New official bios 1.8 for neo2 platinum
there is a new bios with version 1.8 for msi neo2 platinum available.
link:
http://www.msi.com.tw/program/support/bios/bos/spt_bos_detail.php?UID=607&kind=1
-BIOS reported incorrect CPU temperature
Quote from: RebelsHaven on 07-July-05, 21:37:17
You are flashing this BIOS at your own risk!
Yes an announcement to all IDIOTS, it is at your own risk so don't bother sueing MSI like someone did already as our forum was almost closed down thanks to their ignorance...
Thanks for posting the link BTW, might take a look...
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New official Bios 1.6 for 875p
MSI launched a new Bios Version 1.6 on the Bios-Uprade-page.
Now it supports MAT
http://download.msi.com.tw/support/bos_exe/6758v16.exe
lhmkMAT is abit useless here as 875 chipset has PAT installed
I read other ppl say that MAT cause their system to become not stable -
New beta bios 1.52 ? P965 Platinum
Hi.
I heard there was a new bios beta update for P965 Platinum. Is that right ?
Version 1.52 it should be.
ThxQuote from: cobayo on 28-April-07, 21:46:42
please,
share any link, to this version or the 1.5.1b
thanks
MSI P965 Platinum A7238IMS V1.5B1--->https://forum-en.msi.com/index.php?topic=105321.msg791548#msg791548
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BIOS 1.3 for NEO2 compatible with NEO ?
Is the v1.3 bios of the 865PE-neo2-S compatible with the 865P/865PE-NEO mobo ?
coz it says in the bios page
BIOS Type AMI® BIOS File Size 414KB
Version 1.3 Update date 2003-6-26
Update Description - Add MAT support for all 865PE version .
- Fixed Maxtor S-ATA HDD sometimes will hang during HDD detection.
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Special note ,
Download 6728v13.exe
do u think i could flash my 865P-Neo (MS-6742) with this ? thanks !Hi xzrzx,
I sorry but have to say that this NEO2PE BIOS is not for you 865P model as your mobo is only support the lower processors version with only 400/533MHz northbridge support, whereas the PE(s) have support for 400MHz(Northwood)/533/800MHz CPUs.
Stick to MSI mainboard page of your mobo's model BIOS
All the Best... :D!!! -
Worried (Need advice on psus) for Neo2 Platinum and other bits
Hi there again,i have this psu which is unused and is still boxed
Antec TruePower550 uk version
http://www.antec.com/uk/support_pro...p?ProdID=07551#
i plan to use in this system the following:
2x Vantec TD9238H Tornado 92mm fans
BFG 6800 Ultra OC (agp)
Athlon 64 4000+ (E4 version)
Ricoh mp51225a dvdrom /dvd burner
2x 1gb ddr400 (unshure of which brand yet)
1 floopy drive
some kind of Creative labs pci sound card(dunno yet)
80GB SeaGate drive ide
Neo2 Platinum mobo
Atx case (unshure yet)
im sorry if im asking lots of qestions as im a complete newbie at building anything and this will be my first built system from scratch, will my current psu be ok or will i need something better, if so could anybody advice me please on diffrent psu please
Many thanks Blackrat7768Hi,
Since your link does not work, don´t know which model you are referring to, but either way both models should do the job nicely for you.
Truepower version 1 ( ATX 1.3 - 30amp single 12v rail with 20pin powerconnector )
http://www.antec.com/us/productDetails.php?ProdID=20550
Truepower version 2 ( ATX 2.x - 19+19amps dual 12v rails with 24/20 pin powerconnector )
http://www.antec.com/uk/productDetails.php?ProdID=17551
High power case-fans, usually are best to connect directly to a PSU 4-pin molex and not to the MoBo 3-pin connectors, which sometimes could overload the motherboard electrical circuit and give bootproblems or worse. -
What is new in BIOS v3.0 for Portege R830, R840 and R850 series
Hi
Toshiba released updated BIOS version 3.00-WIn on the 11/08/2011.
Has anybody installed this and/or know what it covers?
I hesitate to install without knowing what may be altered.
Many thanks for any comments.Hi
As far as I know Toshiba European driver page does not provide details what has been changed in the new BIOS versions. But I found the Toshiba US driver page and there you can find all the details about the BIOS changes.
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Cant enter bios setup on K8N NEO2 Platinum
I have just finished building new box, loading XP, all my core programs , used live bios to update to 1.b and left for 3 days to burn cpu in (using folding program, stable and no heat problems encountered), now i cant enter bios setup , when i hit del to enter bios setup, i get a flashing cursor top left of a black screen and it just hangs there, no key commands work and it requires a reboot , all programs and bench tests are working correctly, i just cant get into bios to start tweaking. Any ideas or solutions would be appreciated.
here you go:
https://forum-en.msi.com/index.php?topic=88211.msg632728#msg632728 -
975X PUE new official BIOS 7.2
New BIOS is out on MSI site:
http://us1.msi.com.tw/support/bos_exe/mbd_bios/7246v72.zip
MSI says release date 09-21-2006 ???9-21-2006 and takes weeks to validate it make sure it didn't break anything.
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New official bios v7.6 is out
Anyone has tried it ??
Quote from: papubhai on 15-September-07, 23:18:09
frnd look at my specs it is the most approprirate ram for overclocking i m getting 450 stable with this ram on this mobo frnd bios is a bit buggy it is a fact
On a previous thread you also stated you had restart issues and I mentioned your slow memory, which you did not respond:
https://forum-en.msi.com/index.php?topic=99818.msg820072#msg820072
Then you stated you fixed the problem two posts later:
https://forum-en.msi.com/index.php?topic=99818.msg820419#msg820419
That same thread was locked due to people constantly complaining about poor BIOS support. Your problem is poor hardware. Buy better faster memory, list your PSU specs in your sig, and stop complaining about the BIOS before this thread is locked as well.
FYI: My E6300 is at 2806MHz with my 800MHz memory running at 800MHz and I do not have any restart, shutdown, resume from suspend or any other issues. -
Anyone have definitive config for Neo2 Platinum and Speedfan
I've read almost equivalent posting indicating different info for Temp 1, 2, and 3.
I've got Temp 1 = NB, Temp 2 = CPU, Temp 3 = System.
based on my readings (NB = 14C, CPU = 38C, and System = 34C) the above makes sense. But many people say Temp 3 is the CPU. I can't believe my CPU would be cooler then my system temp, although, I guess it depends on where that temp is read from?
Can anyone confirm 100%?
What about Fans 1, 2, and 3? How do those corrolate to CPU, NB, and SYSFAN and SYSFAN2 on the mobo?
I also have a "Temp" that reads constant -1 C and shows as part of nForce2 SMBUS. What's that?
ALso with the fans, Fan 4 and 5 showing as part of nForce2 SMBUS with no readings. What's with those?Quote
Originally posted by syar2003
16C heh .. means that speedfan does do the readout correctly.
It's just not possible with air cooling that something is lower than ambient temperature. (mine is 30C with a self mounted small fan on the chipset running at 4300rpm , this is about 5C over ambient temperature)
corecentre reads theese two sensors data right .
So does MBM5 5.3.7.0 is setup with wizard and right motherboard chosen.
