much obliged, praz
put a 6750 in and booted fine, only with 1 stick o f ram tho
but after an update took the 8500 n the second ram.
a happy bunny here
a lesson 4 the future - buying a wolfdale for the t2r - have an older processor handy.
cheers guys
much obliged, praz
put a 6750 in and booted fine, only with 1 stick o f ram tho
but after an update took the 8500 n the second ram.
a happy bunny here
a lesson 4 the future - buying a wolfdale for the t2r - have an older processor handy.
cheers guys
That should be the case with every upgrade, not only with this one. You should always have some sort of a backup..it would be unwise not to.Originally Posted by toosas
I have removed heatpipe assembly as I am going to water cooling, and have a question
I have replaced the OEM heat pipe assembly on my motherboard with a Enzotech Sapphire SLI water cooled NB block and an Enzotech SLF-1 solid copper SB heatsink with fan. I have also modified a Thermalright HR-09 U MOSFET Cooler to mount over where the factory had an aluminum block (I believe this is the PWM area). I cut out the thermal tape as per Praz's suggestion in another post, and then used Arctic Cooling MX-2 thermal paste on the raised components, before mounting the MOSFET cooler to the motherboard through the OEM holes in motherboard.
Also note, those two long chips that were inset on the MB from the aluminum block are being cooled with Swiftech MC 14 copper ram sinks, so that should help. Also, I have two 120 mm Yate Loon Fans directing cool air in from the top of my case (across MOSFET cooler, CPU and NB water blocks, and memory slots), and a 120 mm Scythe SFlex SFF21E fan exhausting air just above where the MOSFET cooler and exposed resistors are located.
I believe this setup will cool very well, but there were a couple small items that were under the OEM aluminum block that are no longer covered. I believe they are resistors, but am not certain. My question is this, do I need a heat sink over the couple of resistors which are now open to the air (used to be covered by the aluminum block on top left corner of MB), or will my current air cooling suffice?
Silverstone Temjin T09BW Case|Thermaltake Toughpower 1200 W Modular PSU|DFI Lanparty LT X38-TR2 Motherboard|Intel Q6600 G0 Batch #L737B075 Quad Core Processor @3870 MHz 8 hr Prime95 stable|D-Tek Fuzion Waterblock with Quad Nozzle|Enzotech SNBW-SLI Northbridge Waterblock|Enzotech SLF-1 SB HS/Fan assembly|Swiftech MCP655 Pump (set on 5)|Swiftech MCRES-Micro Reservoir|Thermochill PA120.2 Radiator w/2 Scythe Minebea 41 cfm 120 mm fans|Masterkleer 7/16" I.D. Tubing|Corsair Dominator PC-10000 DDR2 Memory (2 x 1 GB) with Dominator Fan| ATI HD2900XT 512 MB Video Card| 2 Seagate 7200.10 250 GB 7200 rpm Hard Drives| Samsung SH-S203B DVD Drive
i dont know if this has been covered or not , but this thread is way to long for me to check.
just wanted to know if the X38-T2R has any issues with crucial ballistix 1066 ? its not listed as compatible ram on there site .im about to order this board tonight.
thanks adya
do you mean the UT-P35 T2R?
I ran my Ballistix 8500's at 600mhz 5-5-5-15 with 2.1v for months no problems.
Could you show us a picture of this? I am curious to see what Praz was talking about.
thanks
no i just bought a LT X38-T2R on dfi's website it mentions compatible ram and crucials aint in the list . iknow some boards have issues with crucial ballistix so i am abit worried about wether it runs crucials ddr21066 with no issues.do you mean the UT-P35 T2R?
I ran my Ballistix 8500's at 600mhz 5-5-5-15 with 2.1v for months no problems.
edit* hahah soz i didnt relize i was on the wrong thread . thought i read x38t2r ill post somewhere else b4 i get into trouble.
Last edited by adya; 02-25-2008 at 04:25 AM. Reason: error
Fair enough, but you should be asking that in the DFI X38 thread
Edit: hehe NP mate
I dunno, Crucial isn't on the P35 list either. I wouldn't worry about it.
