Beginners Guide to Overclocking

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Warning
Before we start, a word of warning, overclocking may void your warranty and increases the risk of premature death of you're hardware. The use of extreme voltages can lead to instant death of hardware if you are careless. Overclocking can also kill your Windows install so back-up anything important!

The Basics
Overclocking is the process of making your hardware run faster than it was orginally sold at. It's possible because of the way Intel and AMD run their manufacturering processes. All processors of a common core design are created equally and a process of speed binning is used to decide what speed it's sold at. This is essentially testing a sample (or perhaps all) from a batch to determine how quick they can run at. But if the process produces more chips that can run at a higher speed than they can sell they will often sell these CPUs at a lower speed. It's these chips that are the best for overclocking.

The Essentials - Hardware
CPU - Read around the forums and see what the current "buzz" is as regards chips offering excellent overclock potential.
Motherboard - Often overlooked, but absolutely essential. The MB itself must be a good overclocker. There's no point getting a good clocking CPU if the motherboard itself isn't
RAM - Though not essential due to memory dividers, RAM can be overclocked as well. In many cases vendors sell the same RAM chips in their mid range (and even cheaper) RAM as they do for their high end RAM. Only difference is the price. More info on RAM can be found here and here
CPU Cooler - Air, water or phase, more info on water/phase can be found here. The cooler a processor the faster it can run and the more volts you can put through it.
Thermal Interace Material - TIM is the compound between the CPU and HS. It displaces any air between the two surfaces improving heat transfer (air is an insulator). IC Diamond, Arctic Silver 5, Coollaboratory Liquid Metal and Arctic Cooling MX-3 are considered some of the best performing TIMs, but the TIM supplied these days with most heatsinks will perform to within a degree of two of these so it's not something to worry about if you don't have any. Review of some TIMs here

The Essentials - Software
BIOS - The BIOS contains the basic settings of your system and is where all the overclocking options are contained. Manufacturers often release improved BIOSes that offer better overclockability and stability. Refer to the MB manual for information about updating you're BIOS.

Monitoring Software - It's handy to know what voltages and temperatures you're tinkering are producing. A program specific to your MB is often supplied on the driver disk, others include:-
Speedfan - Gives CPU, MB and HD temperatures and also voltages
Core Temp - Neat little program that tells you the core temperature and also the max safe temperature
Real Temp - Similar to Core Temp above

**Getting Core Temp to Work in Vista64**
Read here to find out how to get Core Temp to work in Vista64

Stability Testing Software
Prime95 - Is also considered one of the main benchmarks for stability - make sure you enable the checking options in the advanced menu
Intel Burn Test - IBT is considered the other main test, though with Prime using AVX they are both similar in effectiveness.
OCCT - Nice little program that provides a good quick stability test but also contains the Linpack stability test as well which is considered one of the main benchmarks for stability

primeg.jpg


3dMark - Whole suite of graphics benchmarks that can also be used to test CPU/RAM stability to some degree
Memtest86 - RAM tester, in my opinion it no longer cuts it, Prime Blend seems more sensitive to RAM instability
Windows Memtest - Does a better job of detecting memory errors than memtest86 in my opinion

Other Tools
Clockgen - Allows overclocking in Windows for supported MBs
Systool - Gives a whole suite of overclocking tools
ThrottleWatch - Provides useful indication on whether your CPU is throttling or not
CPU-Z - Provides fairly detailed CPU and RAM information
Everest - Suite of handy tools


Basic Concepts
Before starting overclocking make sure you know how to clear the CMOS (the memory that holds the BIOS settings) in case of settings that don't let you get back into the BIOS. Details on how to do this are in the motherboard manual but it typically involves moving a jumper on the motherboard or removing a battery (or both).

Front Side Bus (FSB)/Base Clock (Bclk)
The FSB is the key frequency that we are interested in. The CPU clock speed and RAM speed are derived from it as well as the A64s Hypertransport frequency (though HT provides most of the functions previously associated with the FSB, the CPU clockspeed is still manipulated by the FSB option in the BIOS). This is now commonly referred to as Base Clock on Intel systems, but is equivalent to the FSB.