Make sure that speedfan is setup to monitor :
Sensor Type - Winbond W83627THF (through ISA 290h)
Sensors winbond1 , winbond2-diode
Edit : From your first post :
CPU = 38C, and System = 34C
This is the two real connected sensors , the other with 14/16C is just a bogus reading.
Your last comment, that doesn't make sense with your other posts, because the temp sensors giving me the 34/38 readings are 2 and 3. Well you say only #1/#2 are tied to Winbond with 1=NB and 2=CPU. Well how is it that #1 is giving me bogus readings in Smartfan then?
I looked at the config for the Winbond, sensor 1 = thermistor diode, 2 = PII diode, and 3 = thermistor diode. THis is the defaults it came up with. Is this incorrect? If I change these settings at all I get some 110+ readings. -
K8n neo2 platinum backpanel ports
hi
i would like to buy and MSI motherboards and i look for neo2 platinum
does anyone knows if the k8n neo2 platinum have PS/2 mouse and PS/2 keyboards?
I made this question because isn't specified in the msi K8n neo 2 platinum page
and i really need this features
http://www.msi.com.tw/program/products/mainboard/mbd/pro_mbd_detail.php?UID=607
in the other 2 neo2-F/-FX 939 boards is specified
http://www.msi.com.tw/program/products/mainboard/mbd/pro_mbd_detail.php?UID=650
thanks in advance for the answer
alessandro -
When is going to be released official new bios for k9a platinum
Hi,
as I write in topic, when is going to be released new bios for k9a platinum?
thanksThat is a Kuma CPU and as such it is not and probably will not be supprted on your older MB.
Here is a list of MBs that support 7550 Kuma, 7750 it appears like is too new to be on any MSI MB CPU support list yet however it it should be supported on them as well.
K9A2 CF, K9AGM3-F, K9A2 Neo-F
K9N2GM-F V2, K9N2 SLI Platinum / K9N2 Zilent, K9N2G Neo
K9A2GM V3, KA790GX, KA780G-M
KA790GX-M, KA780GM-M, KA780GM
K9A Platinum >> CPU support << list -
Wich bios driver for 915P neo2 platinum-54g
915P neo2 platinum-54g m-board
P4 630 3,0GHZ cpu
2*512M Kingston 533MHz DDR2
Club3d 128MB Radeon x300se hypermem PCI-E
not sure of the power, but think it's 300w, 20-pin connector. (waiting a new power on monday, 400w ultra-low noise)
Sound Blaster Live! Platinum
So I read from the MSI site that the 915p neo2 platinum doesnt support p4 630, but the cpu support list says it does after the bios update..
But now Im not sure wich bios driver to use cause I cant find the exact model from the site.
I use that comp as a music studio comp and I get a crash in about half an hour the comp is on.. (using cubase program)
At first the crash appeared at cubase startup, but after I updated the g-card & s-card drivers the crash was post-poned to that half an hour..
But still, when I try the Core Center programs Auto overclocking test it crashes almost straight away.. Once I got from 200MHz to 205 MHz
Other times it crashed straight away..
So I think myself that the bios driver is the key, but Im not sure of it.
Or wich driver to use.. the 915P Neo2 Platinum (7028v18) or 915P Neo2 Platinum v1.0b (7028v36)Quote from: ant3202 on 07-November-05, 08:00:33
use MSI life update to update your BIOS, to minimise to kill your mobo.
its not connected to the internet and I dont want to connect it cause its for music only... -
K8N Neo2 Platinum 939 -new bios
Hey,
I wonder if there is any newer bios then the one on the homepage (msi) some beti bios or so for the K8N Neo2 Platinum 939 mobo ? If so please post link as well, thanx!There is a beta bios floating around here 1.25 i think, i tried it but Cpuz didnt work properly afterwards
-
I have been fed up with the misread of MBM5 with Neo2 since i made the switch from Neo1
Fixed :
vcore fixed calibration
+3.3v fixed (showed to low level)
+5v calibrated
+12v fixed ( showed to high level)
New section to select Neo2 Platinum as the voltage configuration .
Here's the whole voltage.ini file in the code box .
Just save the previous one as voltage.ini.bak and paste this in a new file , restart MBM .
Code: [Select]
/* Voltage file for MBM */
/* Dated: 18-Jun-2004 08:41:37 */
/* [name] = sensorchip name -exactly- as in chipinfo.ini */
/* VT = number of voltage configurations start at 0 */
/* Vx = where x is voltage config number */
/* this holds the name of voltage config */
/* VxVy = where x is the voltage config number */
/* where y is the voltage number default this is */
/* 1 core 0 */
/* 2 core 1 or 1.5 or 2.5 */
/* 3 3.3 */
/* 4 5 */
/* 5 12 */
/* 6 -12 */
/* 7 -5 */
/* this holds the register and calculation for */
/* the voltage in question */
/* As of MBM 5.3.0.0 you can use a total of 16 */
/* calculation, if for example you want sensor */
/* to show a voltage that MBM does not show */
/* right now then add an 8th line, place your */
/* code in there and set MBM voltage sensor 8 */
/* to MBM Fixed */
/* 255 = should always be used if a voltage is not */
/* supported by this voltage config selection */
