cpu temp lcd display in stock

Once you know how to monitor your CPU temperature, you’ll be able to perform a vital health check on a PC component that you very, very much do not want to overheat and break. Luckily this isn’t a common problem, but if you’ve just built a PC from scatch, have installed a new CPU in your existing setup, or are attempting to overclock, checking the CPU temperature is a quick step that can reassure you that all is well – just as much as it can warn you of an overly hot chip.

Excess heat is a PC’s natural enemy, and gaming systems – with CPUs tending towards higher clock speeds, plus dedicated graphics cards producing extra warmth inside the case – are especially at risk. So while overheating is usually caused by an over-ambitious overlock or improperly installed cooler, rather than being part and parcel of computer ownership, it’s worth understanding how to monitor CPU temperatures so that you can spot potential issues quickly. Left unattended, an overheating CPU can cause system shutdowns, performance throttling – less than ideal for gaming – and even permanent damage to the processor itself.

This guide will focus on a few different software tools that you can use to keep an eye on CPU heat. They’re all free and easy to use, and are distinct enough that you can pick the one that best suits your preferences. Just be sure to check in every now and then; even the best CPUs will suffer if they get to toasty.

Core Temp keeps everything nice and simple, and provides all you need if you just want to check your CPU temperature now and again to make sure it’s ticking along. It’s easily readable, updates in real time, is compatible with every CPU under the sun and shows you the temperatures of all your processor’s individual cores.

Installing it is dead easy too. Simply click the big blue “Download” on the Core Temp site, then run the executable file once it’s downloaded. While clicking through the installation wizard you will need to uncheck some boxes to avoid adding some bloatware, but otherwise you can keep hitting “Next” until Core Temp is installed.

In the app itself, the temperatures of all your CPU’s cores are listed at the bottom. Another cool aspect of Core Temp – if don’t mind painfully stretching the definition of cool – is that it also lists the lowest and highest temperatures that each core has recorded during the current session. That might be handy if, say, you want to know how high your core temperatures peak during sustained play, but you can’t be bothered with constantly alt-tabbing out to monitor it.

CPUID’s HWMonitor performs a similar role to Core Temp, providing both minimum and maximum CPU core temperatures as well as current readings, but goes into detail on a far greater variety of your PC’s trackable metrics. Want to know the speeds of every single on of your PC’s fans, while also monitoring the temperatures of your graphics card and SSD? HWMonitor tracks it all, including voltages, so it’s particularly well-suited to keen overclockers.

To install HWMonitor, head to its page on the CPUID site and click the purple ‘Setup’ button in the lower left. Simply run the installer once it’s downloaded, and then it’s just a case of finding CPU core temperatures in HWMonitor’s long list of sensors. They’ll be underneath your CPU, which is listed as its full product name, then under ‘Temperatures > Cores (Max)." If you’re only interested in CPU temperature monitoring and nothing else, you can always collapse the motherboard, graphics card and storage device sections to make the whole thing easier to read.

MSI Afterburner isn’t just for overclocking your GPU. It’s on par with HWMonitor in how many different aspects of your PC it can keep tabs on, and makes it easy to add your choice of metrics to an unobtrusive overlay that you can check while playing games. That naturally includes CPU temperature monitoring, though setting it up is a little more involved, so let’s break it down into steps:

Step 4: Open the Monitoring tab and scroll through the list of “Graphs” until you reach the CPU Temperature option. Click this, then check the “Show in On-Screen Display” box in the section below. The words “in OSD” should then appear next to “CPU temperature” in the graphs list.

Step 5: Optionally, you can enter the On-Screen Display tab and set hotkeys to toggle/display the overlay, so that you can control when it appears and when it’s hidden. Either way, click “OK” at the bottom of the properties menu to save your changes.

If you fancy your CPU temperature readout in a more graphical style, NZXT Cam is a good bet. I wasn’t initially impressed when, several years ago, it launched in support of some broadly overpriced NZXT cases (even though you don’t actually need any NZXT hardware to install it). Nowadays, though, it’s a nicely comprehensive (and readable) set of tools for monitoring temps, speeds and loads, not to mention tinkering with compatible lighting and even overclocking.

For simply checking your PC’s CPU temperature, though, you can just take a peek at the default “PC Monitoring” tab, which appears as default whenever you open CAM. To install, simply hit “Download CAM” on the NZXT CAM site and run the executable once it downloads.