CPU Multiplier
The CPU multiplier determines the overall speed of the CPU by multiplying the FSB. For example a multiplier of 10 and a FSB of 200MHz results in a clockspeed of 2000MHz (2GHZ). Most CPUs have restricted multipliers, A64s are locked upwards, Intels are generally fully locked. AMD "Black Edition" and Intel Extreme Edition or "K series" chips are fully unlocked (within reason). Can also be refered to as FID on A64s.

Vcore
Vcore is the voltage supplied to the CPU. Increasing this voltage in moderation allows you to overclock the CPU more at the expense of higher loads temps. What's a safe Vcore? Personally I'm quite happy with a 20% overvolt on air if temperatures are acceptable, others might not be comfortable with that. Can also be refered to as VID on A64s. VID on Intel means something else and should not be confused with Vcore.

Vdrop
Vdrop is the difference between the selected voltage in the BIOS and the actual idle voltage, typically this is about 0.05V though new P35 boards seem to be a lot less affected by it. THIS IS NOT Vdroop.

Vdroop
Vdroop is the difference between idle voltage and load voltage. The droop is actually related to the current draw of the CPU and is a peculiarity of Intel CPU design specs and as such AMD setups don't suffer from it to any great deal. Vdroop gets progressively worse as you load more cores up on multicore CPUs. Most recent Intel based boards now have the option in the BIOS to override the circuit in the motherboard power circuitry to pratically eliminate Vdroop, this is commonly called Load Line Calibration or LLC. Intel advise that enabling it may shorten the lifespan of your CPU and/or motherboard, so be aware. Other boards can usually have it overriden by a simple pencil mod, or with the addition of an extra resistor by soldering. 680i boards are notorious for high Vdroop with quad cores.

RAM Divider
When I refer to RAM clockspeed I always refer to the actual clock rate, not the double data rate. For PC3200 RAM this is 200MHz, not the 400MHz quoted for the DDR. Dividers describe the relationship between the FSB and the RAM clock speed. BIOSes typically do this in two methods, the first is to give you the RAM speed in relationship to the FSB at stock (so for example 166MHz would represent a ratio of 5:3 - FSB:RAM). Others will just give you the actual ratio so that you can work it out for yourself. More recent boards now give you the actual RAM speed and this chances as you chance the FSB. Might also be called DRAM Frequency.

VDIMM/VDDQ
VDIMM is the RAM voltage. Always set the RAM voltage manually, as many MBs will default to 2.6V for DDR and 1.8V for DDR2, when in fact to run at their rated speed most high performance chips will require significantly more (2.8-2.9 typically for DDR and 2.2 for DDR2). Visit the manufacturer's website to find out the specific voltage for your RAM. Note that RAM can be overclocked by increasing the voltage above this value as well. Also now commonly referred to as VDDQ, care should also be taken with matching the RAM sticks required voltage to that of what is safe for integrated memory controllers, particularly on i1366 or Sandy Bridge based chips.

Chipset Voltage
The chipset helps interface the CPU with other components on the MB and each type of chipset has specific features like whether it supports SLI or Crossfire or RAID. The chipset may have multiple voltage settings associated with it such a Vnb, Vsb, Vmch, Vchipset, Vfsb, Vpll. Each having an effect on memory stability or maximum stable FSB.

Hypertransport Frequency/Multiplier - A64s
This is specific for A64s and X2 processors, the hypertransport is 1000MHz, derived from 5xFSB. Many boards can't handle significant overclocks of this bus, so it's best to reduce the multiplier to 4 or 3 depending on how high the FSB is. The performance difference between 800 and 1000MHz is insignificant so don't be concerned if you're particular combination results in a relatively low value. Hypertransport settings may also be referred to as LDT frequency etc.

PCI/AGP/PCI-E Clockrate
These need to be locked, in the bad old days these were often derived from the FSB mean as you increased the FSB so did the PCI bus. This would often prove do be limit of overclocking not the CPU. Where the option exists it's best to set these to PCI - 33MHz, AGP - 66MHz, PCI-E - 100MHz. Leaving them on Auto may lead to unpredictable results.

Cool and Quiet/Speedstep
AMD's Cool and Quiet and Intel's Speedstep is a feature that underclocks your CPU when it's idle to reduce power consumption. For Speedstep, the multiplier is reduced to x6.