/* $xx = a register from the sensor chip, any $xx */
/* value in the string will be replaced with */
/* the value from that register of the sensor */
/* chip */
/* B = option to use bank switch on ISA based */
/* sensor chips, always use at end and always */
/* followed by a bank number in hexadecimal */
/* | = needed on dual sensor chips, always use it, */
/* followed by 0 or 1 for the 1st or 2nd sensor */
/* chip found */
/* - = a calculation with a negative number is only */
/* possible if that number is between ( ) */
/* example: $12*(-0.4) will work */
/* $12*-0.4 will NOT work */
/* // = remarks, don't use anything else */
/* . = in ALL calculation use a dot as the decimal */
/* symbol, even if it's not your normal decimal */
/* symbol. */
/* if you feel you have a new voltage configuration for */
/* your board then feel free to send it to support at */
/* [email protected] */
[None]
VT=0
V0=None
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[National LM78]
VT=2
V0=LM78 Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=$25*(-0.016)*3.47
V0V7=$26*(-0.016)*1.5
V1=LM78 Epox
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*4
V1V6=$25*(-0.016)*4
V1V7=$26*(-0.016)*1.666
V2=LM78 Tekram
V2V1=$20*0.016
V2V2=$21*0.016
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016*3.8
V2V6=$25*(-0.016)*3.94
V2V7=$26*(-0.016)*1.5
[National LM78j]
VT=2
V0=LM78j Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=$25*(-0.016)*3.47
V0V7=$26*(-0.016)*1.5
V1=LM78j Epox
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*4
V1V6=$25*(-0.016)*4
V1V7=$26*(-0.016)*1.666
V2=LM78j Tekram
V2V1=$20*0.016
V2V2=$21*0.016
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016*3.8
V2V6=$25*(-0.016)*3.94
V2V7=$26*(-0.016)*1.5
[National LM79]
VT=2
V0=LM79 Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=$25*(-0.016)*3.47
V0V7=$26*(-0.016)*1.5
V1=LM79 Epox
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*4
V1V6=$25*(-0.016)*4
V1V7=$26*(-0.016)*1.666
V2=LM79 Tekram
V2V1=$20*0.016
V2V2=$21*0.016
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016*3.8
V2V6=$25*(-0.016)*3.94
V2V7=$26*(-0.016)*1.5
[Winbond W83781D]
VT=0
V0=W83781D Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=$25*(-0.016)*3.47
V0V7=$26*(-0.016)*1.5
[Winbond W83782D]
VT=1
V0=W83782D Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=(($25*0.016)-3.6)*5.14+3.6
V0V7=(($26*0.016)-3.6)*3.14+3.6
V1=W83782D Abit BP6
V1V1=$20*0.016
V1V2=$21*0.016B$05
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*3.8
V1V6=(($25*0.016)-3.6)*5.14+3.6
V1V7=(($26*0.016)-3.6)*3.14+3.6
[Winbond W83783S]
VT=3
V0=W83783S Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=(($25*0.016)-3.6)*5.14+3.6
V0V7=255
V1=W83783S Soyo 7IZB+
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*3.8
V1V6=(($25*0.016)-3.6)*5.14+3.6
V1V7=(($26*0.016)-3.6)*3.14+3.6
V2=W83783S K7NCR18D/G
V2V1=$20*0.016
V2V2=$21*0.016
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016
V2V6=$25*0.016
V2v7=255
V3=W83783S Tekram P6BX-A
V3V1=$20*0.016
V3V2=$21*0.016
V3V3=$22*0.016
V3V4=$23*0.016*1.68
V3V5=$24*0.016*3.8
V3V6=(($25*0.016)-3.6)*5.14+3.6
V3V7=(($26*0.016)-3.6)*3.14+3.6
[Genesys Logic GL518SM]
VT=0
V0=GL518SM Standard
V0V1=($0D+2) * (2.38/128)
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[Genesys Logic GL520SM]
VT=0
V0=GL520SM Standard
V0V1=($0D-0.18) * (2.43/128)
V0V2=($14-0.18) * (2.43/128)
V0V3=($15+3) * 2.5 * (2.43/256)
V0V4=($13-0.18) * (2.43/128)*4.191489
V0V5=255
V0V6=255
V0V7=255
[Analog Devices ADM9240]
VT=0
V0=ADM9240 Standard
V0V1=$21*0.014
V0V2=$25*0.014
V0V3=$22*0.0172
V0V4=$23*0.026
V0V5=$24*0.062
V0V6=((($25*0.014)-(5+(5-($23*0.026)))) * 2.879-(5+(5-($23*0.026))))
V0V7=255
[National LM80]
VT=2
V0=LM80 Standard 1
V0V1=$25*0.01392
V0V2=255
V0V3=$21*0.016431
V0V4=$23*0.025050
V0V5=$24*0.06
V0V6=$23*0.105476 - $20*0.052105
V0V7=255
V1=LM80 QDI BrillianX IS
V1V1=$23*0.014736842
V1V2=255
V1V3=$22*0.017366666
V1V4=$20*0.02632653
V1V5=$24*0.063156146
V1V6=$25*(-0.064432432)
V1V7=$26*(-0.027526881)
V2=LM80 QDI BrillianX I
V2V1=$23*0.014736842
V2V2=255
V2V3=$22*0.017366666
V2V4=$20*0.02632653
V2V5=$24*0.063156146
V2V6=$25*(-0.070114942)
V2V7=$26*(-0.027526881)
[Winbond W83627HF]
VT=11
V0=W83627HF Standard 1
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=(($25*0.016)-3.6)*5.14+3.6
V0V7=(($26*0.016)-3.6)*3.14+3.6
V1=W83627HF Standard 2
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*3.8
V1V6=(($25*0.016)-3.6)*5.14+3.6
V1V7=255
V2=W83627HF Standard 3
V2V1=$20*0.016
V2V2=$21*0.016
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016*3.8
V2V6=$25*(-0.016)*3.47
V2V7=$26*(-0.016)*1.5
V3=W83627HF Standard 4
V3V1=$20*0.016
V3V2=$21*0.016
V3V3=$22*0.016
V3V4=$23*0.016*1.68
V3V5=$24*0.016*3.8
V3V6=$25*(-0.016)
V3V7=$26*(-0.016)*1.5
V4=W83627HF Standard 5
V4V1=$20*0.016
V4V2=$21*0.016
V4V3=$22*0.016
V4V4=$23*0.016*1.68
V4V5=$24*0.016*3.8
V4V6=$25*0.016
V4V7=$26*0.016
V5=W83627HF Abit BE7/ KX7
V5V1=$20*0.016 // core
