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Is liquid cooling worth it

Today we are going to solve the overclocking problem. Whether you are a PC game veteran or just hanging out, overclocking can cause many problems. The biggest of these questions is "Is it worth overclocking?" To answer this question, we must first look at other important overclocking questions.

overclocking is a more complicated topic, but after reading this article you should have a deep understanding of it and whether it is suitable for you.

Overclocking refers to improving the performance of components to make their performance better than the factory default settings. In the case of CPUs and various other components, this enhanced aspect is "clock speed." Clock speed refers to... well, component speed; however, in order to achieve the ideal overclocking, you only need to adjust the clock speed and not everything. The general idea of

overclocking is that by increasing the clock speed of the component, you can get more performance from it. Let's take a look at the components in your system that can be overclocked.

Now that you know what overclocking is, we can start to discuss the various components that can be overclocked and some surface considerations for each component.

First comes the CPU ... as long as your manufacturer allows it. AMD

has a good track record in this regard: Since the Opteron series, most of its mainstream CPUs can be overclocked, including the recent Ryzen series and FX chips. On the other hand, Intel

strictly limits the overclocking of the "Kseries" or "Xseries" processors. For example, my PC is using i5 4690, which does not support overclocking. Although it is otherwise the same as the more expensive i5 4690K, it does support overclocking.

For other components, the benefits of overclocking sometimes seem negligible or almost imperceptible. But for the CPU, especially when you use high-end cooling solutions, you will see bigger performance improvements, sometimes even 1 GHz or more. However, the CPU is also the most complex component for overclocking, making it difficult for beginners to hit these numbers. The

GPU can also be overclocked. At the time of writing, none of the major desktop GPUs are locked to prevent overclocking. But what does overclocking your GPU actually do? Well, first of all, there are some "problems":

In the overclocking world, enthusiasts refer to something called a "silicon lottery". This basically means that certain components will improve during the manufacturing process (this can show up on the CPU as well, but is most often cited in relation to the GPU). Therefore, they can better cope with the pressure of overclocking; better quality means more room for overclocking.

Unfortunately, it is impossible to know which components are the silicon lottery winners. You and your friend can buy the same GPU from the same manufacturer at the same time, but they may be able to achieve higher stable overclocking on their cards than you can. That said, despite the shortcomings above, the GPU can easily become the most popular overclocking component. One of the reasons for this may be the existence of software such as MSI Afterburner that makes overclocking easy, as well as a large number of documents and helps in managing overclocking forums on the Internet.

RAM is interesting. In terms of complexity, CPU overclocking is there, but in terms of performance improvement ... well, it will be different.

Newer RAM standards, such as DDR4, will certainly show more significant changes to your application than DDR3 or (God bless) DDR2, which generally have no significant impact on performance.

However, even in the case of DDR4 RAM, higher speeds are not usually that obvious in most applications, although in some cases overclocking the RAM is actually very important. The most prominent of these scenarios that

thinks of is the AMD APU. Since the APU is a combination of CPU + GPU on one chip, they must share memory resources. Generally, the GPU has its own RAM, which is much faster than desktop DDR3 or DDR4 RAM, but for APU, you have to use slower desktop RAM. In this special case, it is strongly recommended to overclock the RAM, which will bring you a significant performance improvement.

Last but not least is the screen! Yes, your monitor can be overclocked. sometimes.

In this case, overclocking may mean running at a higher or higher refresh rate than the commercially available refresh rate. Most commonly, you will see this on a high refresh rate monitor ... with an asterisk.

For the sake of simplicity, I will use my own BenQ 75Hz monitor as an example. The monitor I use can only run at 75Hz when it is sold, and the resolution is much lower, 800x600. However, product reviews indicate that it can run at native 1080p with 75Hz overclocking enabled, and since I bought this monitor 4 years ago, I have been doing it with no problems.

With the Nvidia or AMD control panel, overclocking your monitor is a breeze. You can try whatever resolution or refresh rate you want, if it doesn't work ... it will just reset to the latest working resolution and refresh rate.

However, in general, you can only increase the refresh rate in a situation like mine. For example, you cannot pass a 1080p monitor to 4K or a 60Hz monitor to 144Hz. The

performance improvement is the biggest advantage, especially for CPU overclocking and RAM overclocking under certain circumstances. Overclocking the GPU and display will usually only increase slightly, but it is still worth it, especially if you need higher performance to reach 60FPS in your favorite game.

This was more applicable in the past than it is now (we will explain why below), but there are reasons to believe that if you can get higher performance from cheaper products (especially CPUs), then you can save money. You will spend on one

It is an unavoidable deficiency of overclocking. Higher performance means more power consumption, which means more heat. To compensate for this, you need to invest in better cooling settings, either by improving the overall case cooling or by using better coolers for individual components that are overclocked.

This is the real risk of unstable overclocking, but unstable overclocking. If you have achieved stable overclocking and will not continue to operate at temperatures as high as 194 ° F (90 ° C), it is unlikely that you will shorten component life significantly.

With that being said, if you're not careful when overclocking, especially components like CPU or RAM, you can risk taking them too far and burning them out. For this reason, when you start to experience hang-ups or instability, it's important to test overclocking in incremental steps up and then down.

jitter is another major issue when overclocking. Even if your overclocking is stable, it can still appear in rare cases. For example, about seven months ago, I achieved a seemingly stable overclocking of the GTX 760. During this time, I have experienced two Overwatch crashes due to overclocking, but this situation is very rare.

Even if you have achieved stable overclocking, there will be very few cases where the program or the system hangs. If you follow this path, you must be prepared.

is mainly suitable for CPU overclocking and RAM overclocking. Bottom line: Now if you want to overclock these components, you have to buy a motherboard that is overclockable. Entry-level

motherboards from AMD and Intel no longer allow users to overclock their CPUs, although AMD has done so in the past. It is expected to spend 30-50 dollars more on overclocked motherboards and 50-100 dollars more on overclocked CPUs (take Intel as an example).

