How would you like a PC 30% or more faster, for FREE, and with very little risk? It's a bit of a no-brainer really isn't it? We all know that at some point in the future we will have to upgrade our PC and this is usually to resolve a performance related issue. It's too slow, it stutters and freezes or it's simply so slow its unusable with the new versions of Windows, games or applications software.
Guerrilla Overclocking Primer
Why Overclock?
How would you like a PC 30% or more faster, for FREE, and with very little risk? It's a bit of a no-brainer really isn't it? We all know that at some point in the future we will have to upgrade our PC and this is usually to resolve a performance related issue. It's too slow, it stutters and freezes or it's simply so slow its unusable with the new versions of Windows, games or applications software.
Overclocking is becoming more popular than ever as a means of getting more out of your PC without having to spend any money. With economic times as they are this is very compelling. We are unique amongst just a few PC builders in offering pre-overclocked and optimised PC's at the leading edge of the performance curve with our Cryo Boost technology™.
What is 'Guerrilla Overclocking'?
Guerrilla Overclocking is a method we have developed for ourselves that balances time required to achieve a given overclock against the benefits. One search of the internet or browse of the overclocking forums will reveal pages and pages of overclocking material that is hugely time consuming, full of omissions and errors and assumes a lot of prior knowledge and experience. Our complete process and method we use to produce our customer PC's includes:• Hardware design,• Overclocking Techniques and Procedures, • Monitoring and Alerting, • Database Logging and Reporting, • Operating System Configuration, • and finally Stress and Soak testing.
We aren't going to go into the full method in this hands-on practical Primer we are just going to cover enough to get you quick results so that you can go solo with your own overclocking by the time you have reached the end of the very few pages of this article. You could consider it a method for the time poor overclocker not only does it not take long to learn it also takes only a few minutes to implement in practice. Though don't misunderstand us overclocking is very complex and it's as much of an art as a science and the complexity and challenge of extreme overclocking should not be underestimated. What we are trying to give you here is a significant boost in performance with a few simple measures and without all the complexity.
Isn't it risky?
We have been overclocking memory, graphics, processors and motherboards now for over ten years and we have not had one single production failure that occurred as a consequence of overclocking. We've had many failures in the lab but then that's what the research lab is for! We test many configuration options and run many benchmarks to work out were the safe limits are and there really is quite a long way to go before you reach anything like a danger point in overclocking the hardware. There's a lot of headroom built into the quality end of the technology to cope with widely varying circumstances in which it may end up working. For example it's quite typical for a current Intel Core 2 Quad processor with a 2.66GHz factory set clock speed to run in excess of 3.5GHz with no adverse consequences.
Overclockers Mission Control
There are all kinds of tools out there from different vendors that will overclock for you, our advice is leave them on the DVD and don't bother installing them. They tend to make dynamic performance changes based on assumptions, monitoring data and utilisation and can lead to confusing stability problems or artificial performance ceilings. They also tend to 'soft overclock' your PC in that unless the tool is running in your instance of windows then there is no overclock in effect at all. The only tool you really need is your BIOS and your BIOS helps you better understand what is going on. The great thing about the BIOS is it's really, really simple and it does what you tell it. It isn't big enough to have much intelligence it's really just a heap of data that tells your PC how to run in a way that will make it work as you expect it to.
There are lots of complex settings in your BIOS and some are even important, many just aren't. We are going to introduce you to just a few key ones you need to know about and that make the biggest difference.
The Clocks
More clock speed generally makes for more performance as the processor has more cycles per second in which to do the same task, so it does it quicker. The clocks also refer to memory and interface bus speeds as well as the processor. We will aim for the highest common possible clock speed. You will normally find these settings on an advanced page sometimes called Advanced, Tweaker, Overclock or Guru settings. The table below shows you typical high settings for 1333 and 1600 FSB motherboards and CPU's (or typical upper and lower limits).
The FSB speed is 4x the External clock, and the CPU speed is = Multiplier x External Clock (i.e. Clock = 2.66GHz = 8 x 333 and FSB = 1333MHz = 4 x 333). Also note on all but Intel Extreme and AMD Black Edition processors the multiplier cannot be changed and is 'locked'. Simple isn't it!
Now if you own a good quality branded PC or Motherboard with an Intel or nVidia chipset produced in the last three years your PC will be capable of the speeds above and more. With an nForce 780i or Intel P35/X38 chipset or later you will easily exceed an FSB speed of 1600MHz.
In our experience tweaking the memory speeds is far less significant to overall performance and if you really are time poor just leave this at the default settings. The thing to watch out for is that by default when you come to increase your FSB speed you will increase memory speed as they are linked and it's highly likely your memory will stop working well before you reach FSB or processor limits. So remember to manually 'lock' memory speeds to their default working speed and latencies, usually 800MHz or 1066MHz for the former, Auto for the latter. Each time you increase your FSB you may need to recheck that you haven't inadvertently increased memory speeds.
The Volts
If the electrical power to your PC (in volts and amps) had no effect on the clock speed we wouldn't care about voltage, but it does. Like us human beings, the more work your processor does the more food (in volts and amps) it needs to keep it going. So we have to carefully feed it more volts, in doing so it draws more amps (remember ohms law; more volts == more amps!). Here in lies the nub of overclocking and what differentiates a good fast one from a poor slow one. If we increase the voltage and therefore increase the current flowing (in amps) the resistance of all the circuitry involved dissipates some of this increased energy in heat. The resulting heat increases the resistance of the conductors and we enter a potentially vicious cycle where more heat creates more resistance which creates more heat etc. This cycle is known as thermal and or current runaway. It's conceivable that adding more voltage increases resistance and actually reduces overclocking headroom and we have observed this phenomenon empirically. So don't unnecessarily increase your voltages we want them to be as low as we can get away with.