>> i5 750 @ 3.6Ghz | CM212Plus + P12 | P55-UD3R [BIOS F2] | 4GB G.Skill CL8 | Zotac GTX 580
.: 4 x 1TB WD | Corsair TX750 | Lian Li PC-A70A | X-Fi | Logitech Z-2300
I second that, would love to see some pictures of the cooling mods you have done!Could you show us a picture of this? I am curious to see what Praz was talking about.
thanks
Asus Maximus III Formula (2001)
Intel i7 860 (L924B516)
Noctua D14
Corsairs CMG4GX3M2A2000C2 (2 x 2GB) RAM
eVGA GTX480
DD-H20
BIX GTX360
MCP35X PWM
Creative X-Fi Titanium PCI-e
LG GGC-H20L Blu-Ray
Toughpower 850w Modular
GSkill Phoenix Pro SSD 120GB
HEAT
How lame is the sticker on the NB saying void if removed. Ugh
MB Reviewer for HWC
Team OCX Bench Team
I have my Q6600 running at 24/7 voltages at 3.9, and I noticed a high pitch whine from the board, probably the PWMS. I stuck some ram sinks on the chips infront of the PWM heatsink, and I am ordering a 40mm fan for the PWM HS, but is there any way to get rid of the whine (other than lowering the speed)?
On a side note, it seems that a single MCR320 isn't enough for my system anymore. Time to add more radiators to my small P182
D-Tek Fuzion quad nozzle & MCW30
8800GTS 512 @820/999/1998 with a MCW60
2xMCP655b
1xMCR320 and 1xMCR120 with 4x Yate Loon SH's
2x Raptor X
I'd like some pics as well. BTW kberguy I wouldn't worry about the exposed resistors. As long as your air cooling isn't craptastic, they should be fine.Could you show us a picture of this? I am curious to see what Praz was talking about.
thanks
And yeah, that NB sticker... laaaaaaame
I think you'll be fine there. If i remember correctly the stock heatsink only made contact with the PWM anyway.I believe this setup will cool very well, but there were a couple small items that were under the OEM aluminum block that are no longer covered. I believe they are resistors, but am not certain. My question is this, do I need a heat sink over the couple of resistors which are now open to the air (used to be covered by the aluminum block on top left corner of MB), or will my current air cooling suffice?
i5 2500K @ 4.7ghz 1.32v(+.010 offset LLC set to 4) / ASRock P67 Extreme4 (B3) / 2x4gb Samsung Green MV-3V4G3D @ 1866mhz 1.35v / AMD HD 6850 1gb /2x150gb Velociraptor Raid 0 + 500gb WD Green / Corsair TX 750watt V2
What do you mean Crucial is not on the LP P35 list?
Hey guys I am having trouble getting my e8400 over 4.1 ghz stable. I have vcore set to 1.37 in bios, and I am a little worried about going higher.
Temps through coretemp register at about 67c @load.
Any ideas?
Thanks guys
Do you have the latest beta bios and have you played with the GTL settings in the bios?
http://us.dfi.com.tw/Product/xx_prod...RODUCT_ID=5497What do you mean Crucial is not on the LP P35 list?
Seems outdated and incomplete...oh well.
>> i5 750 @ 3.6Ghz | CM212Plus + P12 | P55-UD3R [BIOS F2] | 4GB G.Skill CL8 | Zotac GTX 580
.: 4 x 1TB WD | Corsair TX750 | Lian Li PC-A70A | X-Fi | Logitech Z-2300
Yes, i've looked it myself now, cheers.
I have bios 2/14 and I have the GTL's set at 60 each, really don't know where to go from there.
What's your VTT voltage and your's cpu vid?
FPO/batch # & pack date?
some Wolfies can't even get 4ghz at 1.4v stable in ANY board... it depends on the chip you have
guys what's the difference between these?
• Intel ICH9R chip (SATA 1-6)
- SATA speed up to 3Gb/s
- RAID 0, RAID 1, RAID 0+1 and RAID 5
• JMicron JMB363 (SATA 7-8)
- SATA speed up to 3Gb/s
- RAID 0 and RAID 1
coz i was thinking of adding more hard drives (no RAID in mind atm)..