In the old days when overclocking was less regulated, this was a very reliable way to save money and get more performance from the system. Although this is still possible, the sad truth is that if you don't have the courage to make the biggest investment, a system with overclocking capability is usually much more expensive than a system without overclocking capability.

In addition to the additional hardware required to make overclocking easier to get started, you also need to invest in enough cooling (especially for your CPU, which may not even include a cooler) to push these clocks higher.

Once you start to enter the high-end, overclocking is definitely worth your extra money. However, in the mid frequencies, especially the low frequencies, this is usually not the case.

GPU and monitor overclocking generally pays off. They will not be premium at an extra price, as long as you are willing to invest time and effort to achieve these overclocks, yes, absolutely. Overclocking

RAM is generally not worth it. However, in certain scenarios, like using AMD APU, it should be like this. However, even in these cases, due to the complexity of the overclocking process, you may want to start buying better RAM. Due to the mandatory investment in overclocking compatible motherboards,

CPU overclocking is the most expensive. With an Intel CPU, you will get an additional price of the letter "K" or "X", which can also be quite high. So why overclock the CPU? Well, from a performance point of view, it has the greatest benefit.

So should you overclock your CPU? It's not worth it, at least in our opinion, unless you spend $1,000 or more on the system. But don't worry, because you don't need to overclock to get stable performance.

We hope this will help you better understand overclocking and when it is worth overclocking. For more information about overclocking, we recommend checking out communities such as r/overclocking, overclock.net, hwbot.org, and Tom`s Hardware's overclocking forums.

If you have any immediate questions, please feel free to ask in the comments below. Now... we are out!

To quote Uncle Ben, the guardian of Spider-Man, not the Salsa boy, "The greater the ability, the greater the responsibility." I'm not talking about computers, but when you consider the disadvantages of overclocking, it makes a lot of sense .

What frightens all of us is the risk of damaging our expensive hardware. If you use too much force during manual retouching, the jitter will not stop due to abnormal crashes. It can shorten the lifespan of the target device or destroy the target device. There are many shortcomings of the

overclocking, that is its popularity. Put on shorts, a t-shirt and open the windows, because as your system consumes more power, it will dissipate heat as if it were outdated. Another tricky problem with the

Overclocking Wizard is that in most cases, to handle this extra power, you need more advanced and expensive components, and we're not just talking about coolers. Today, you need an OCprimed motherboard, CPU, GPU, and RAM to really experiment.

You hardly need to overclock, but it's hard to ignore the untapped full potential of your device. If there is a margin, it is easy to think that unless you experience a voltage surge, your money is not worth it, but if you feel it is unnecessary, you will not miss it. In anything that changes life.

If your system does not exceed 30 fps in a given game, we will consider overclocking as a basic protocol. Squeezing the last bit of extra juice from the hardware helps avoid upgrades until you save enough money to upgrade comfortably. Another situation where

OC stains are not bad is if its ingredients do not match in terms of potency. For example, suppose you have paired i54670K with GTX 1070

A standalone hobby in itself, enthusiasts can enjoy it and use it as another way to test the quality of its components.

Regardless of which part of the system you plan to overclock, the goal is almost always to increase the average frames per second. The impact of overclocking on fps depends on what component you are working on and how well you manage to drive it.

RAM has the subtlest impact on the number of frames per second, but it can help smooth out creative workflows that require rendering and extensive visual design and editing. It can also give your PC a lively and responsive feeling when multitasking. If your OC RAM is purely to increase your frame rate, you should expect a very small percentage jump, because the CPU and GPU are usually the main areas of concern when adjusting performance through overclocking.

Although it can provide you with some improvement in CPU-intensive games, remember that if there is no bottleneck, overclocking your CPU is unlikely to have the expected impact on your frames per second. On the other hand, GPU is an excellent hardware to unleash the inner mad scientist. Results will vary from card to card and will be greatly affected by other hardware, but you can expect up to 15% increase in frames per second.

Most professional gamers may dabble in overclocking a bit, if it helps them increase the W:L ratio, especially in fast-paced FPS competitions. Any extra frames you can extract will give you a subtle advantage over your opponents. This will not give them a huge advantage, but it will all help when you meet very skilled players.

The negative impact of overclocking on the hardware depends on how hard and how often you press it. If you use the booster technology recommended by the manufacturer, you don’t need to worry about damaging the hardware or even shortening its lifespan. It is a completely stable and safe OC.

Even if it causes some crashes when entering the stable area during manual OC, it will not have much impact on the life of the hardware. When you see the negative effects of overheating, the target component may become obsolete.

components that are often extremely overclocked are not so lucky. Excessive voltage and heat will shorten its service life from more than 510 years to 34 years.

If you have paid extra money for memory and have room for speed, then you should take advantage of this when opening XMP. The manufacturer conducted rigorous tests on XMP-enabled RAM before the release, and the rate of improvement was completely stable. Avoiding XMP will not add extra stability to your build.

Having said that, it is only worth using XMP if your CPU and motherboard can handle the increased speed, because RAM can only run at the speed allowed by your hardware. This means XMP or not, nothing will change.

To determine if you accidentally overclocked, you need to check your BIOS settings. To open the BIOS, you need to press a key during the boot process. This is usually the "F2" or "Del" key, but not always. You should get the correct computer password in the message during startup.

After opening the BIOS, look for the parts in the "Basic Clock", "Multiplier" and "CPU VCORE" lists. They should all be the default settings. If there isn't even one, then you've been overclocking without even knowing it.

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