Temperatures
Temperatures are the enemy of overclockers. Reducing temperatures has a direct effect on your ability to overclock a CPU, so by using increasingly aggresive cooling methods will nearly always allow you to overclock further for a given voltage. What's a maximium safe temperature? Use Core Temp to give you indication of the maximum temperature that a CPU is designed for. Recent P4s and Core 2 Duos will throttle if they get hot. Throttling is where they either reduce the clockspeed by reducing the CPU multiplier or by inserting idle instructions into the CPU to reduce the temperature. Typical figures are otherwise about 60C for A64s and a bit more for P4s/Core 2 Duos, though throttling should protect them. Do further research to find out what is considered safe for your particular chip.

Overclocking
The process of overclocking is an iterative process, where you gradually make changes and test to see how stable it is. You should only be making one change at a time so that you can assess if the change improves things, if it doesn't change it back and change something else. Also keep a note of your last stable settings so that you can revert to them if you reach a point where several minor increases in voltage etc makes no difference to stability.

If you're not comfortable with any of the voltages you're applying or temperatures you're reaching then stop and get a second opinion as there is plenty of people on the forum who are willing to give advice.

First off, in the BIOS set as many settings as possible to manual rather than auto. And switch on/off any features particular to your board that hinder overclocking (things like Cool and Quiet for example).

Finding Max CPU Clockspeed

1. Increase the FSB by 5MHz.
2. Decrease the RAM divider if required to keep it at stock or less
3. Run the standard OCCT stability test
4. Run it for 1hour, it may be worth testing for FSB stability as well if you haven't already proven FSB stability at this point. If it passes return to 1, if it fails goto 5. Keep an eye on temperatures whilst testing.
5. Increase the Vcore a notch and repeat the testing phase until temperatures are getting close to the maximum for your CPU, or the voltage increases don't allow you to overclock any further.

Once you've reached a point where you've maxed out voltage/temperature or you've reached a point where you're not comfortable with the voltage you're using run Prime/Linpack etc for longer to check for stability. If you find that it's not quite stable after the longer testing knock 5MHz off the FSB and retest until stable.

Finding Max FSB

Additionally, for CPUs that allow you to change (lower) the CPU multiplier, it is handy to determine what the maximum stable FSB of you're MB is. If you don't have the option to lower multipliers skip this section.

1. Increase the FSB by 5MHz.
2. Reduce the multiplier and RAM divider if requried so that both are at stock speeds or slightly less.
3. Boot into windows and run Prime Large FFT Test, this will also stress the chipset and RAM so will be testing the FSB not just the CPU.
4. Run it for 30mins monitoring temperatures, if it doesn't fail goto 1 again, if it fails, go to step 5.
5. Increase the chipset voltage a notch and go back to 4.

Eventually increasing the voltage will have little effect on increasing the FSB. At this point run a full range of tests and increase the duration of your Prime testing to 8 hours (some recomend more, some less, for me 8 hours is how long I'm at work give or take). If it fails any tests, reduce the FSB by 5MHz and retest until the required level of stability is achieved.

Sandy Bridge "K series" Overclocking
Due to the integration of functions into the CPU that where previously handled by the NB it is no longer feasible to get meaningful FSB overclocks with Sandy Bridge chips. To get round this, Intel have released K series chips, which when coupled with P67 motherboards will allow you to overclock using the multiplier.

It's worth noting that you can exceed safe Vcore with everyday cooling (particularly water) and so care should be taken when overclocking SB chips. Intel has the following guidelines for safe voltages:-

SBvoltages.jpg


The datasheet currently doesn't give a safe limit for Vcore, but the recommendation is to not exceed about ~1.38V for long term use. The use of 1.5V seems to induce degradation of chips in a matter of weeks!

SB chips have a FSB (or to be more specific bclk) of 100MHz, so increasing the multiplier by 1 will increase the CPU speed by 100MHz. This is quite a big jump, particularly once you are near you maximum stable overclock, so you may find that you suddenly need to make quite large changes in voltage to get it stable at that final clock speed.

