hmmm now that is intersting... with my e6850 i can't get any higher than 560 eather... could it be the board.. i have the newest bios ???Quote:
Originally Posted by Broyler
hmmm now that is intersting... with my e6850 i can't get any higher than 560 eather... could it be the board.. i have the newest bios ???Quote:
Originally Posted by Broyler
Just tried it works for me.Quote:
Originally Posted by cantankerous
Hi, today when finding my min voltage H24, I see in Cpuid hardware monitor that my Vram was @ 2.16V and in bios I set it @ 2.23v. It's under load and idle.
Someone else have seen this bug ?
hmmm, what OS? I'm on Vista X64, perhaps an incompatibility. Or perhaps it is based on bios? I see you are using 9/13. I'm on 12/24.Quote:
Originally Posted by AAdjuster
Same here. Ram vcore drops a bit too much. I remember having to set 2.35v in bios to get a real 2.27-2.3v.Quote:
Originally Posted by ultimeus
Yep. Same here too. 2.23 BIOS = 2.18vDDR idle, and 2.16 load. Seems to be enough for my Ballistix at 5-5-5, even given that drop.
*I was just thinking - isn't there an extra "floppy" 4pin connector for extra stability? I think I remember that only applying to the GPU though...wonder if anything can be done for the vDDR though, hrmph.
as i have read, what you set is what you get!
just the vdimm reports wrong
can some with a multimeter confirm this please?
Are you guys actually measuring the voltage? The boards I have measured scoped out to be almost dead on with what was set in the BIOS even though software reported considerably less.
I'm using vista home premium 32 bit, since the file is supposed to be for windows xp. I decided to use the windows xp compatabilty.Quote:
Originally Posted by cantankerous
Yes I'm using the 9/13 bios.
The only problem I have is trying to use the dos version=chipset not found.
Windows works good.
As far as I know the Reloaded utility will not run on a 64Bit operating system.
Oh dear. I wonder if my Ballistix are ok with the 2.23V I'm putting in them. I remember when I opened up my case right after shut-down that they were considerably warm - probably a touch hotter than my HDs (which are ~ 40C's).Quote:
Originally Posted by karateo
I should probably get a temp gun/laser thing shouldn't it?
I've put 2.23V on my Dominators for 24/7 and no problems whatsoever. They are too GMH microns.
But with no additional cooling (i.e. just using general case flow)? I can't really tell from your sig haha.Quote:
Originally Posted by mad_skills
Just stock Dominators heat fins and couple of 120mm fans added in my case and that's that..:cool:
Sure mate. These are the settings for 4ghz 12hrs prime stable. It needs a bump in vcore from the 3.9ghz prime in that shot there. The 4ghz CPU-Z shot is desktop stable only. Prime fails instantly with that little voltage.Quote:
Originally Posted by Sparda
NOTE -Code:>CPU Feature:
Thermal Management Control.......... - Disabled
PPM(EIST) Mode...................... - Disabled
Limit CPUID MaxVal.................. - Disabled
CIE Function........................ - Disabled
Execute Disable Bit................. - Enabled
Virtualization Technology........... - Enabled
Core Multi-Processing............... - Enabled
>DRAM Timing:
Enhance Data transmitting........... - Fast
Enhance Addressing.................. - Fast
T2 Dispatch......................... - Disabled
>Clock Setting Fine Delay Press Enter:
Ch1 Clock Crossing Setting......... - More Aggressive
DIMM1 Clock Fine Delay............. - Current
DIMM2 Clock Fine Delay............. - Current
Ch1 ControlFine Delay.............. - Current
Ch1 ControlFine Delay.............. - Current
Ch2 Clock Crossing Setting......... - More Aggressive
DIMM3 Clock Fine Delay............. - Current
DIMM4 Clock Fine Delay............. - Current
Ch2 ControlFine Delay.............. - Current
Ch2 ControlFine Delay.............. - Current
Ch1 Ch2 Common Clock Setting....... - More Aggressive
Ch1 RDCAS GNT-Chip Delay........... - Auto
Ch1 WRCAS GNT-Chip Delay........... - Auto
Ch1 Command To CS Delay............ - Auto
Ch2 RDCAS GNT-Chip Delay........... - Auto
Ch2 WRCAS GNT-Chip Delay........... - Auto
Ch2 Command To CS Delay............ - Auto
CAS Latency Time (tCL).............. - 4
RAS# to CAS# Delay (tRCD)........... - 4
RAS# Precharge (tRP)................ - 4
Precharge Delay (tRAS).............. - 15
All Precharge to Act................ - 4
REF to ACT Delay (tRFC)............. - 30
Performance Level................... - 7
>Read delay phase adjust Press Enter:
Channel 1 Phase 0 Pull-In.......... - Enabled
Channel 1 Phase 1 Pull-In.......... - Enabled
Channel 1 Phase 2 Pull-In.......... - Enabled
Channel 1 Phase 3 Pull-In.......... - Enabled
Channel 1 Phase 4 Pull-In.......... - Enabled
Channel 2 Phase 0 Pull-In.......... - Enabled
Channel 2 Phase 1 Pull-In.......... - Auto
Channel 2 Phase 2 Pull-In.......... - Enabled
Channel 2 Phase 3 Pull-In.......... - Enabled
Channel 2 Phase 4 Pull-In.......... - Enabled
MCH ODT Latency..................... - 1
Write to PRE Delay (tWR)............ - 13
Rank Write to Read (tWTR)........... - 11
ACT to ACT Delay (tRRD)............. - 3
Read to Write Delay (tRDWR)......... - 8
Ranks Write to Write (tWRWR)........ - Auto
Ranks Read to Read (tRDRD).......... - Auto
Ranks Write to Read (tWRRD)......... - Auto
Read CAS# Precharge (tRTP).......... - 3
ALL PRE to Refresh.................. - 4
>Voltage Settings:
CPU VID Control..................... - 1.31875v
