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Asus A7V333 question
- Thread starter techronin
- Start date
mechBgon
Super Moderator<br>Elite Member
In my post in the unofficial A7V333 thread, I've got a link to the LostCircuits review showing the VDIMM jumper settings, as well as other info that could come in useful. HTH 🙂
thanks a lot! 🙂
----------------------------------------------------
DDR Voltages
When it comes to running voltages out of spec, hardly any manufacturer has the kind of track record as ASUS. From the P5A to the A7M266, the road has literally been paved with burned DIMMs and the A7V333 threatens to continue this tradition.
The layout of the VDDR jumpers has been carried over from the A7V266-E, that is jumpers JP1 and JP2, only the values have changed. By default, the A7V333 supplies a whopping 2.78-2.85 VDD and VDDQ (DDR core and I/O voltage). The variation accounts for the differences in measurement on several boards. Changing the jumper configuration allows settings between 2.59 and 3.06V. The detailed settings are:
ii 2.59 - 2.63V (same with one or both jumpers removed completely)
i! 2.78 - 2.85V (default setting, out of spec according to JEDEC guidelines)
!i 2.88 - 2.96V
!! 2.95 - 3.06V
The latter two settings are almost guaranteed to destroy the memory modules, maybe not today but after a few weeks. It is not clear what the purpose of the high voltage settings is, however, it is only a matter of time until this will become a liability issue for ASUS, one way or another. Keep in mind that the settings are not documented and the high settings are not meant for "public consumption" by ASUS either.
The interesting thing about these settings is that all current high-end DDR chips are using internal voltage regulators to reduce the core voltage to 1.8V which is necessary to run at high frequency. The only parts of the chips that actually see the increased voltage are input/ output buffers and, granted that those will wiggle a bit faster at higher voltages, the net effect is counteracted by the fact that the internal voltage regulators produce a lot of heat that will overall slow down the chips. In other words, a sensitive approach would be to leave VDD alone but increase VDDQ. Admittlely, there are some older DIMMs that will run at 2.5V internally but those will hardly be used in PC2700 mode of operation which is the only scenario where the massive overvoltage would be of benefit.
The recommendation in this case is, similar as what we suggested for the A7M266: simply take off both JP1 and JP2 to bring the voltages back to where they belong. Side effects are that the failure rate, that is, stuck bits and system crashes in memory-intensive applications go down quite dramatically. In addition, we saw up to 3 % system performance increase in Expendable at the lower voltage. It is not completely clear what causes this performance increase but any electronics will run faster and cleaner when they run cooler.
--------------------------------------------------------
^^
is this still the case? i am in jumperless mode with the latest bios 1018. has asus fixed this or do i need to start changing jumpers?
----------------------------------------------------
DDR Voltages
When it comes to running voltages out of spec, hardly any manufacturer has the kind of track record as ASUS. From the P5A to the A7M266, the road has literally been paved with burned DIMMs and the A7V333 threatens to continue this tradition.
The layout of the VDDR jumpers has been carried over from the A7V266-E, that is jumpers JP1 and JP2, only the values have changed. By default, the A7V333 supplies a whopping 2.78-2.85 VDD and VDDQ (DDR core and I/O voltage). The variation accounts for the differences in measurement on several boards. Changing the jumper configuration allows settings between 2.59 and 3.06V. The detailed settings are:
ii 2.59 - 2.63V (same with one or both jumpers removed completely)
i! 2.78 - 2.85V (default setting, out of spec according to JEDEC guidelines)
!i 2.88 - 2.96V
!! 2.95 - 3.06V
The latter two settings are almost guaranteed to destroy the memory modules, maybe not today but after a few weeks. It is not clear what the purpose of the high voltage settings is, however, it is only a matter of time until this will become a liability issue for ASUS, one way or another. Keep in mind that the settings are not documented and the high settings are not meant for "public consumption" by ASUS either.
The interesting thing about these settings is that all current high-end DDR chips are using internal voltage regulators to reduce the core voltage to 1.8V which is necessary to run at high frequency. The only parts of the chips that actually see the increased voltage are input/ output buffers and, granted that those will wiggle a bit faster at higher voltages, the net effect is counteracted by the fact that the internal voltage regulators produce a lot of heat that will overall slow down the chips. In other words, a sensitive approach would be to leave VDD alone but increase VDDQ. Admittlely, there are some older DIMMs that will run at 2.5V internally but those will hardly be used in PC2700 mode of operation which is the only scenario where the massive overvoltage would be of benefit.
The recommendation in this case is, similar as what we suggested for the A7M266: simply take off both JP1 and JP2 to bring the voltages back to where they belong. Side effects are that the failure rate, that is, stuck bits and system crashes in memory-intensive applications go down quite dramatically. In addition, we saw up to 3 % system performance increase in Expendable at the lower voltage. It is not completely clear what causes this performance increase but any electronics will run faster and cleaner when they run cooler.
--------------------------------------------------------
^^
is this still the case? i am in jumperless mode with the latest bios 1018. has asus fixed this or do i need to start changing jumpers?
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