Generally, a CPU will be perfectly happy running at temperatures anywhere up to the 70-80°c range, even under sustained load. 80-90°c is a technically safe range as well, though anything above that can cause throttling, slowing your PC down in the process. Running at 95-100°c is just asking for trouble, as CPU manufacturers build their chips with heat limits so that they’ll shut down if they spend too long around boiling point. Try to persist with such high temps, and you risk doing terminal damage to your hardware.

Take note that different games put different amounts of strain on the CPU, so it might run hotter in some compared to others. That’s fine, but ideally core temperatures should avoid exceeding 80°c for any lengthy period of time. And if you can get them down even further than that, great – a cooler PC is a quieter one.

If your CPU is registering uncomfortably high temperatures even when it’s running at stock speeds, there are a few measures you can take. One is to re-apply the thermal paste between the CPU and its cooler; sometimes, the paste may have been applied too thinly or slathered on too thick, preventing effective heat transfer to the cooler in both cases. Thermal paste can also dry out a few years after application, so a fresh coat could help lower temperatures on older builds too. Our guide on how to install a CPU shows how best to apply thermal paste, but in short, you want a very thin, even layer that completely covers the top of the CPU.

If that doesn’t work, you may need to upgrade your CPU cooler. There’s no shame in this – some modern chips, like the Intel Core i9-12900KS, can get extremely hot even at stock speeds, and thus require a powerful liquid cooler to perform at their best.

You could also try lowering the overall temperature of your PC’s interior, such as by installing new case fans. This won’t cool the CPU directly, but it could reduce the ambient heat building up inside the case, which in turn makes everything – the CPU, the CPU cooler, the graphics card – hotter as well.

All three of these might help when overclocking CPUs, as well as when running stock speeds; if anything you should only start overclocking once you already have a highly capable cooling system. But if all that fails, and your OC’d chip is still overheating, you may have to bite the bullet and simply reduce the clock speeds and/or voltages until temperatures are back under control.

For more on keeping your gaming PC in tip-top condish, check out our guides on how to clean your PC, and how to test RAM and find errors. Our liquid cooling vs air cooling guide can also help you decide which kind of CPU cooler you"ll need.

Checking your PC"s CPU temperature is similar to checking your car"s oil: You don"t need to do it daily, but you"ll need to check your processor"s temperatures every few months. This is especially true if you regularly strain your system with heavy loads like you"ll do with the Best CPUs for gaming, or if you"re an enthusiast that overclocks your CPU. Ultimately, keeping your CPU temperatures under control improves performance and reliability.

Luckily, checking your CPU temperature is simple and doesn"t require you to open up your PC and stick a thermometer inside. Instead, every CPU comes with built-in digital temperature sensors, so all you need is a bit of software to read the measurements in Windows 10, Windows 11, and other operating systems.

Below we"ll break down how to check your CPU temperature, what a safe range of temperatures is for a CPU, and what to do if your CPU"s temperatures are too high.

Checking your CPU temperature is as easy as installing and using monitoring software and then reading the value. The same techniques apply to Windows 10 and Windows 11, and even the new Windows 11 22H2 update.

There are multiple programs to choose from, with the best tools for checking CPU temperature, including Core Temp(opens in new tab), NZXT"s CAM(opens in new tab), AIDA64, HWiINFO, or HWMonitor. For more advanced users, or if you"re overclocking your CPU and want more in-depth measurements, Intel"s eXtreme Tuning Utility (XTU) and AMD"s Ryzen Master software are designed by the chipmakers and also offer expansive options.

These are just a few examples of many, but we"ll show you how NZXT"s CAM and Core Temp work because we have found that these two are the easiest to install and use. CAM is developed by PC case(opens in new tab), power supply(opens in new tab), and CPU cooler(opens in new tab)manufacturer NZXT. You can download it here(opens in new tab). While CAM is intended to be used with the company"s products, it works really well as a casual monitoring tool in Windows 10 or Windows 11, even if you don"t have any NZXT hardware. You can use the software in Guest Mode to avoid creating a user account, and you can also disable the program from starting automatically with Windows if you don"t plan on using it often.

Once installed, CAM offers an easy-to-use user interface (UI). The first block (PC Monitoring) tells you the CPU"s status, which shows the load, temperature, clock speed, and cooler fan speed. You can click on this block to access further details, as shown in the second image in the album above.

CAM also has an overlay, which automatically turns on when you enter a game when CAM is running. This overlay can show you your CPU"s status while in-game, providing you with temperature measurements during your favorite game.

You can also use the Core Temp tool, one of the best CPU temperature tools for Windows, to monitor the temperatures (download here). This is a simpler tool that works with a more basic UI. Just be sure to untick the freeware option during installation.