The kinds of increases we are going to make in this exercise are in the millivolts range. The wires inside integrated circuits are finer than a human hair, a lot finer, so we have to make tiny changes or they will burn up, or resistance will go sky high and they will cease to function. That lump of copper on top of your CPU (known as the IHS, or Integrated Heat Spreader) can heat up to 70C and beyond. Now imagine how hot the insides of your CPU that are finer than a human hair need to be to be able to raise the temperature of several grams of copper that much! Now we've scared you to death about increasing voltage stop worrying about it because the table below gives you safe working voltage limits that keep you well inside a safe range.
Other settings
There are a few other settings below that you can optionally change however they should only be required for fine tuning an overclock near the limits of stability and practicality.
Boosting PC performance in six steps
Ok now you know all about the basics of overclocking and the limits around which you are working we can now give you our one minute and simple six step process to boosting your PC's performance:
1. Get into your BIOS and go straight to the page of settings for the Bus speeds and CPU settings
2. Set your BIOS Bus speed and CPU settings to manual which should open up a range of the settings described above, and we will adjust in the next steps
3. Set your CPU VCore voltage to 1.4V
4. Set your CPU VTT (FSB Termination) to 1.3V
5. Make sure your RAM speed is manually set within its limits (usually between 800 and 1066MHz DDR2 or 1333MHz DDR3)
6. The next step depends on the type of CPU you have:
6a. For 1333FSB CPU's (multiplier locked):
6a) i. Set your external clock to 400MHz, or, your FSB to 1600MHz, whichever is available in your BIOS
6a) ii. Giving you a new processor speed of up to 3.6GHz
6b. For 1600FSB CPU's (Extreme multiplier unlocked):
6b) i. Leave your external clock at 400MHz
6b) ii. Increase your multiplier to 9, giving you a new processor speed of 3.6GHz
7. Save your BIOS settings and Reboot your PC and enjoy up to a 30%+ performance boost
This works just as described with 95% of the systems we come across. If it doesn't work for you simply leave the voltages as described and drop the External clock, Multiplier or FSB speeds back to the default and increase them slowly a step at a time until you reach a point at which you system becomes unstable, then drop it back again. This is more reminiscent of the typical overclocking process described elsewhere. It's an iterative process that stops when you find the edge of stability and go beyond it ubt this way of doing it is considerably more time consuming.
Arghhhh, My PC has frozen is it broken!?
If you have stuck to this primer and the guidance on voltages above your PC WILL NOT be broken. In fact changing the clock speeds alone is highly unlikely to do any damage whatsoever. We have never seen an instance where this has caused damage even in the labs under destructive testing conditions. Heat kills, and Voltage increases current which increased heat! So be very careful when increasing your voltages and if you aren't experienced at overclocking don't go over what we recommend above.
Now my PC won't boot If you make some changes to the BIOS and your PC wont boot, all is not lost. Most modern motherboards have what's commonly called a Crash Free BIOS or something similar. In these instances a hard power off or simply another soft reboot will put you back to your BIOS screen with the default factory BIOS settings temporarily loaded so that you can change your overclock settings. Simply reduce your overclock as described above or start back at the default settings and gradually change things rebooting each time until you find what is causing the instability. If you don't have a crash free BIOS or it isn't doing the job then you will need to clear your BIOS CMOS memory. Reference your motherboard manual for instructions on how to do this (it's usually as simple as a button or a jumper setting). Alternatively simply remove the CMOS battery on your motherboard and this will achieve the same thing.
Important Assumptions
We make a number of assumptions about the hardware setup of your PC in order for you to get the full benefit of this primer. • You have a good intermediate level understanding of PC hardware, software and operating systems • You are comfortable getting into the PC BIOS and changing settings • You are comfortable changing the Configuration of your OS • We don't cover overclocking your graphics but we do recommend you do so as it could be the component holding you back, the same goes for your memory • Your PC has adequate cooling and good quality components installed
Conclusion
When you consider that a new PC three years ago is now about 20-30% slower than the latest PC today you can see that doing this now to a three year old PC gets you a PC at current levels of performance at no extra cost. It's hardly a trivial exercise and it's not for the faint hearted or inexperienced but once you have grasped the basics it's surprisingly simple to do and you get very worthwhile results.
Alternatively buy your next PC from someone like us and we do all this and more for you and warranty it on top. What's more you get a PC that will be two to three years ahead of the competition from the point of purchase. In industry terms this gives you almost 100% longer to get back your return on investment essentially halving the price of the PC.
Disclaimer: Cryo Performance Computing UK accept no liability for any consequences implied or explicit in connection with using this primer.
Comprehensive Guide to Home and Small Office Networking
In today's digital age, seamless connectivity across various devices within homes and small offices is crucial for both productivity and leisure. This comprehensive guide delves into the intricacies of networking standards, devices, and configurations to optimize your connectivity. We'll explore the layers of network architecture, address the importance of network security, and provide insights into setting up and troubleshooting your network.Using Your PC in a Home Theatre: The New Era of Entertainment
Imagine unwinding at home, watching a movie, surfing the web, enjoying your favorite music or TV show in high-definition, or diving into a few hours of intense gaming. The Home Theatre PC (HTPC) makes all this possible with just one device.How to Build Your Own PC - the Smart Way (part 2)
So you think you can build your own PC? A little knowledge is a dangerous and expensive thing if it all goes wrong. This is part two of an article that dissects a PC build component by component illuminating the points about which you need to make wise choices.