Memory Overclocking
I'm not going to say much about RAM overclocking, though the process is roughly similar to that of CPU overclocking. With A64s it's easy to test RAM overclockability by reducing the CPU multiplier so that when you increase the FSB the CPU is still below it's stock speed and only the RAM is running faster than stock. On Intels once you've established a stable CPU overclock you can increase the RAM divider to start overclocking the RAM and then manipulate the FSB so that the CPU remains below the stable maximum. You may find that with both overclocked you're CPU overclock might be slightly reduced. On top of overclocking RAM you can also tighten timings, more information can be found in the Memory stickies.

More on Stability Testing
Prime95

To maximise the stress on the system when running the tests change it's priority to Real Time. This ensures that it gets priority over other programs that are also running and maximises the stress on the CPU.

Small FFT
Hits the CPU the hardest, doesn't use RAM much if at all so is a very good indication of CPU stability.

Large, In Place FFT
Increases FFT length, making use of more RAM. This provides a good test of NB and RAM stability when overclocking the FSB

Blend
Blend runs a mix of Large FFT for several hours, then Small FFT for several hours before starting the sequence again, as such you must leave it for a considerable amount of time to be thorough (24hours is a good starting point).

How Long to Run?
Very much a personal preference this one, my opinion is that for the overclocking process 30mins is enough, as it'll typically fail in the first 10mins if it's not very stable. Only once you reach a point that you can't get anyfurther should you be looking to run extended testing for x hours. 2 hours might be enough for some, 24 hours for others, but it seems reasonable to do it during the hotest time of the day.

SuperPi(Mod)
More of a benchmarking tool than a stability test, but the 32MB test can give a quick indication of overall stability and tests both RAM and the CPU. For multi cores you must install the program into a separate folder for each core and run each one at the same time.

Select Calculate in the menu bar and then whatever test you want to run in the drop down menu.

3dMark
Graphics benchmarks that also stress the CPU and RAM so can be used as good overall system stability tests. 3dMark is also sensitive to things like driver issues and of course GPU overclocks so it's a good idea to run these before you start chaning things to make sure that any issues are ironed out first.

Memtest86
Memtest86 is a RAM tester that runs off a bootable floppy/CD. Some tests (tests 5 and 8 I think) are thought to be more likely to fail than others and also which test it fails on should give an idea apparently what setting to change to make it stable. 20 loops is enough in my opinion.

Either way, lately I've found Prime Blend to fail within seconds due to RAM when Memtest has ran for several loops without finding a single error. Alternatively Windows Memtest also seems to give good results.

What is a Stable System?
In my opinion a stable system is one that doesn't crash/error when using whatever programs the user uses. Many will argue that it's only stable if it doesn't crash no matter what you throw at it, but if you're not ever going to be fully stressing the system why bother spending days ensuring it?

Either way, you can only prove a systems instability and your mileage may vary.

Getting That Little Bit More

Improve Your Motherboard Cooling
Replacing the manufacturers supplied TIM on the northbridge and voltage regulators can help reduce their temperatures increasing stability at high frequencies. If you use conductive goop make sure you don't join any conductors.

Remove Your Integrated Heat Spreader
Guide here, only applies to S939 A64 chips. Can lead to you damaging your CPU.

Voltage Modifications
Careful selection of your motherboard these days can mean you won't require to make any physical modifications to the MB to get the voltages you need. Volt mods require either to use a pencil to decrease the value of a resistor by rubbing on it with the tip leaving a layer of graphite or to solder resistors in place or in parallel to change the particular values of resistance on the board. I would advise that you do your own research before starting though.

Previous Overclocking Guide

Jokester

Dear Jokester,

I am looking for an COMPLETE IDIOTS GUIDE specific to my card - could you here me with this please:

Hello Overclockers,

My System:

Intel Core i7 4790K, 1150, Quad Core, 4GHz, 4.4GHz Turbo, 1250MHz GPU, Retail - BX80646I74790K
MSI Z87M-G43 Motherboard
8GB DDR3 2133MHz Kit
3GB Asus GTX 780 DirectCU II OC
Corsair CPU Cooler H100i Hydro
620W Seasonic Evo Bronze Powersupply-SS-620GM
2TB 7200rpm Hard Disk Drive (storage)
240GB Solid State Drive (system)
128GB Solid State Drive (dedicated game drive)
27" AOC IPS Monitor
Windows 8.1 64-Bit

I brought a pre-overclocked system from YoyoTech - they say that it is OC'ed to 4.4GHz. CPU-Z seems to concur and shows 4.4 although the number moves up and down, I thought it would stay on 4.4GHz? My ignorance begins..! I am happy with the uppey/downy 4.4GHz for the mo.