V5V2=$21*0.016 // ddr
V5V3=$22*0.016 // 3.3
V5V4=$23*0.016*1.68 // 5
V5V5=$24*0.016*3.8 // 12
V5V6=$25*0.016 // vtt
V5V7=$26*0.016 // vddq
V5V8=$51*0.016B5 // vbat
V5V9=$50*0.016*1.515B5 // 5vsb
V6=W83627HF Abit NF7
V6V1=$20*0.016 // CPU
V6V2=$21*0.016 // DDR
V6V3=$22*0.016 // +3.3V
V6V4=$23*0.016*1.68 // +5V
V6V5=$24*0.016*3.8 // +12V
V6V6=(($25*0.016)-3.6)*5.14+3.6 // -12V
V6V7=(($26*0.016)-3.6)*3.14+3.6 // -5V
V6V8=$50*0.016*1.515B5 // +5V Stand By
V6V9=$51*0.016B5 // +3.3V Dual
V7=W83627HF EPoX 8RDA3+
V7V1=$20*0.016 // MB (Vdd)
V7V2=$21*0.016 // CPU
V7V3=$22*0.016 // RAM
V7V4=$23*0.016*1.68 // +5V
V7V5=$24*0.016*3.8 // +12V
V7V6=$25*0.016 // AGP
V7V7=(($26*0.016)-3.6)*3.14+3.6 // -5V
V7V8=$50*0.016*1.515B5 // +5V Stand By
V7V9=$51*0.016B5 // +3.3V Dual
V8=Abit IC7/IC7-G
V8V1=$20*0.016 // core
V8V2=$21*0.016 // ddr
V8V3=$22*0.016 // 3.3
V8V4=$23*0.016*1.68 // 5
V8V5=$24*0.016*3.8 // 12
V8V6=$25*0.016 // vtt
V8V7=$26*0.016 // vddq
V8V8=$51*0.016B5 // vbat
V8V9=$50*0.016*1.515B5 // 5vsb
V9=W83627HF Aopen MX3S-T / MX3SP-T
V9V1=$20*0.016
V9V2=$21*0.016
V9V3=$22*0.016
V9V4=$23*0.016*1.68
V9V5=$24*0.016*3.8
V9V6=(($25*0.016)-3.6)*5.14+3.6
V9V7=$26*(-0.016)*1.5
V10=W83627HF EPoX 8RDA/8RDA+
V10V1=$20*0.016 // NorthBridge (Vdd)
V10V2=$21*0.016 // CPU
V10V3=$22*0.016 // DDR RAM
V10V4=$23*0.016*1.68 // +5V
V10V5=$24*0.016*3.8 // +12V
V10V6=(($25*0.016)-3.6)*5.14+3.6 // -12V
V10V7=(($26*0.016)-3.6)*3.14+3.6 // -5V
V10V8=$50*0.016*1.515B5 // +5V Stand By
V10V9=$51*0.016B5 // +3.2 V Battery
V11=W83627HF Standard 6
V11V1=$20*0.016
V11V2=$21*0.016
V11V3=$22*0.016
V11V4=$23*0.016*1.68
V11V5=$24*0.016*3.8
V11V6=(($25*0.016)-3.6)*5.14+3.6
V11V7=(($26*0.016)-3.6)*3.14+3.6
V11V8=$50*0.016*1.51B5 //5VSB
V11V9=$51*0.016B5 //VBAT
[Asus AS99127F]
VT=2
V0=AS99127F Standard 1
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=($25*(-0.016))*3.97
V0V7=($26*(-0.016))*1.503
V1=AS99127F Standard 2
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*3.8
V1V6=(($25*0.016)-3.6)*5.14+3.6
V1V7=(($26*0.016)-3.6)*3.14+3.6
V2=ASUS P4S533-E
V2V1=$20*0.016
V2V2=255
V2V3=$22*0.016
V2V4=$23*0.016*1.68
V2V5=$24*0.016*4
V2V6=255
V2V7=255
[Texas Instruments THMC50]
VT=0
V0=THMC50 Standard
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[FairChild FMS2701]
VT=0
V0=FMS2701
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[Sis SiS5595]
VT=0
V0=Sis 5595 Standard
V0V1=$20*0.016
V0V2=255
V0V3=$21*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=255
V0V7=255
[VIA Via686A]
VT=2
V0=VIA 686A Standard 1
V0V1=(($22*25 + 133)/2628)*1.25
V0V2=(($23*25 + 133)/2628)*1.25
V0V3=(($24*25 + 133)/2628)*1.67
V0V4=(($25*25 + 133)/2628)*2.6
V0V5=(($26*25 + 133)/2628)*6.3
V0V6=255
V0V7=255
V1=VIA 686A FIC SD-11
V1V1=(($22*25 + 133)/2628)*1.143
V1V2=(($23*25 + 133)/2628)*1.143
V1V3=(($24*25 + 133)/2628)*1.67
V1V4=(($25*25 + 133)/2628)*4
V1V5=(($26*25 + 133)/2628)*9.6
V1V6=255
V1V7=255
V2=VIA 686A Standard 2
V2V1=(($22*25 + 133)/2628)*1.21
V2V2=(($23*25 + 133)/2628)*1.25
V2V3=(($24*25 + 133)/2628)*1.67
V2V4=(($25*25 + 133)/2628)*2.6
V2V5=(($26*25 + 133)/2628)*6.3
V2V6=255
V2V7=255
[Winbond W83697HF]
VT=13
V0=W83697HF Standard 1
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=(($25*0.016)-3.6)*5.14+3.6
V0V7=(($26*0.016)-3.6)*3.14+3.6
V1=W83697HF Standard 2
V1V1=$20*0.016 // core
V1V2=$22*0.016 // agp
V1V3=$25*0.016 // 3.3
V1V4=$23*0.016*1.68 // 5
V1V5=$24*0.016*3.8 // 12
V1V6=$26*0.016 // vdimm
V1V7=255
V2=W83697HF Standard 3
V2V1=$20*0.016 // core
V2V2=$26*0.016 // agp
V2V3=$22*0.016 // 3.3
V2V4=$23*0.016*1.68 // 5
V2V5=$24*0.0643 // 12
V2V6=$25*0.016 // ddr
V2V7=255
V3=W83697HF Standard 4
V3V1=$20*0.016 // core
V3V2=$22*0.016 // 1.5
V3V3=$25*0.016 // 3.3
V3V4=$23*0.016*1.68 // 5
V3V5=$24*0.016*3.8 // 12
V3V6=$26*0.016 // vdimm
V3V7=255
V4=W83697HF Standard 5
V4V1=$20*0.016 // core
V4V2=$25*0.016 // agp
V4V3=$22*0.016 // 3.3
V4V4=$23*0.016*1.68 // 5
V4V5=$24*0.016*3.8 // 12
V4V6=$26*0.016 // vdimm
V4V7=255
V5=ABIT KX7 333
V5V1=$20*0.016
V5V2=$21*0.016
V5V3=$22*0.016
V5V4=$23*0.016*1.68
V5V5=$24*0.016*3.8
V5V6=($25*(-0.016)*5.14)+5.91
V5V7=($26*(-0.016)*3.14)+2.94
V6=AsRock K7VT2
V6V1=$20*0.016
V6V2=$21*0.016
V6V3=$22*0.016
V6V4=$23*0.016*1.68
V6V5=$24*0.016*3.8
V6V6=$25*(-0.016)*3.78 //V -12.00
V6V7=$26*(-0.016)*1.575 //V -5.00
V7=AsRock K7S8X
V7V1=$20*0.0164 // core
V7V2=255
V7V3=$22*0.0163 // 3.3
V7V4=$23*0.0164*1.68 // 5
V7V5=$24*0.0163*4 // 12
V7V6=255
V7V7=255
V8=Abit AT7 MAX
V8V1=$20*0.016 //VCORE
V8V2=$22*0.016 //VIO
V8V3=$23*0.016*1.68 //+5V
V8V4=$24*0.016*3.8 //+12V
V8V5=$25*0.016 //AGP
V8V6=$26*0.016 //DDR
V8V7=$50*0.016*1.51B5 //5VSB
V8V8=$51*0.016B5 //VBAT
V9=Asus P4SDX
V9V1=$20*0.0154
V9V2=$21*0.016
V9V3=$22*0.016
V9V4=$23*0.016*1.68
V9V5=$24*0.016*4
V9V6=255
V9V7=255
V10=W83697HF Standard 6
V10V1=$20*0.016
V10V2=$21*0.016
V10V3=$22*0.016
V10V4=$23*0.016*1.68
V10V5=$24*0.016*3.8
V10V6=(($25*0.016)-3.6)*5.14+3.6
V10V7=(($26*0.016)-3.6)*3.14+3.6
V10V8=$50*0.016*1.51B5 //5VSB