Core Temp provides temperature measurements for every core in your CPU. The left-hand side of the measurements shows the real-time temperature of each CPU core, and you can also see the measurements in the taskbar. But we"re more interested in the Min and Max columns, which show the absolute minimum and the absolute peak temperature recorded while the program runs. The CPU in the above image has had a minimum temperature of 32C and a maximum of 51C and is, therefore, running at a normal temperature.

If you want to check your PC"s CPU temperature during normal use, you can leave Core Temp running while you perform common tasks. However, if you want to measure the maximum possible temperature, you can check by running a Prime95 stress test for about 30 minutes (download here) in Windows 10 or Windows 11. Just be aware that this program puts an extremely heavy load on your PC.

The best way to monitor your temperature while gaming is to just have a good session and then check back in with the program to see the maximum recorded temperature. You should be concerned if this figure is at or beyond 95C. Anything between 80C and 95C may have room for improvement.

You can check your CPU temperature in the system BIOS or UEFI, but be aware that this will only show your CPU temperature at idle. That means you will see much higher use when you are booted into Windows or another operating system.

It"s pretty simple to enter the BIOS to check your CPU temperature. On the majority of platforms, you simply reboot the system and click delete or F2 repeatedly as it restarts. Not all motherboards list the CPU temperature, but nearly all enthusiast or DIY motherboards do. Once you"re in the BIOS, you will see the temperature listed in the Hardware Monitor section, which can also be named PC Health Status or Status, among other similar names. Again, only use this as an indication of idle CPU temperatures — you should also check from within Windows 10 or Windows 11 to get a better idea of CPU temperatures when you"re using the PC (see below).

When the CPU is idle, a safe temperature is anything under or around 50C. Under higher load, such as when playing a game, rendering a video, or other intensive tasks, your CPU consumes more power and, thus, runs at a higher temperature. This "load temperature" is more important than idle temperatures (assuming idle temps are fine), so you"ll want to periodically monitor your CPU temperature under load to ensure it"s adequately cooled.

Under load, you want your CPU to ideally stay under 80C, though some CPUs may run hotter when they"re in ultrabooks(opens in new tab), gaming laptops(opens in new tab), or small-form-factor (SFF) computers.

Additionally, AMD"s Ryzen 5000 processors are designed to operate at up to 95C with a stock cooler, while the Ryzen 7000 series is also designed to run at 95C even with a watercooler. Meanwhile, Intel"s highest-end Core i9 Alder Lake processors will run up to 100C during normal operation, and the 13th-Gen Raptor Lake chips are no different. These temperatures are within spec and expected for these specific processors.

As such, while the 80C threshold serves as a good general indicator, it is important to ensure that your processor doesn"t exceed its "TJ Max" (Temperature Junction Maximum) temperature, which is the safe limit for any given processor. The TJ Max varies by chip, but most monitoring software lists the value. Additionally, you can check the chip"s specifications on the manufacturer"s page.

For older chips, you have some wiggle room to creep past 80C, but anything above 95C is typically critical. At this point, some CPUs will begin throttling, meaning the chip will reduce its clock speed(opens in new tab) and slow down to ensure it doesn"t overheat, and your PC may turn off.

More advanced users who want the utmost confidence that their CPU can handle aggressive workloads should stress test their CPU(opens in new tab) to 100% using a program like Prime95(opens in new tab)or AIDA64(opens in new tab). When running such a stress test, keep a close eye on the temperatures, using the tools mentioned below, and back off once they reach too high (above 95C). We consider an ideal stress test to be one hour long, though your maximum temperature will likely level off after 10-15 minutes.

If your CPU temperature exceeds 80C under load, you should check your system to ensure the CPU"s cooling is adequate. Here"s a checklist of things to look for:Is your PC clean and free of dust (including the radiator and intake fans/filters)?

When was the last time you applied fresh thermal paste between your CPU and CPU cooler? If it"s been over three years, consider re-applying the thermal paste.

If you are using a full-size gaming PC(opens in new tab), however, and think your cooling should be adequate, you may want to re-apply thermal paste to your CPU(opens in new tab). Most thermal paste"s performance seriously degrades after about three years. Applying fresh paste (here"s a list of the best thermal pastes) and cleaning the system from dust can offer much better cooling power and significantly better performance. This applies both to pre-built and custom-built PCs(opens in new tab).

