenuous on the memory sub-system than testing 2 DDR2 modules on a motherboard.

Stable DDR533 Timings - 4 DIMMs
(4/4 DIMMs - 2 Dual-Channel Banks)
Clock Speed: 266MHz
Timing Mode: N/A
CAS Latency: 4.0
Bank Interleave: N/A
RAS to CAS Delay: 3
RAS Precharge: 10T*
Precharge Delay: 3.0
Command Rate: N/A
*SPD (Auto) timings for DDR2 are normally 4-4-4-12 at DDR2-533. A tRAS setting of 12 is normal. We ran a series of tests to measure memory bandwidth, and found the tRAS setting made very little difference in the performance of DDR2. The most effective range of tRAS was 8 to 13 for DDR2 on the 925X chipset, so a tRAS of 10 was chosen for benchmarking.

As we first saw on the Abit, 4 DDR2 DIMMs are not stable at CAS 3 as 2 DIMMs are. Once again, we required 4-3-3 timings when using 4 DDR2 DIMMs, though 4-3-3 worked fine at default voltage. Perhaps more voltage could improve stability at 3-3-3 with 4 DIMMs, but our tests up to 2.0V (from default 1.8V) did not produce enough stability to complete our Super Pi or Aquamark 3 at the 3-3-3 timings.

Asus P5AD2 Premium: Features and Layout DFI LANParty 925X-T2: Features and Layout
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  • johnsonx - Thursday, August 12, 2004 - link

    What is it with you people griping about CPU choices? This is a review of current top-end 925X boards, not a CPU review! The FX-53 scores are there only for a point of reference. Added to that, Wesley's point is VERY valid: the 560 and FX-53 ARE the top CPU's from each camp.

    If you really want to know how a 3800+ would perform, refer to past Socket-939 reviews, or just mentally subtract about 3% or so.

    STOP WHINING!
  • Wesley Fink - Thursday, August 12, 2004 - link

    #17 - Since we were trying to determine the maximum overclocking ability of the boards tested, we used a 3.6 ES LGA 775 Prescott at a 14 multiplier (2.8Ghz). The 14x280 is close to 3.9GHz speed. We also checked with a retail 540 (3.2GHz) and reached 250FSB (4.0GHz) at 1.45V.

    These results lead us to believe that many 775 Prescotts will top out at 3.9 to 4.0GHz on boards that will support those overclock levels. That means that there are likely some 2.8 Prescotts out there that can reach 280FSB.

    As always, overclocking is variable, and you need a really great power supply and decent cooling to support the power requirements at these kinds of overclocks.
  • Carfax - Thursday, August 12, 2004 - link

    Wesley, is it possible to do a review of Prescott which focuses on the upcoming 1ghz FSB? I've heard that Prescott scales better than N.W with a higher FSB and greater clockspeed..

    To do the review correctly, you'd need an engineering sample with an unlocked multiplier, so you can see the benefit of the increased FSB, without raising the clockspeed.

    I think Prescott would do pretty well on 1066FSB and with fast DDR2 memory..
  • danidentity - Thursday, August 12, 2004 - link

    Wes,

    When you say you hit 280 FSB with the Asus P5AD2, was that with a retail chip, multiplier locked? Or were you using an ES chip. If you were using a retail, that is an absolutely insane overclock.
  • danidentity - Thursday, August 12, 2004 - link

    >> Better than comparing a 3500+ to a 3.6F anyway :P

    How would a 3500+ compare with a Intel 3.6? Could it hang? :)
  • RyanVM - Thursday, August 12, 2004 - link

    I have no problem with the 3.6E and FX53 being shown together since both platforms will end up costing about the same (factoring in CPU, mobo, and memory costs). Prices fluctuate, yes, but both companies (OK, mainly AMD) tend to adjust prices to stay in line with performance levels (if Intel drops the 3.6E price, I'd put money on AMD dropping prices at the high end within a day or two).

    Better than comparing a 3500+ to a 3.6F anyway :P
  • Creig - Thursday, August 12, 2004 - link

    #12/#13 Given the way pricing can fluctuate, it would be futile to compare Intel $$$ to AMD $$$. A couple of days after the article was published, pricing could change to make the monetary comparison useless and therefore misleading.

    I think they're doing it the correct way. It's up to the end user to find his/her best balance between performance and price.
  • mjz5 - Thursday, August 12, 2004 - link

    man, i should of read #12 first before posting it.. why not have an edit button?

    anyhow, u all know what i'm saying!!!
  • mjz5 - Thursday, August 12, 2004 - link

    the way i see it is that CPUs should be compared by price. If an AMD FX-53 cost as much as a Celeron 2.4 GHz, why not compare the two? If someone is going to looking at these products because they cost X dollars, they aren't interested in seeing that an Intel CPU that cost (X*2) may or not surpass it the competitor at only X dollars.
  • Wesley Fink - Thursday, August 12, 2004 - link

    #9 & #10 - Corrected

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