V10V9=$51*0.016B5 //VBAT
V11=W83697HF Epox 8K3A(+)
V11V1=$20*0.016 // Core
V11V2=$22*0.016 // AGP
V11V3=$26*0.016 // DIMM
V11V4=$25*0.016 // + 3.3
V11V5=$23*0.016*1.68 // + 5
V11V6=$24*0.016*3.8 // +12
V11V7=$50*0.016*1.68B5 // 5VSB
V11V8=$51*0.016B5 // VBAT
V12=Abit KD7
V12V1=$20*0.016 // Vcore
V12V2=$22*0.016 // Vagp
V12V3=$25*0.016 // +3.3
V12V4=$23*0.016*1.68 // +5
V12V5=$24*0.016*3.8 // +12
V12V6=$26*0.016 // Vdimm
V12V7=$51*0.016B5 // Vbat
V12V8=$50*0.016*1.515B5 // 5Vsb
V13=Cluster Labs CPU450
V13V1=$20*0.016 // Core
V13V2=$26*0.016 // RAM
V13V3=$22*0.016 // 3.3
V13V4=$23*0.016*1.69 // 5
V13V5=$24*0.016*3.8 // 12
V13V6=(($25*0.016)-3.6)*5.14+3.6 // -12
V13V7=$51*0.016B5 // Battery
[Analog Devices ADM1025]
VT=0
V0=ADM1025 Standard
V0V1=$21*0.012
V0V2=$20*0.013
V0V3=$22*0.0172
V0V4=$23*0.026
V0V5=$24*0.062
V0V6=((($25*0.014)-(5+(5-$23*0.026)) )* 2.879-(5+(5-$23*0.026)))
V0V7=255
[National LM87]
VT=1
V0=LM87 Standard 1
V0V1=$21*0.014
V0V2=255
V0V3=$22*0.017366666
V0V4=$23*0.016*1.632
V0V5=$24*0.016*3.9
V0V6=255
V0V7=255
V1=LM87 Standard 2
V1V1=$21*0.014
V1V2=$25*0.014
V1V3=$22*0.017366666
V1V4=$23*0.016*1.632
V1V5=$24*0.016*3.9
V1V6=255
V1V7=255
[VIA Via686B]
VT=3
V0=VIA 686B Standard
V0V1=(($22*25 + 133)/2628)*1.25
V0V2=(($23*25 + 133)/2628)*1.25
V0V3=(($24*25 + 133)/2628)*1.67
V0V4=(($25*25 + 133)/2628)*2.6
V0V5=(($26*25 + 133)/2628)*6.3
V0V6=255
V0V7=255
V1=VIA 686B ABIT VP6
V1V1=(($22*25 + 133)/2628)*1.24
V1V2=(($23*25 + 133)/2628)*1.25
V1V3=(($24*25 + 133)/2628)*1.665
V1V4=(($25*25 + 133)/2628)*2.54
V1V5=(($26*25 + 133)/2628)*6.4
V1V6=255
V1V7=255
V2=VIA 686B Asus A7VL-VM
V2V1=(($22*25 + 133)/2628)*1.88
V2V2=255
V2V3=(($24*25 + 133)/2628)*1.66
V2V4=(($25*25 + 133)/2628)*2.4
V2V5=(($26*25 + 133)/2628)*16
V2V6=255
V2V7=255
V3=VIA 686B MSI K7T Turbo
V3V1=(($22*25 + 133)/2628)*1.20
V3V2=255
V3V3=(($24*25 + 133)/2628)*1.67
V3V4=(($25*25 + 133)/2628)*2.6
V3V5=(($26*25 + 133)/2628)*6.3
V3V6=255
V3V7=255
[MySon MTP008]
VT=1
V0=MTP008 Standard 1
V0V1=$20*0.016 // cpu 0
V0V2=$23*0.016 // cpu 1
V0V3=$21*0.016 // 3.3
V0V4=$26*0.016 // 1.5
V0V5=$22*0.016*3.9 // 12
V0V6=255
V0V7=255
V1=MTP008 Standard 2
V1V1=$20*0.0158 // cpu 0
V1V2=$23*0.0158 // cpu 1
V1V3=$21*0.016 // 3.3
V1V4=$26*0.016*1.68 // 1.5
V1V5=$22*0.016*3.9 // 12
V1V6=255
V1V7=255
[National LM87 Dual]
VT=1
V0=LM87 Dual Standard
V0V1=$21*0.014|1 // cpu 0
V0V2=$25*0.014|0 // cpu 1
V0V3=$22*0.0017366666|0 // 3.3
V0V4=$23*0.016*1.632|1 // 5
V0V5=$24*0.016*3.9|1 // 12
V0V6=$25*0.014|0 // VTT
V0V7=255
V1=LM87 SM PIIIDME/370DE6
V1V1=$21*0.0136|0 // cpu 0
V1V2=$21*0.0136|1 // cpu 1
V1V3=$22*0.017366666|0 // 3.3
V1V4=$23*0.016*1.632|1 // 5
V1V5=$24*0.016*3.9|1 // 12
V1V6=255
V1V7=255
[ITE8712F]
VT=13
V0=ITE8712F Standard 1
V0V1=$20*0.01565
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$28*0.016 // vbat
V0V5=$24*0.016*3.8
V0V6=(($27*0.016)-3.6)*5.14+3.6
V0V7=255
V1=ITE8712F Standard 2
V1V1=$20*0.01614 // cpu 0
V1V2=$21*0.01614 // ??
V1V3=$22*0.01614 // 3.3
V1V4=$23*0.01614*1.68 // 5
V1V5=$24*0.01614*3.9 // 12
V1V6=255
V1V7=255
V2=ITE8712F Standard 3
V2V1=$25*0.01614 // cpu 0
V2V2=$21*0.016 // cpu 1
V2V3=$22*0.016 // 3.3
V2V4=$24*0.016 // 5
V2V5=$23*0.01614*3.9 // 12
V2V6=255
V2V7=255
V3=ITE8712F Standard 4
V3V1=$20*0.016 //V P4
V3V2=$21*0.016 //V AGP
V3V3=$22*0.016 //V +3.3
V3V4=$23*0.027 //V +5.00
V3V5=$24*0.06564 //V +12.00
V3V6=$25*0.016 + 4.25*($25*0.016 - 4.096) //V -12.00
V3V7=$26*0.016 + 2.20*($26*0.016 - 4.096) //V -5.00
V4=GA-8PE667
V4V1=$20*0.01653 //V VCore
V4V2=$21*0.016 //V 1.5 line
V4V3=$22*0.016 //V +3.3
V4V4=$23*0.02684 //V +5.00
V4V5=$24*0.06398 //V +12.00
V4V6=255
V4V7=255
V5=CT-7NJS
V5V1=$20*0.016 // CPU Core
V5V2=$21*0.016 // +2.5
V5V3=$22*0.016 // +3.3
V5V4=$23*0.027 // +5.00
V5V5=$24*0.06369 // +12.00
V5V6=(($25*0.016)+(-3.299555556))*5.142857143 // -12
V5V7=$26*0.016 // V_DDR
V5V8=$27*0.016 // V_AGP
V5V9=$28*0.016 // Battery
V6=GA-8IK1100
V6V1=$20*0.01565 // core
V6V2=$23*0.016 // 2.5
V6V3=$22*0.016 // 3.3
V6V4=$24*0.016*1.68 // 5
V6V5=$21*0.06564 // 12
V6V6=$25*0,016 // 1.5
V6V7=$27*0.016 // V_AGP
V7=Shuttle SB61G
V7V1=$20*0.016 // CPU Core
V7V2=$21*0.016 // +2.5
V7V3=$22*0.016 // +3.3
V7V4=$23*0.027 // +5.00
V7V5=$24*0.06369 // +12.00
V7V6=(($25*0.016)+(-3.299555556))*5.142857143 // -12
V7V7=$26*0.016 // V_DDR
V7V8=$27*0.026 // +5VSB
V7V9=$28*0.016 // Battery
V8=GA-8IPE1000Pro
V8V1=$20*0.01653 //V VCore
V8V2=$21*0.016 //V 2.5 line
V8V3=$22*0.016 //V +3.3
V8V4=$23*0.032 //V +5.00
V8V5=$24*0.064 //V +12.00
V8V6=$28*0.016 //V Battery
V8V7=255
V9=GA-8KNXP
V9V1=$20*0.016 // VCore CPU
V9V2=$21*0.01565 // VMem DRAM
V9V3=$22*0.016 // +3.3V
V9V4=$23*0.032 // +5.00V
V9V5=$24*0.064 // +12.00V
V9V6=(($25*0.016)-3.6)*5.72 // -12V
V9V7=(($26*0.016)-3.6)*2.33 // -5V
V10=Gigabyte GA-7N400-L
V10V1=$20*0.016 // V_core
V10V2=$21*0.016 // ram
V10V3=$22*0.016 // 3.3
V10V4=$23*0.016*2.00 // 5
V10V5=$24*0.016*4.00 // 12
V10V6=$25*0.016 // AGP
V10V7=$26*0.016 + 2.20*($26*0.016 - 4.096) // -5V?
