Mar 222009
OverClocking Basics : Understanding FSB OCing for the Core2s (Theory)
Days have vanished in the my darkened past when I was stuck between the purchase of 1.2 Ghz proccy and 1.4 Ghz - and quite obviously if I was having concrete funding I would have blindly gone for a 1.4 Ghz processor — but by any chances if I knew Overclocking then , I had would have bought 1.2 Ghz proccy and OCed it upto 1.4 Ghz!. At that time , Overclocking was only for so called ‘Techies’ and ‘Experts’ where the motherboards were not so Overclocking friendly. But now its waaay different where processor are overclocked to superluminal speeds! Today’s manufacturers design motherboards specifically for Overclocking and today even a noob can Overclock his rig to the bleeding edge.
When AMD started using the EV6 bus which transferred data twice per clock cycle, Intel had to answer with something. With the advent of Pentium 4 Intel answered it with Quad-Pumped FSB which was able to send data 4 times per clock cycle which ensured that data hungry CPU never falls short of data and of course using faster memories.
):- OCing = OverClocking
- Northbridge = NB = MCH
- Mobo = Motherboard
- Proccy = Processor
Understanding FSB (Intel) and HTT (AMD):
Basically Front Side Bus (FSB) is set of wires i.e. a Bus that connects CPU to the “Northbridge(Chipset)”.
By the way - Intel also calls the Northbridge as “Memory Controller Hub” or MCH for short.
Hmm… If CPU is the brain of our computer then the Northbridge (Chipset) is the Heart of your computer. The Northbridge is the gateway/door for the CPU to access and control all the components inside the PC. If the Northbridge fails then the bridge between the CPU and other computer components breaks which renders the CPU a complete etched-silicon crap!
Now back to where I was …
This FSB is the address and data bus which the CPU uses. The CPU interacts with all the other components of the computer through the FSB via the Northbridge. Since the Northbridge is so central to all the connections in the computer - increasing the FSB will also increase the speed at which other components interact with the Northbridge which in turn will increase the system performance. Overclocking the FSB may be a little tricky for someone new because the base clock rate differs from the effective(actual) clock rate which is termed as ‘Quad-Pumping’ by Intel.
Quad Pumped FSB (QFSB) = 4 x Base FSB
One of the key factors that makes FSB the first choice to be overclocked is that the CPU’s speed is determined by the Base FSB which is then multiplied by the CPU Multiplier which sets the operating frequency of the CPU.This relation of proportionality between the CPU and FSB frequency gives an instant CPU speed boost when the FSB is increased given that the multiplier remains the same.
The formula is given as :
CPU Speed = Base FSB x CPU Multiplier
CPU Multiplier = CPU Speed : Base FSB
Now Base FSB = 333 MHz hence ,
CPU speed = 333 x 7.5 = 2.5 GHz which is the stock speed for Q9300
Take it from me : Overclocking Processors with low native FSB are easier to OC as compared to Proccies with high Native FSB.
Come on man I thought you knew it! Anyways If you wanna know the here it is:
Native Processor FSB is the default FSB which is used to generate the CPU frequency. Each processor has its own predefined default FSB. When every thing is set to default - i.e. no Overclocking - the CPU dictates the Northbrigde that it wants to work at the default CPU FSB and the poor Northbridge finds that everything in BIOS is set at default and has to obey CPU silently waiting for a revenge. But the twist comes when a noob like me Overclocks his PC to its bleeding edge. Now the Northbridge gets the revenge license from BIOS and shouts to CPU , “You son of a b*t*h … now I gonna dictate you! You gonna use that FSB which I throw at U - now you can’t even complain if your ass gets burnt out in hell. HAIL TO THE NORTHBRIGDE …”.
Moral of the story : Both CPU and the Northbridge work at the same Base FSB clock - its just a matter of who dictates the FSB to whom. NATIVE PROCESSOR FSB IS THE MINIMUM FSB REQUIRED TO RUN THE SYSTEM! HENCE IF NATIVE CPU FSB EQUALS YOUR MOBO’s MAX SUPPORTED FSB YOU CANNOT OVERCLOCK!
Aaahh where I was ? Ohh ya I remember ,
When is comes to FSB we are mainly concerned with max FSB supported by the motherboard and the native FSB of the processor. The Q9xx0 series Quads from Intel may have the edge of being 45nm based and slightly faster than the 65nm based Q6×00 series Quads. But the 45nm Quads have higher native FSB of 1333 MHz which makes it difficult to overclock beyond a limit and it even gets worse for quads like Q9300 which has the multiplier at 7.5 max. Consider today’s p35 , x38 , p45 , x48 chipset based motherboards which can be OCed to 1600MHz easily but not quite beyond 2000 MHz i.e. a Base FSB of 500 MHz is limit for the current generation chipsets. Now with Q9300 the ‘max possible (can be pushed more)’ overclock will be = 500 x 7.5 = 3.75 GHz which does not make it suitable for Overclocking because such a high FSB will tax both the chipset and also the RAM to maintain good FSB : DRAM ratios [ill explain RAM OCing in next Article].
On the other hand lets consider Q6600 which has 1066MHz FSB with multiplier of 9 max. With Q6600 the ‘max possible’ OC will be = 500 x 9 = 4.5 GHz which some have reached. I remember that the Tom’s Hardware team from France managed to push Q6600 up to 5 GHz on liquid nitrogen. Due to this relation between the Base FSB and the CPU Multiplier the CPU having native FSB less then the max FSB supported by the motherboard has a more Overclocking head room than a CPU have native FSB same as the max FSB of the motherboard.
In our consideration of Q9300 and Q6600 I would go with Q6600 because its more Overclockable and will not tax the chipset with extreme high FSB as with Q9300. But on the other side the main advantage of Q9300 is the higher FSB itself. Since the native FSB of the processor dictates the default FSB at which the system will run having higher default FSB will make system run fast due to higher FSB. But the down fall is that further OC is possible from the default FSB , hence more the head room more is the Overclockability.
On AMD systems the bus used to interface the CPU with Northbridge uses HyperTransport Technology (HTT) which was earlier called Lighting Data Transport (LDT). This is similar to FSB on Intel systems which uses Assisted/Advacned Gunning Transreceiver Logic (AGTL+)[Ill explain AGTL+ in upcoming articles].
On AMD systems the bus speed is the base HT speed from which we get the HT Link speed.
HT Link freq = Base HT x HT(LDT) Multiplier
Usually the HT multiplier swing is limited between 1 and 5(max).
200 x 5 = 1000 MHz HT Link
The HT link speed is used to get actual data rate of the system bus. Since HTT can transfer data twice per clock pulse (Double Data Rate) the effective can be calculated as :
HT Link x 2 (DDR) = Effective Bus Data Rate
1000 MHz x 2 = 2000 MHz Effective Bus Data Rate
As on Intel systems the CPU speed here is also obtained by multiplying the CPU Multiplier with the bus speed (Base HT) which is as follows :
CPU speed = Base HT x CPU Multiplier
200 x 13 = 2600 MHz = 2.6 GHz
END …
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