|ALR Advanced Logic Research, Inc. ® PC / PCI||F2|
|ALR PC non / PCI||CTRL+ALT+ESC|
|AMD® (Advanced Micro Devices, Inc.) BIOS||F1|
|AMI (American Megatrends, Inc.) BIOS||DEL|
|DTK® (Datatech Enterprises Co.) BIOS||ESC|
|Acer®||F1, F2, CTRL+ALT+ESC|
|Dell BIOS web site search links||For models not listed below.|
|Dell® 400||F3, F1|
|Dell Dimension®||F2 or DEL|
|Dell Latitude||Fn+F1 (while booted)|
|Dell Latitude||F2 (on boot)|
|eMachine®||DEL , F 2|
|Fujutsu Manuals & BIOS||Manuals & BIOS Download|
|Gateway® 2000 1440||F1|
|Gateway 2000 Solo™||F2|
|HP® (Hewlett-Packard)||F1, F2 (Laptop, ESC)|
|IBM PS/2®||CTRL+ALT+INS after CTRL+ALT+DEL|
|IBM Thinkpad® (newer)||Windows: Programs-Thinkpad CFG.|
|Lenovo(formerly IBM)||Lenovo BIOS Access page|
|Micron®||F1, F2, or DEL|
|Packard Bell®||F1, F2, Del|
|Toshiba® 335 CDS||ESC|
|Toshiba Satellite 205 CDS||F1|
|Toshiba Tecra||ESC then F1 or F2|
|Toshiba Notebook [Newer models]||1. Turn on computer by Holding down power button while pressing the ESC key.
The machine will beep, then display:
Check System, then press [F1] key.
2. Release ESC key
3. Press F1 key
This software/driver pack is unofficial, not supported by Creative Labs
and is provided as is, without any warranties.
Sound Blaster X-Fi series Support Pack 1.0
Supported X-Fi models (except Xtreme Audio, click here for more info):
– Creative SB X-Fi PCI (OEM/Retail Elite Pro, Fatal1ty, Platinum, Platinum Fatal1ty Champion, XtremeGamer, XtremeGamer Fatal1ty Pro, XtremeMusic)
– Creative SB X-Fi OEM SB077x PCI (Hendrix models for Dell, HP, Gateway, Lenovo, Fujitsu-Siemens, Alienware and others)
– Creative SB X-Fi Titanium PCI-E (all Retail/OEM models)
– Auzentech X-Fi Prelude
Operating Systems supported (32-bit and 64-bit editions):
– Windows XP
– Windows Server 2003
– Windows Vista
– Windows Server 2008
– Windows 7 Beta
Items that will be installed, depending on the detected card:
– Creative SB X-Fi series driver 2.18.0001.8
– Creative SB X-Fi Titanium series driver 2.17.0006.8 BETA
– Auzentech X-Fi Prelude driver 2.14.0001 RC8.1
– Creative Audio Control Panel 2.55.12
– Creative Console Launcher 2.60.35
– DDL and DTS Connect License Activation 2.00.03 (*)
– Dolby Digital Live Pack 3.00.00 (*)
– DTS Connect Pack 1.03.00 (*)
– SoundFont Bank Manager 3.20.34
– THX Console 3.00.22
(*) – purchase and activation required, except SB X-Fi Titanium and Auzentech X-Fi Prelude
Windows Security warning during driver installation
When prompted with:
“Windows can’t verify the publisher of this driver software” choose “Install this driver software anyway”.
List of Improvements and fixes
– CMSS works properly on Windows 7 Beta
– THX Console works with Auzentech X-Fi Prelude and other cards
– DTS Interactive encoder available on Windows XP
– All setup scripts were modified to detect Windows 7 Beta.
Windows MIDI Device Configuration Utility
Use this utility to change the MIDI playback device for 32-bit and
64-bit applications, including Windows Media Player.
File size: 84.6 MB
CRC32 hash: 43225D94
MD5 hash: 76CBA45C9DF761FFBC8BD61D17B3D127
SHA-1 hash: 7BB68AF44C83CC65B7FB2EF4414FACEED4ECD015
EVGA x58 with Intel i7 920 Overclocking
Since some of you are just now receiving your boards, I figured now would be a good time for a quick and easy overclocking guide. Make sure to click on any image for a larger version.
Make sure to grab SZ1C BIOS and EVGA E-LEET 1.02.8 first!
Note: Just because these settings work in my case, they may not in all cases depending on the components, it is best to use this as a base or a guide and tweak from there.
Also, this guide will use an Intel 920 as an example, if you have an Intel 965, it will be a different experience since you will have an unlocked multiplier, you will not need to rely on adjusting the QPI frequency.
So lets talk about our goal, our goal is as follows:
Using an Intel 920, overclock to at least 4.2GHz on air.
Run DDR3 memory in Triple Channel at 1600MHz, 9-9-9-24.
Run a QPI frequency of 200MHz or higher.
1. So the first thing we want to do is go into the BIOS, and press “Load Defaults”, save and exit and go back into the BIOS and navigate to “Frequency/Voltage Control”
2. Next we will adjust the following options:
CPU Clock Ratio to 20x.
CPU Host Frequency (AKA QPI/BClock) to 200MHz.
CPU Uncore Frequency to exactly double my memory multiplier, in this case 16x.
This will give me exactly 4GHz (20×200), but we want 4.2GHz or more so keep reading…
3. Next we will go under “Memory Feature” and adjust my memory to it’s specifications. In my case, I am running 1600MHz memory so I will make the following adjustments:
Memory Frequency to 2:8.
Memory timings adjusted properly per memory specifications.
This will give me 1600MHz memory. (200×8)
Set the tRFC Setting to 74
4. Next, and probably most importantly, we will need to adjust the voltages. Under the “Voltage Control” I made the following adjustments, and please note, you may need to tweak this further for better stability, and/or better temps.
EVGA VDroop Control – Without VDroop
CPU VCore – 1.47500V (note, this is just an example)
CPU VTT – +300mV
CPU PLL – Auto
DIMM Voltage – 1.65V
DIMM DQ Vref – +0mV
QPI PLL VCore – 1.400V
IOH VCore – 1.400V
IOH/ICH I/O Voltage 1.650V
ICH VCore – 1.250V
PWM Frequency – 1067 KHz
5. Finally, on the “CPU Feature” page, we will make the following critical changes:
Disable all of the Intel Power saving features.
Enable “Turbo Mode Function” (this will give me a 21x multiplier in some cases!)
Change my QPI Frequency Selection to “4.800 GT/s.
6. Oh yea, we will increase the fanspeeds:
7. Now, in Windows with EVGA E-LEET we are at 4.2GHz! But we’re not done yet!
8. On the memory tab we can see our memory is running at 1600MHz (800×2) Just like we wanted.
9. So now lets push it some more, using EVGA E-LEET, we will go to the overclocking tab, and are going to try increasing the QPI Frequency to 205MHz. This puts me at 4300MHz… still ok…
10. Lets keep going! Up to 215MHz! That is over 4.5GHz on air!
11. Next I will save a validation file in EVGA E-Leet and upload it for bragging rights
VDroop set to disabled allows for higher stability when OC’ing (less voltage droop under load)
VCore would be CPU voltage
VDIMM is memory voltage
VTT is the termination voltage, you need this for higher QPI speeds.
IOH would be northbridge voltage.
ICH would be southbridge voltage.
PWM is the adjustable mosfet frequency. (higher is cleaner power, but runs hotter)