V11=Asus A7V8X-X
V11V1=$20*0.016 // Vcore
V11V2=255
V11V3=$22*0.016 // +3.3
V11V4=$23*0.0265 // +5.00
V11V5=$24*0.0654 // +12.00
V11V6=255
V11V7=255
V12=GA-8PE667 Ultra
V12V1=$20*0.01653 //V VCore
V12V2=$21*0.016 //V 1.5 line
V12V3=$22*0.016 //V +3.3
V12V4=$23*0.02684 + .7 //V +5.00
V12V5=$24*0.06398 //V +12.00
V12V6=255
V12V7=255
V13=Elitegroup N2U400-A
V13V1=$20*0.016 // CPU Core by MBM
V13V2=$21*0.016 // Core 1 by MBM
V13V3=($22+500)/185 // +3.3V by Bulli; min. 2.7V ($=0), max. 4V ($=255)
V13V4=($23+400)/100 // +5V by Bulli; min. 4V ($=0), max. 6,5V ($=255)
V13V5=($24+1100)/100 // +12V by Bulli; min. 11V ($=0), max. 13,5V ($=255)
V13V6=-($25+1100)/100 // -12V by Bulli; min. -11V ($=0), max. -13,5V ($=255)
V13V7=-($26+400)/100
[ALi M5879]
VT=2
V0=ALi 5879 Standard 1
V0V1=$22*0.0161 // cpu 0
V0V2=255
V0V3=$20*0.0161 // 3.3
V0V4=$23*0.016*1.68 // 5
V0V5=$21*0.016*3.8 // 12
V0V6=255
V0V7=255
V1=Ali 5879 Standard 2
V1V1=$22*0.0161 // cpu 0
V1V2=255
V1V3=$20*0.0161 // 3.3
V1V4=$21*0.016*1.68 // 5
V1V5=$23*0.016*3.4 // 12
V1V6=255
V1V7=255
V2=Ali 5879 Standard 3
V2V1=$22*0.0161 // cpu 0
V2V2=255
V2V3=$20*0.0161 // 3.3
V2V4=$21*0.016*1.68 // 5
V2V5=$23*0.016*3.41 // 12
V2V6=255
V2V7=255
[Winbond W83L784R]
VT=0
V0=Winbond W83L784R Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=255
V0V6=255
V0V7=255
[Analog Devices ADM1024]
VT=0
V0=Analog Devices ADM1024 Standard
V0V1=$21*0.014
V0V2=$24*0.014
V0V3=$22*0.0172
V0V4=$23*0.026
V0V5=$25*0.062
V0V6=$20*0.013
V0V7=255
[Sis SiS5595 - rev 2.0]
VT=1
V0=Sis SiS5595 - rev 2.0 Standard 1
V0V1=$20*0.016
V0V2=255
V0V3=$21*0.016
V0V4=$22*0.016*1.68
V0V5=$23*0.016*3.8
V0V6=255
V0V7=255
V1=Sis SiS5595 - rev 2.0 Standard 2
V1V1=$22*0.016
V1V2=$23*0.016
V1V3=$21*0.016
V1V4=$20*0.016*1.68
V1V5=255
V1V6=255
V1V7=255
[Sis950 / ITE8705F]
VT=13
V0=Sis950 / ITE8705F -1
V0V1=$20*0.01614 // cpu 0
V0V2=$21*0.016 // 2.5
V0V3=$22*0.016 // 3.3
V0V4=$23*0.01614*1.68 // 5
V0V5=$24*0.01614*4 // 12
V0V6=$25*(-0.01614)*3.55 // -12
V0V7=255
V1=Sis950 / ITE8705F -2
V1V1=$20*0.01565 // cpu 0
V1V2=$21*0.016 // 2.5
V1V3=$22*0.016 // 3.3
V1V4=255
V1V5=$24*0.01614*3.9 // 12
V1V6=$27*(-0.01614)*3.47 // -12
V1V7=$28*(-0.016)*1.503 // -5
V2=Sis950 / ITE8705F -3
V2V1=$20*0.01614 // cpu 0
V2V2=$21*0.01614 // 2.5
V2V3=$22*0.01614 // 3.3
V2V4=$23*0.01614*1.68 // 5
V2V5=$24*0.01614*3.9 // 12
V2V6=$27*(-0.01614)*4 // -12
V2V7=255
V3=Sis950 / ITE8705F -4
V3V1=$20*0.01565 // cpu 0
V3V2=$21*0.016 // 2.5
V3V3=$22*0.016 // 3.3
V3V4=$23*0.016*1.68 // 5
V3V5=$24*0.016*3.9 // 12
V3V6=$27*(-0.016)*4.1 // -12
V3V7=$28*(-0.016)*1.65 // -5
V4=Sis950 / ITE8705F -5
V4V1=$20*0.01614 // cpu 0
V4V2=$21*0.01614 // 2.5
V4V3=$22*0.01614 // 3.3
V4V4=$23*0.01614*1.68 // 5
V4V5=$24*0.01614*3.96 // 12
V4V6=(($25*0.016)+(-3.299555556))*5.142857143
V4V7=(($26*0.016)+(-2.792727273))*3.142857143
V5=Sis950 / ITE8705F -6
V5V1=$20*0.01630 // cpu 0
V5V2=$21*0.01630 // 1.2
V5V3=$22*0.01630 // 3.3
V5V4=$23*0.01630*1.68 // 5
V5V5=$24*0.01630*3.96 // 12
V5V6=$25*0.01630 // ddr
V5V7=$26*0.01630 // agp
V6=Sis950 / ITE8705F -7
V6V1=$20*0.016 // cpu 0
V6V2=$24*0.016 // 2.5
V6V3=$21*0.016 // 3.3
V6V4=$22*0.016*1.68 // 5
V6V5=$23*0.016*3.96 // 12
V6V6=$25*0.016 // ddr
V6V7=$26*0.016 // agp
V7=SOYO DRAGON KT400 ULTRA PLATINUM
V7V1=$20*0.01614 // cpu 0
V7V2=$24*0.016 // 2.5
V7V3=$21*0.01614 // 3.3
V7V4=$22*0.016*1.69 // 5
V7V5=$23*0.01614*4.02 // 12
V7V6=$24*0.01614 // ddr
V7V7=$25*0.01614 // agp
V7V8=255
V8=ECS L7S7A2
V8V1=$20*0.01614 // cpu 0
V8V2=255
V8V3=$22*0.016 // ddr
V8V4=255
V8V5=255
V8V6=255
V8V7=255
V9=GA-8SQ800ULTRA
V9V1=$20*0.01614 // cpu 0
V9V2=$21*0.01614*1.300 // 2.5
V9V3=$22*0.01614*1.02 // 3.3
V9V4=$23*0.01614*1.68 // 5
V9V5=$24*0.01614*4.07 // 12
V9V6=(($25*0.016)+(-3.299555556))*5.16 //-12
V9V7=(($26*0.016)+(-2.792727273))*3.68 //-5
V9V8=$27*0.016 // DDR
V10=ECS L7S7A2
V10V1=$20*0.01614 // cpu core
V10V2=$21*0.016 // +2.5v (ddr)
V10V3=$22*0.016 // +3.3v
V10V4=$23*0.01614*1.68 // +5v