& which slot is best for optical drives?
Thanks
E8400 02/14 BIOS
266/667 Strap/Divider
2x1GB OCZ PC2 9200 Reaper
XFX8800 GTX
C1E and VDROOP enabled. VCORE was set using VID Special Add leaving VID Control on Auto. Adjusting VCORE this way allows the voltage to decrease along with frequency while idle. Measured voltage at idle - 1.276.
Measured under load - 1.330. Frequency at idle - 2670MHz. Frequency under load - 4005MHz.
Code:CPU Feature Page Thermal Management Control................Enabled PPM (EIST) Mode...........................Enabled Limit CPUID MaxVal........................Disabled CIE Function..............................Auto Execute Disable Bit.......................Enabled Virtualization Technology.................Enabled Core Multi-Processing.....................Enabled Main BIOS Page Exist Setup Shutdown......................Mode 2 Shutdown After AC Loss....................Disabled O. C. Fail Retry Counter..................0 CLOCK VC0 Divider.........................Auto CPU Clock Ratio...........................9x CPU Clock.................................445 MHz Boot Up Clock.............................Auto DRAM Speed................................266/667 PCIE Clock................................100MHz PCIE Slot Config..........................1X 1X CPU Spread Spectrum.......................Disabled PCIE Spread Spectrum......................Disabled SATA Spread Spectrum......................Disabled Voltage Setting Page CPU VID Control...........................Auto CPU VID Special Add.......................110.86% DRAM Voltage Control......................2.15V SB 1.05V Voltage..........................1.070V SB Core/CPU PLL Voltage...................1.55V NB Core Voltage...........................1.50V CPU VTT Voltage...........................1.10V VCore Droop Control.......................Enabled Clockgen Voltage Control..................3.45V GTL+ Buffers Strength.....................Strong Host Slew Rate............................Weak GTL REF Voltage Control...................Disabled CPU GTL1/3 REF Volt.......................N/A CPU GTL 0/2 REF Volt......................N/A North Bridge GTL REF Volt ................N/A DRAM Timing Page Enhance Data Transmitting.................Fast Enhance Addressing........................Fast T2 Dispatch...............................Auto Clock Setting Fine Delay..................Listed Below CAS Latency Time (tCL)....................5 RAS# to CAS# Delay (tRCD).................5 RAS# Precharge (tRP)......................5 Precharge Delay (tRAS)....................15 All Precharge to Act......................4 REF to ACT Delay (tRFC)...................28 Performance Level.........................7 Read Delay Phase Adjust...................Listed Below MCH ODT Latency...........................3 Write to PRE Delay (tWR)..................14 Rank Write to Read (tWTR).................11 ACT to ACT Delay (tRRD)...................3 Read to Write Delay (tRDWR)...............8 Ranks Write to Write (tWRWR)..............4 Ranks Read to Read (tRDRD)................5 Ranks Write to Read (tWRRD)...............4 Read CAS# Precharge (tRTP)................3 ALL PRE to Refresh........................4 Read Delay Phase Adjust Page Channel 1 Phase 0 Pull-In.................Enabled Channel 1 Phase 1 Pull-In.................Auto Channel 1 Phase 2 Pull-In.................Auto Channel 1 Phase 3 Pull-In.................Auto Channel 1 Phase 4 Pull-In.................Auto Channel 2 Phase 0 Pull-In.................Auto Channel 2 Phase 1 Pull-In.................Auto Channel 2 Phase 2 Pull-In.................Auto Channel 2 Phase 3 Pull-In.................Auto Channel 2 Phase 4 Pull-In.................Auto Clock Setting Fine Delay Page Ch1 Clock Crossing Setting................More Aggressive DIMM 1 Clock fine delay...................Current 1424s DIMM 2 Clock fine delay...................Current 574ps Ch 1 Command fine delay...................Current 974ps CH 1 Control fine delay...................Current 512ps Ch2 Clock Crossing Setting................More Aggressive DIMM 3 Clock fine delay...................Current 1300ps DIMM 4 Clock fine delay...................Current 486ps Ch 2 Command fine delay...................Current 1024ps CH 2 Control fine delay...................Current 400ps Ch1Ch2 CommonClock 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
Last edited by Praz; 02-26-2008 at 08:47 AM.
