All Gen of Pastel

This time I will give you STEP 2 guide to get the maximum overclocking results, especially for AMD K8-processor.
The result is a good overclock
* achieving maximal performance of a computer system
* have a good stability
* No overheating occurred

-The first step
we should know is to recognize the characters and specification of the processor, motherboard and memory that we use mainly we should know is the maximal temperature, voltage and Default maximal voltage. This is used as a benchmark for us in order that we can overclock limits the ability of each hardware we will overclockoverclocking can be done so that the maximal but not cause damage to the hardware that we overclock.

second-step
provide several software tools that will help us in the overclocking process. In this guide I will use CPUz, orthos, and CoreTemp only.
> Cpuz as information on the system clock speed
> As Orthos Stability Tester
> As CoreTemp monitors processor temperature

Step-third
search for maximal clock speed of the processor, search for maximal processor speed we can do by changing the value of some variable in the bios. The variables that affect the clock speed processor is
* FSB
* Multiplier
* Voltage

ok now starting the computer with the press & hold the delete button on your keyboard to display the menu appears in the bios monitor. before we find the maximal clock starts first turn off the feature AMD cool & quiet because this feature is active when the processor clock is automatically set according to the needs of the application that is being executed. So I overclock our redundant features are still active, and then turn off all the spread spectrum. This is to avoid the increase in clock every hardware that we actually do not need to clock (Hard drives, PCIe clock) because if we do not turn off / lock the hard drive and VGA can be victims. Default is the PCIe clock to 100MHz, if we do not lock the clock will be increased in line with the increase in FSB clock can increase calculated with the formula FSB x Divider = PCI or AGP Bus Speed

then we sent down clock and memory clock Htt-link so that we can find the maximal clock processor.
Htt * To decrease the link-clock multi Htt we set to 3x.
* to lower the memory clock we set divider to DDR 400 and setting the timming loose 5-5-5-12-2T

to calculate the clock speed of processor used the formula:
processor FSB clock x multiplier =
ok, now we start FSB up quickly so that its direct increase only 25% of the standard clock.
Example: AMD64 X2 3600 + Brisbane
FSB: 200MHz
Multiplier: 9.5
So the default clock: 200MHz x 9.5 = 1900Mhz / 1.9 GHz
we increase its FSB of 25% then the calculation:
= + FSB (FSB x 25%)
FSB + = ((x25 FSB): 100)
= 200 + ((200x25): 100)
= 250
ok, FSB means to increase 250Mhz, save the setting of bios then restart your computer ... .. there are two possibilities that you will experience.
* failed to enter the OS first, if this is the case means that the maximum speed of your processor in the default voltage does not reach 25% do A.procedure L
* Successfully second entering the OS, if this happens then it can be said you have been successfully improving the performance of your processor as much as 26% A to do B. Procedure

A.procedure:
must that if you do fail loading OS
restart the computer and then back into the bios, if you can not enter the BIOS need to be clear CMOS (see your motherboard manual for the procedure clear CMOS). After successfully entering bios to make sure the features and cool & quiet
spectrum in the disable condition. Then lowering the FSB to its 5 stage. (If the previous 250 made 245) save and then restart. Make B. Procedure

B. Procedure:
if you have succeeded in loading the OS then the next step is
* street Cpuz see its core speed is correct according to the calculation.
* run CoreTemp to monitor the processor temperature
(in case of overheating or upgrade Hsf revealed FSB)
* 10minutes run orthos to test stability

C. Procedure:
Restart the computer Go to BIOS menu and then increase the level FSB to 5.

If you have to do B. Procedure and error does not happen then do C.procedure do repeat until an error occurs in orthos. Then restart the computer and return it to the FSB last before you have an error in Orthos. Check dng orthos stability during 3 hours if an error occurs can be sent down again until it passes without error (you have to find maximal clock processor @ default voltage) recorded good FSB and multiplier ... ..

-The fourth step
search for maximal memory clock (with the core processor settingan max), maximal speed memory search can be done by changing the value of some variable in the bios. The variables that affect the memory clock speed is
* FSB
* Multiplier
* Divider
* timming
* Voltage
because we do overclock this system to maximize performance for the benchmark is not one of hardware, we find the maximum memory clock with the FSB and multiplier of the maximum processor clock that we can.

The formula for the calculation of memory is
(FSBxMultiplier): divider
= (Processor clock speed): divider

table-divider multiplier if using 10 / 9.5
DDR400 / (1:1) = 10
DDR533 / (4:3) = 7
DDR667 / (4:10) = 6
DDR800 / (2:1) = 5
Example:
From the results of the pilot maximal processor clock speed obtained
FSB: 316Mhz
Multiplier: 9.5

So clock speed of processor : 316 x 9.5 = 3002Mhz
> If we set divider DDR400 / (1:1)
But memory clock speed: 3002: 10 = 300Mhz
> if we set dividernya DDR533 / (4:3)
But memory clock speednya: 3002: 7 = 428Mhz
> If we set divider DDR667 / (4:10)
But memory clock speed: 3002: 6 = 500Mhz
> If we set divider DDR667 / (4:10)
But memory clock speed: 3002: 5 = 600MHz

Ok, now you already know the FSB, multiplier, voltage (default), we now live set timming memory. set in advance how much memory timing will be working
(always use a 2T command rate)
after we specify timming experiment means that we live up divider memory ..
the step is same as when we find the maximum processor speed. only at the time if we find the processor speed be changed is the FSB-derived. To search for a maximum memory speed of this divider is changed and timming only. Divider do increase step by step test with orthos to stability test to be a divider and timming most.

Step-fifth
determine the transfer speed of the motherboard or the usual Htlink called in Cpuz
variable in the bios that affect maximal speed of the mobo is
* FSB
* Multi-HTT
* chipset voltage
to calculate the transfer speed is obtained with the mobo formula
Multi FSBxHtt
To set up the transfer speed is too high do not try from 1000Mhz
If we already know the FSB Httspeed and that we want to achieve means that we live determine httmultinya.
Example: FSB: 316Mhz
Httspeed + - 1000Mhz
So the most multi htt can be selected is 3x
If we choose 3x means httspeed: 316x3 = 948Mhz

Then the last step is a test with orthos for 12 hours and must be without error. If the error still occurs in FSB down a bit and then test again until realy not error occurs during 12 hours. (Overclocking system success @ default voltage)

Note:
do in-patient,
-not in a hurry.
Always monitor temperature-do not occur until the overheating
(maximal temperature exceeds the limit)
-if you are already successful overclock with the default voltage you can improve yourself with the voltage that would make achievement of maximal clock increases.

WARNING!
beware do with and think about the bad risk,
I created this guide based on my knowledge and experience, and I am not responsible for any risks incurred.