V10V5=$24*0.01614*4 // +12v
V10V6=$27*0.01614*1.68 // 5vsb
V10V7=$28*0.016 // vbat
V11=GA-8IK1100
V11V1=$20*0.01565 // core
V11V2=$22*0.016 // 3.3
V11V3=$24*0.0268 // 5
V11V4=$21*0.0736 // 12
V11V5=$27*0.016 // V_AGP
V12=Shuttle FX41
V12V1=$20*0.016016 // CPU VCore 1.75 (modified)
V12V2=$21*0.016 // VDDQ 3.3
V12V3=$22*0.016 // 3.3
V12V4=$23*0.016*1.68 // 5
V12V5=$24*0.016*3.9 // 12
V12V6=$27*(-0.016)*4.1 // -12
V12V7=$28*(-0.016)*2.463 // -5 (modified)
V13=SOYO KT400 DRAGON Lite
V13V1=$20*0.01614 // CPU core
V13V2=$24*0.01614 // DDR
V13V3=$21*0.01614 // +3.3
V13V4=$22*0.01614*1.663 // +5
V13V5=$23*0.01614*3.94 // +12
V13V6=$25*0.01614 // AGP
[Genesys Logic GL525SM]
VT=1
V0=GL525SM Standard 1
V0V1=$20+3 * (0.020078 * 1)
V0V2=255
V0V3=$22+3 * (0.020078 * 1)
V0V4=$23-3 * (0.020078 * 5/3.5)
V0V5=$24+3 * (0.020078 * (1.0+15.0/4.7))
V0V6=$25+3 * (0.020078 * (210/28))
V0V7=255
V1=GL525SM Standard 2
V1V1=$20+3 * (0.020078 * 1)
V1V2=$21+3 * (0.019 *1)
V1V3=$22+3 * (0.020078 * 1)
V1V4=$23-3 * (0.020078 * 5/3.5)
V1V5=$24+3 * (0.020078 * (1.0+15.0/4.7))
V1V6=$25+3 * (0.020078 * (210/28))
V1V7=255
[Analog Devices ADM1024 Dual]
VT=0
V0=ADM1024 Dual Standard
V0V1=$21*0.014|0 // core 0
V0V2=$21*0.014|1 // core 1
V0V3=$23*0.026|0 // 3.3
V0V4=$20*0.026|0 // 5
V0V5=$24*0.062|0 // 12
V0V6=$20*0.010|1 // 1.5
V0V7=255
[Dallas SM DS1780]
VT=0
V0=Dallas DS1780 Standard
V0V1=$21*0.014
V0V2=$20*0.013
V0V3=$22*0.017
V0V4=$23*0.026
V0V5=$24*0.0625
V0V6=$25*0.096 - 29
V0V7=255
[Analog Devices ADM1025 Dual]
VT=0
V0=ADM1025 Dual Standard
V0V1=$21*0.012|0 // core 0
V0V2=$21*0.012|1 // core 1
V0V3=$22*0.0172|0 // 3.3
V0V4=$23*0.026|0 // 5
V0V5=$24*0.062|0 // 12
V0V6=((($25*0.014)-(5+(5-$23*0.026)) )* 2.879-(5+(5-$23*0.026)))
V0V7=$20*0.013|1 // ??
[Dallas SM DS1780 Dual]
VT=2
V0=Dallas DS1780 Dual Standard 1
V0V1=$21*0.014|0 // core 0
V0V2=$20*0.013|0 // 2.5
V0V3=$22*0.017|0 // 3.3
V0V4=$23*0.026|0 // 5
V0V5=$24*0.0625|0 // 12
V0V6=$25*0.096-29|0
V0V7=255
V1=Dallas DS1780 Dual Standard 2
V1V1=$21*0.014|1 // core 0
V1V2=$20*0.013|1 // 2.5
V1V3=$22*0.017|1 // 3.3
V1V4=$23*0.026|1 // 5
V1V5=$24*0.0625|1 // 12
V1V6=$25*0.096-29|1
V1V7=255
V2=Dell PWS 420
V2V1=$21*0.014|0 // core 0
V2V2=$20*0.013|0 // 2.5
V2V3=$22*0.017|1 // 3.3
V2V4=$23*0.026|0 // 5
V2V5=$24*0.0625|0 // 12
V2V6=255
V2V7=255
[Analog Devices ADM1030]
VT=0
V0=ADM1030 Standard
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[Analog Devices ADM1031]
VT=0
V0=ADM1031 Standard
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[ITE8693F]
VT=0
V0=ITE8693F Standard
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.28
V0V5=$24*0.016*3.8
V0V6=$25*(-0.016)*5.2
V0V7=255
[PC87366]
VT=0
V0=PC87366 Standard
V0V1=255 // can't be done via ini file
V0V2=255 // can't be done via ini file
V0V3=255 // can't be done via ini file
V0V4=255 // can't be done via ini file
V0V5=255 // can't be done via ini file
V0V6=255 // can't be done via ini file
V0V7=255 // can't be done via ini file
[VIA Via8231]
VT=2
V0=VIA8231 Standard 1
V0V1=(($22*25 + 133)/2628)*1.25
V0V2=(($23*25 + 133)/2628)*1.25
V0V3=(($24*25 + 133)/2628)*1.67
V0V4=(($25*25 + 133)/2628)*2.6
V0V5=(($26*25 + 133)/2628)*6.3
V0V6=(($27*25 + 133)/2628)*2.6
V0V7=(($28*25 + 133)/2628)*6.3
V1=VIA8231 Standard 2
V1V1=(($24-3) * (2+10) / 10) / 95.8 // core 0
V1V2=(($23-3) * (2+10) / 10) / 95.8 // 2.5
V1V3=(($26-3) * (2+3) / 3) / 95.8 // 3.3
V1V4=(($22-3) * (14+10) / 10) / 95.8 // 5
V1V5=(($25-3) * (47+10) / 10) / 95.8 // 12
V1V6=255
V1V7=255
v2=EPIA Ezra
V2V1=(($24*25 + 133)/2628)*1.04 // core0
V2V2=(($23*25 + 133)/2628)*1.26 // 2.5
V2V3=(($22*25 + 133)/2628)*1.67 // 3.3
V2V4=(($25*25 + 133)/2628)*2.4 // 5
V2V5=(($26*25 + 133)/2628)*6 // 12
V2V6=255
V2V7=255
v3=EPIA Samuel 2
V3V1=(($24*25 + 133)/2628)*1.04 // core0
V3V2=(($23*25 + 133)/2628)*1.26 // 2.5
V3V3=(($22*25 + 133)/2628)*1.67 // 3.3
V3V4=(($25*25 + 133)/2628)*2.4 // 5
V3V5=(($26*25 + 133)/2628)*6 // 12
V3V6=255
V3V7=255