E8400 02/14 BIOS
333/800 Strap/Divider
2x1GB OCZ PC2 9200 Reaper
XFX8800 GTX
C1E and VDROOP enabled. VCORE was set using VID Special Add leaving VID Control on Auto. Adjusting VCORE this way allows the voltage to decrease along with frequency while idle. Measured voltage at idle - 1.276. Measured under load - 1.330. Frequency at idle - 2670MHz. Frequency under load - 4005MHz. NB voltage can be reduced to stock if tRD is set to a straight 7 (no phases pulled in).
Code:CPU Feature Page Thermal Management Control................Enabled PPM (EIST) Mode...........................Enabled Limit CPUID MaxVal........................Disabled CIE Function..............................Auto Execute Disable Bit.......................Enabled Virtualization Technology.................Enabled Core Multi-Processing.....................Enabled Main BIOS Page Exist Setup Shutdown......................Mode 2 Shutdown After AC Loss....................Disabled O. C. Fail Retry Counter..................0 CLOCK VC0 Divider.........................Auto CPU Clock Ratio...........................9x CPU Clock.................................445 MHz Boot Up Clock.............................Auto DRAM Speed................................333/800 PCIE Clock................................100MHz PCIE Slot Config..........................1X 1X CPU Spread Spectrum.......................Disabled PCIE Spread Spectrum......................Disabled SATA Spread Spectrum......................Disabled Voltage Setting Page CPU VID Control...........................Auto CPU VID Special Add.......................110.86% DRAM Voltage Control......................2.10V SB 1.05V Voltage..........................1.070V SB Core/CPU PLL Voltage...................1.55V NB Core Voltage...........................1.41V CPU VTT Voltage...........................1.10V VCore Droop Control.......................Enabled Clockgen Voltage Control..................3.45V GTL+ Buffers Strength.....................Strong Host Slew Rate............................Weak GTL REF Voltage Control...................Disabled CPU GTL1/3 REF Volt.......................N/A CPU GTL 0/2 REF Volt......................N/A North Bridge GTL REF Volt ................N/A DRAM Timing Page Enhance Data Transmitting.................Fast Enhance Addressing........................Fast T2 Dispatch...............................Auto Clock Setting Fine Delay..................Listed Below CAS Latency Time (tCL)....................5 RAS# to CAS# Delay (tRCD).................5 RAS# Precharge (tRP)......................5 Precharge Delay (tRAS)....................15 All Precharge to Act......................5 REF to ACT Delay (tRFC)...................28 Performance Level.........................7 Read Delay Phase Adjust...................Listed Below MCH ODT Latency...........................3 Write to PRE Delay (tWR)..................14 Rank Write to Read (tWTR).................11 ACT to ACT Delay (tRRD)...................3 Read to Write Delay (tRDWR)...............8 Ranks Write to Write (tWRWR)..............4 Ranks Read to Read (tRDRD)................5 Ranks Write to Read (tWRRD)...............4 Read CAS# Precharge (tRTP)................3 ALL PRE to Refresh........................5 Read Delay Phase Adjust Page Channel 1 Phase 0 Pull-In.................Enabled Channel 1 Phase 1 Pull-In.................Auto 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.................Auto Channel 2 Phase 3 Pull-In.................Enabled Channel 2 Phase 4 Pull-In.................Enabled Clock Setting Fine Delay Page Ch1 Clock Crossing Setting................More Aggressive DIMM 1 Clock fine delay...................Current 156ps DIMM 2 Clock fine delay...................Current 556ps Ch 1 Command fine delay...................Current 868ps CH 1 Control fine delay...................Current 623ps Ch2 Clock Crossing Setting................More Aggressive DIMM 3 Clock fine delay...................Current 156ps DIMM 4 Clock fine delay...................Current 623ps Ch 2 Command fine delay...................Current 868ps CH 2 Control fine delay...................Current 556ps Ch1Ch2 CommonClock 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
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