Additionally, as part of any PC tune-up, you"ll want to make sure that your cooler is adequate. Many of the stock CPU coolers that come either bundled with the CPU or installed in pre-built systems aren"t adequate to give you the full performance of the chip. This often applies to Intel CPU coolers on Core i5 and above processors. You"ll need to follow the stress testing steps outlined above to check CPU temperatures under load in Windows 10 or Windows 11 to ensure that the cooler doesn"t get overwhelmed by the CPU when it is under heavy load.

Is your computer’s CPU too hot? If your PC starts spontaneously shutting down, locking up, or acting sluggish during intense tasks, overheating could be the issue, especially when the intense summer heat is scorching. Keeping tabs on your CPU temperatures is crucial when you’re overclocking your PC’s processor, too—you don’t want to accidentally push the performance pedal too far to the metal when you’re supercharging your pricey Intel Core i9-12900KS or AMD Ryzen 5800X3D, after all. Melting one of the best CPUs around is always a bummer. And with next-gen Ryzen 7000 processors pushing power limits even further, keeping your chip cool will take more vigilance than ever.

Bizarrely, Windows doesn’t offer any way to check your computer’s CPU temperature. You could dive into your system’s BIOS to find the information, but that’s a lot of hassle to find a simple sensor reading. Fortunately, several free programs exist that make it easy to see your processor’s temperature. With that info in hand, you’ll know whether you’ll need to take more active steps to cool things down. We’ve included information on how to do that after the software recommendations below.

The fastest, easiest way to check your CPU temp is using the aptly named Core Temp. Be mindful during installation though! Like many free programs, it tries to install bloatware unless you uncheck some boxes during setup.

Once installed, open Core Temp to see a no-frills look at the current state of your CPU, including an average temperature reading at the bottom of the window. If you want even more detail, click the Show hidden icons button in the system tray located at the right edge of your Windows taskbar. You’ll see a temperature listing for every individual CPU core in your computer.

Core Temp’s Settings menu allows you to tweak exactly what you’ll see in the system tray, and how you’ll see it, but the default configuration makes it dead-simple to see if your CPU is overheating or performing as expected.

Core Temp isn’t the only option though. HWInfo is an in-depth system monitoring tool that provides deep details about every piece of your PC’s hardware. If you choose to run it in sensors-only mode, scrolling down to the CPU section—the dedicated section, not the CPU temperature portion of the motherboard listing—reveals current temps and other nitty-gritty details.

NZXT’s Cam software is another popular option with a diverse skillset. Its slick interface is easier to read at a glance than those on most other monitoring tools, and the program shows all sorts of useful info about your CPU, graphics card, memory, and storage. Cam also includes an in-game FPS overlay and overclocking tools, among other features. You can use NZXT’s Cam mobile apps to keep tabs on your software when you’re away from your PC, too.

Open Hardware Monitor and SpeedFan are other well-regarded monitoring tools that can track system information. You’ve got options! But for simply checking your computer’s CPU temperatures, Core Temp’s straightforward focus can’t be beat.

Finally, note that if you’re running an AMD Ryzen system, including 3rd-gen models like the ferocious Ryzen 9 5900X or the more modest Ryzen 5 5600X, you may see two different CPU temperature readings. You want the “Tdie” reading, depending on how the program you’re using displays the info. It’s a measurement of the actual heat on the die.

The alternative “Tctl” reading is the control temperature reported to your cooling system and sometimes includes a temperature offset to ensure universal fan speed behavior between the various Ryzen chips. Any of the programs above that list a single temperature account for the offset already.

The maximum supported temperature varies from processor to processor. Most of the free monitoring software mentioned above lists the information as “Tj. Max.” That stands for the temperature junction, or the highest operating temperature of the hardware. If you don’t see the information for some reason, search the CPU World website for your CPU’s model number to find the information. Every program listed above displays your processor’s model number, so it’s easy to find.

But that’s the maximum temperature—the point at which your processor freaks out and shuts down to avoid damage. Running anywhere near that hot regularly is bad for the long-term life of your hardware. Instead, follow this general rule of thumb regarding CPU temperatures under load.

60° C to 70° C: Still running fine, but getting a bit warmer. Consider cleaning the dust out of your PC if CPU temperatures continue to creep up over time.

80° C to 90° C: Now we’re getting too hot for long-term comfort. Check your hardware for broken fans or dust build-up, and if you’re overclocking, dial back your settings—especially the voltage if you’ve tweaked it. One notable exception: We sometimes see more powerful laptop processors hit the low 80s during gaming sessions when plugged in, at which point they start throttling back performance. This is expected, but if temperatures cross 85° C, be concerned.