What I would really like some help with is OCing my Graphics Card please. All the reviews on my card say it is a 'good overclocker' so it seems silly not to OC it...

I have had a fiddle with GPU Tweak and all the videos I have found so far, start with a different power allowance. i.e. the video raises the max power to 110 and mine goes to 103. There are also padlock icons, which I assume means that two sets of values are linked and when you move one the other setting moves too. On opening GPU Tweak none of my settings show the padlock symbol. Also, none of the vids show how to set up a profile, nor do thry explain if the utility needs to be running to use the OC or what.

In short. I haven't got a clue. Well, that is not entirely true, it would be fairer to say, I do not have the confidence to do it on my own.

So, could I ask for someone to give me an idiots guide, a-blow-by-blow-leave-nothing-out-even-though-it-seems-obvious-guide.

Thank you in advance!

I have had a quick fiddle with GPU Tweak and

Mr Crimp
 
Soldato
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Posts
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I brought a pre-overclocked system from ****** - they say that it is OC'ed to 4.4GHz. CPU-Z seems to concur and shows 4.4 although the number moves up and down, I thought it would stay on 4.4GHz? My ignorance begins..! I am happy with the uppey/downy 4.4GHz for the mo.

Mr Crimp

You need to edit out the competitor you have mentioned, as its against the forum T&Cs
 
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Great guide but a bit does go over my head still learning haha.

I will soon be purchasing my parts for my first for which I have spent a fair amount of time to hopefully get the best I can afford and hopefully give me some oc potential. The main components are:-

I5-4690K

Cooler Master RR-212E-16PK-R1 Hyper 212 Evo

MSI Z97 Gaming 5 Intel Z97 (Socket 1150) DDR3 ATX Motherboard

HyperX Savage 16 GB (2 x 8 GB) 2400 MHz DDR3 CL11 UDIMM XMP Memory Module

MSI NVIDIA GTX 970 Gaming Twin Frozr HDMI DVI-I DP Graphics Card (4GB, PCI Express, DDR5, 256 Bit)

This is about as much as I can do with my budget and hopefully this will allow me to do some oc if there are any potential improvements I could make then please feel free to guide me.

Thanks

SavyM
 
Soldato
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Location
Birmingham
I dont understand the voltage and what im supposed to do with it guys.

My motherboard has an in built profile for 4.4 ghz on a 6600k and i can leave the voltage in auto. But i dont know whether this is optimal and if not what i need to do. I dont understand what fixing the voltage at a set value will do to the ability of the cpu to step up and down to respond to load.

The guide doesnt mention what to do with fan profiles.
 
Soldato
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Location
Rollergirl
I dont understand the voltage and what im supposed to do with it guys.

My motherboard has an in built profile for 4.4 ghz on a 6600k and i can leave the voltage in auto. But i dont know whether this is optimal and if not what i need to do. I dont understand what fixing the voltage at a set value will do to the ability of the cpu to step up and down to respond to load.

The guide doesnt mention what to do with fan profiles.

You need to assess how much voltage is being applied and what the resultant cpu temperature is on full load conditions. Is your cooling adequate?

Auto voltage is bad, if you're overclocking to 4.4GHz then you should be in control of the variables rather than leave it to BIOS.
 
Soldato
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Location
Birmingham
Ok. Id like to do that. But im not sure what/how, and if ill lose the adaptive /speedstep thing. I have a thread on this just below where ive included a screenshot of the cpu monitors if you would take a look its really appreciated.
 
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Just been thinking about doing some base overclocking rather than running stock speeds, especially seeing as my rig is watercooled.

I printed off the OP' guide and now im in the bios trying to set as many things to manual as i can and i found a performance upgrade option under advanced frequency settings. Is that worth using?

Also there is a cpu upgrade option with an auto clock ratio where i could select to put my 6600k on either 4.2/3/4 would either of those give me something stable ?
 
Associate
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Posts
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Brilliant guide so, once again, thanks to Jokester.

Monitoring software in the links seem out of date though. What software do folks use for monitoring and tesitng RAM, CPU, temperatures etc these days please ?
 
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