CPU VID Special Add................. - Auto
DRAM Voltage Control................ - 2.310v
SB 1.05V Voltage.................... - 1.07v
SB Core/CPU PLL Voltage............. - 1.55v
NB Core Voltage..................... - 1.50v
CPU VTT Voltage..................... - 1.31v
Vcore Droop Control................. - Disabled
Clockgen Voltage Control............ - 3.45v
GTL+ Buffers Strength............... - Strong
Host Slew Rate...................... - Weak
GTL REF Voltage Control............. - Enabled
CPU GTL1/3 REF Volt................. - 94
CPU GTL 0/2 REF Volt................ - 96
North Bridge GTL REF Volt........... - 95
Genie BIOS Settings:
Exist Setup Shutdown................ - Mode 2
Exist Shutdown After AC loss........ - Disabled
O.C Clock Fail Retry Counter........ - 0
CLOCK VC0 divider................... - Auto
CPU Clock Ratio Unlock.............. - Enabled
CPU Clock Ratio..................... - 10
Target CPU Clock.................... - 4000MHz
CPU Clock........................... - 400
Boot Up Clock....................... - Auto
DRAM Speed.......................... - 333/800
Target DRAM Speed................... - 960MHz
PCIE Clock.......................... - 100mhz
PCIE Slot Config.................... - 1X 1X
CPU Spread Spectrum................. - Disabled
PCIE Spread Spectrum................ - Disabled
SATA Spread Spectrum................ - Disabled
tWR is set as 13 in bios, but memset reads it as 12
tWTR is set as 11 in bios, but memset reads it as 11
Vdimm is actually 2.26v in windows as read by everest & SG - fair bit of droop there.
NB voltage is acually 1.47v in windwos as read by everest & SG.
You can see my screens for the above in this post -
http://www.xtremesystems.org/forums/...postcount=3623
Your really putting some voltage to those poor OCZ Flex modules (2.31v in BIOS but 2.6v in Windows)? Have you thrown a meter on the board to measure actual VDIMM the modules are seeing?
@MikeMK: bro is it ok to get the VTT upto 1.31 & GTL setting to 90s? isn't the QX9650 a 45nm chip? thanks
whoa 2.23v on D9GMH!:up: i'm even scared to get my GKX on those voltages... man i'm too chicken :p: well my RAMs can go 600Mhz at only 2.19v 5-5-5-5, guess that's ok :)Quote:
Originally Posted by mad_skills
Well, yours are 9600 kit so it would be a suprise if they didn't. :D
I got this 8500 Dominators working as a 9200 kit almost for now on 24/7 basis they are doing ok, really pumping my photoshop rendering..:up:
Will get a 2x1Gb kit of 6400 Ballistix Tracers with GKX in couple of weeks and see how GKX does with UT P35-T2R, Dominators and Team Xtreem showed me that GMH does very well.:cool:
The given processor worked on frequency FSB=580МГц, but under LN2 and on ASUS Maximus. Probably lower temperature will allow to shift FSB wall, and can it is necessary play even with adjustments.... In any case given MB is worthy, as it is capable to hold stably 1.86V on core(!!!) without vmod! :up:Quote:
Originally Posted by Solarfall
I`m too......Excuse has forgotten to tell .....:)Quote:
Originally Posted by Solarfall
Well, the flex are reated at 2.3v according to the specs on OCZ website, so the warranty certainly covers them for that which means OCZ must be comfortable they can handle the voltage!Quote:
Originally Posted by Roger_D25
http://www.ocztechnology.com/product...lexxlc_edition
***EDIT - Just realised i made a bit of a typo on the template - it was meant to read 2.26v not 2.6v!!!! now i understand why you were saying it was too high! lmao****
I set the VTT coming from a Q6600, and didnt realise there was a need for lower VTT levels with 45nm CPU's at the time. Im currently working on reducing it, but obviously it takes time as I have to re-do the GTL's.Quote:
Originally Posted by emoners
DFI T2R Transpiper - NEED SUBSTITUTE COOLING FAST
I just realized that now is the perfect time for me to do this, as I'm taking apart most of my system to upgrade my e6400 to an e8400...
I need to replace the cooling on my DFI T2R motherboard. I have the transpiper version and the transpiper is A PIECE OF JUNK for the design of my case. My PSU cannot cool the transpiper correctly... here are some pix (notice how I had to TILT the transpiper to get air from the neighboring 92mm fan. It's supposed to be lateral and get cooling from the PSU, but as you can see the PSU is way outa the way and impossible to reach):
http://www.ocforums.com/attachment.p...1&d=1200377576
By sitting the transpiper on an angle, the pipe is at an angle in the hole it mounts into. The pipes are NOT perfectly round, but have an oval shape to them. For this reason, the pipe doesn't do much cooling and the entire transpiper design ends up being JUNK for my system.
Here is my temporary fix, the 92mm fan blowing onto the NB chipset:
http://www.ocforums.com/attachment.p...1&d=1200451454
All I need to know is what is my quickest, cheapest fix. If I gotta buy something, I gotta buy it today. Thx for any response.
Are things really overheating? Do you really need to use the transpiper?
Well, how could the transpiper make things WORSE? Basically, I've no idea why but the damn board was overheating like crazy. I have 2x120 Deltas in the front of my Thermaltake Armor case (cooling my Bix2 2x120 rad)... That 92mm fan is needed to cool down the NB chipset, otherwise the entire mobo cooling (SB - NB - MOSFET heatpipe cooling system) will overheat.Quote:
Originally Posted by WoZZeR999