[Winbond W83627HF/W83782D Combo]
VT=1
V0=Standard W83627HF/W83782D
V0V1=$20*0.01614|0 // core 0
V0V2=$20*0.01614|1 // core 1
V0V3=$26*0.01614|1 // 3.3
V0V4=$23*0.01614*1.68|0 // 5
V0V5=$22*0.016*3.8|0 // 12
V0V6=(($25*0.016)-3.6)*5.14+3.6|0 // -12
V0V7=255
V1=Tyan Tiger MP 2460
V1V1=$20*0.01614|0 // core 0 (CPU 1)
V1V2=$21*0.01614|0 // core 1 (CPU 2)
V1V3=$22*0.01614|0 // +3.3 Volts
V1V4=$23*0.027205|1 // +5 Volts
V1V5=$24*0.075845|0 // +12 Volts
V1V6=$25*(-0.38375)|0 // -12 Volts
V1V7=255 // -5 Volts not implemented
V1V8=$22*0.01614|1 // AGP Volts
V1V9=$24*0.01614|1 // DDR Volts
V1V10=$26*0.01614|1 // standby 3.3 Volts
V1V11=$51*0.01614|1 B5 // battery Volts (on bank 5)
[SMSC LPC47M192-NC]
VT=1
V0=LPC47M192 Standard
V0V1=$21*0.012
V0V2=$20*0.013
V0V3=$22*0.0172
V0V4=$23*0.026
V0V5=$24*0.062
V0V6=$50*0.008
V0V7=$51*0.009
V1=Dell Precision 650
V1V1=$21*0.0114 // CPU voltage
V1V2=$20*0.013 // +2.5V
V1V3=$22*0.0171 // +3.3V
V1V4=$23*0.026 // +5V
V1V5=$24*0.06 // +12V
V1V6=$50*0.0171 // SIO voltage
V1V7=$51*0.0078 // AGP voltage
V1V8=$25*0.0093 // +1.8V
[Winbond W83637HF]
VT=1
V0=W83637HF Standard 1
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=(($25*0.016)-3.6)*5.14+3.6
V0V7=(($26*0.016)-3.6)*3.14+3.6
V1=ECS Photon PF2 Lite
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=255
V1V6=255
V1V7=255
[Analog Devices ADM1028]
VT=0
V0=not support by this device
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[Asus ASB100 (Bach)]
VT=1
V0=ASB100 Standard 1
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*3.8
V0V6=($25*(-0.016))*3.97
V0V7=($26*(-0.016))*1.666
V1=ASB100 Standard 2
V1V1=$20*0.016
V1V2=$21*0.016
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$24*0.016*4
V1V6=($25*(-0.016))*4
V1V7=($26*(-0.016))*1.666
[Analog Devices ADM1027]
VT=0
V0=ADM1027 Standard
V0V1=$21*4*0.00293
V0V2=$20*4*0.0032
V0V3=$22*4*0.0042
V0V4=$23*4*0.0065
V0V5=$24*4*0.0156
V0V6=255
V0V7=255
[ITE8722F]
VT=0
V0=ITE8722F Standard
V0V1=$20*0.01565
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$28*0.016 // vbat
V0V5=$24*0.016*3.8
V0V6=(($27*0.016)-3.6)*5.14+3.6
V0V7=255
[Asus Mozart2]
VT=0
V0=Mozart2 Standard
V0V1=$20*0.016
V0V2=255
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*4
V0V6=255
V0V7=255
[National LM85]
VT=0
V0=LM85 Standard
V0V1=$21*0.01176
V0V2=$20*0.013
V0V3=$22*0.0172
V0V4=$23*0.026
V0V5=$24*0.0627
V0V6=255
V0V7=255
[Winbond W83627HF/ADM1027 Combo]
VT=1
V0=W83627HF/ADM1027 Combo
V0V1=$20*0.016|0 // core0
V0V2=255
V0V3=255
V0V4=$23*4*0.0065|1 // +5
V0V5=$24*4*0.0156|1 // +12
V0V6=255
V0V7=255
[Winbond W83627HF/ADM1027 Combo]
V1=Tyan 2665
V1V1=$20*0.0.016|0 // core0
V1V2=$21*0.01471|0
V1V3=$22*0.032|0
V1V4=$23*4*0.0065|1 // +5
V1V5=$24*4*0.0156|1 // +12
V1V6=255
V1V7=255
[Analog Devices ADM1025/1030 Combo]
VT=0
V0=ADM1025/1030 Combo
V0V1=$21*0.012|1
V0V2=$20*0.013|1
V0V3=$22*0.0172|1
V0V4=$23*0.026|1
V0V5=$24*0.062|1
V0V6=$25*0.0172|1
V0V7=255
[Analog Devices ADM1030 Dual]
VT=0
V0=ADM1030 Dual
V0V1=255
V0V2=255
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[WinBond W83L785TR]
VT=0
V0=WinBond W83L785TR
V0V1=$20*0.044
V0V2=$21*0.044
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[WinBond W83L785R]
VT=0
V0=WinBond W83L785R
V0V1=$20*0.044
V0V2=$21*0.044
V0V3=255
V0V4=255
V0V5=255
V0V6=255
V0V7=255
[Winbond W83627THF-A]
VT=6
V0=Winbond W83627THF-A
V0V1=$20*0.016
V0V2=$21*0.016
V0V3=$22*0.016
V0V4=$23*0.016*1.68
V0V5=$24*0.016*4
V0V6=255
V0V7=255
V1=Asus P4P800
V1=Asus P4P800
V1V1=$20*0.01567
V1V2=255
V1V3=$22*0.016
V1V4=$23*0.016*1.68
V1V5=$21*0.016*3.8
V1V6=255
V1V7=255
V2=ASUS PC-DL
V2V1=$20*0.00488 + 0.69 // VCORE (pin 100) (+ 1.5V)
V2V2=$51*0.016B$05 // VBAT (pin 74) (+ 3.0V)
V2V3=$22*0.016 // VIN1 (pin 98) (+ 3.3V)
V2V4=$23*0.016*1.68Checked and worked fine for windows xp x64 pro version too .
Just replace the voltage.ini
MBM 5.3.7.0 64bits can be downloaded at http://www.planetAMD64.com
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