First, clean out your PC. High CPU temperatures are often caused by years of dust and grime built up inside a PC, clogging fans and crucial air pathways. Local hardware stores usually charge outrageous prices for canned air, but you can pick up a bottle for about $8 on Amazon. PCWorld’s guide on how to clean your PC can walk you through the process. While you’re at it, check to make sure that all your fans are working correctly, pointed the right way, and that none of the vents in your PC are blocked. (Also, make sure your PC’s fans are set up for maximum cooling performance.)

Hopefully that fixes the issue. If not, more intensive steps are in order. The thermal paste that transfers heat from your CPU to its cooler might have dried out if you’ve had your PC for a few years. That can cause temperature spikes.

Removing the old thermal paste with rubbing alcohol and applying a fresh layer can potentially help lower temperatures by a large amount. You can find small syringes of thermal paste by respected brands like Arctic and Noctua for under $10 on Amazon. (I’ve been a happy Arctic Silver 5 user for years now.)

If all that doesn’t help, your cooling solution simply might not be capable of keeping up with your CPU’s heat output, especially if you’re pairing a stock cooler or a modest third-party cooler with higher-end chips—and doubly so if you’re overclocking. Buying a new CPU cooler may be in order.

The Cooler Master Hyper 212 ($44 on Amazon) is a solid, affordable air cooler. With its larger heatsink and fan, it’s a solid step up over stock AMD and Intel CPU coolers. Moving up in size and price, the Noctua NH-D15 ($100 on Amazon) is one of the most effective air coolers ever to hit the streets, but its large size might block memory access or not even fit in smaller cases.

Closed-loop liquid cooling solutions (CLCs) provide far cooler temperatures than air coolers with minimal hassle and easy installation. Smaller 120mm units are available, but if you plan on overclocking, consider moving up to a model with larger 240mm radiator, like the straightforward-named EVGA CLC 280 ($90 on Amazon). Several brands are available, but we’ve been using EVGA’s closed-loop coolers in PCWorld’s powerful, dedicated graphics card testing system to great results.

Features: 5.25 inch fits perfectly in pc drive bay. Light LCD displayer, makes it easier to read. Date and time display is included Three available temperature probes, enable you to sense your preferences. CPU/HD/SYS 3 channels, can control 3 fans. Adjustable alarm from 5 to 90 Deg. C Fan speed controller Temperature Measurement In the initial state of the module, press MODE, it can change the display of 3 kinds of temperature: CPU? HDD? SYS? CPU? ……, the

accuracy: ±2 Deg. C Turn On and Off the Alarm In the initial state of the module, press ALARM C/F, it can turn on or off the alarm. Change Temperature Display Mode In the initial state of the module, long press (press and hold) ALARM C/F for about 3 seconds, it can change? /? temperature display mode. Fan control a. In the initial state, pressing SPEED button once can set the fan at low-speed mode. Pressing SPEED button twice will change to medium speed mode. Pressing SPEED button three times will change to high-speed mode. b. The module also can control fan speed according to the temperature information received from the SENSOR. At higher temperature, the speed of the fan will be quicker. Over-temperature alarm The default temperature of CPU,

SYS: CPU, 70?; HDD, 50 Deg. C; SYS, 60 Deg. C. Users can set these temperatures according to your needs( 5-90 Deg. C). You can turn the buzzer by pressing any keystrokes. Time display It can display time in the 24-hour clock. It also has a display calendar. Introductions of keypad 1). Time adjustment a.

set minute: long press MODE about 3 seconds? then press MODE six times? minute character twinkles? press ALARM C/F set the minute. 3). Alarm temperature adjustment a.

Dimensions149mm x 76mm x 42mmFeaturesFeatures5.25 inch fits perfectly in pc drive bay. Light LCD displayer, makes it easily to read. Date and time display is included Three available temperature probes, enable you to sense your preferences. CPU/HD/SYS 3 channels, can control 3 fans. Adjustable alarm from 5 to 90 Deg.CPackagingPackage Contents1 x 5.25"" PC Fan Speed Controller Temperature Temp Sensor LCD PanelGroupModelSST-FPS01Additional InformationDate First AvailableFebruary 11, 2019

The processor or CPU (Central Processing Unit) is one of the most important parts in PCs, technical devices such as smartphones and DVD players, and in programmable washing machines and dishwashers. The CPU is effectively the computer’s brain, as its main task consists of processing data and relaying commands to the responsible performance units. This occurs with a certain degree of clock speed that is crucial in determining how quickly these commands can be processed. The higher the clock speed, the faster the performance unit operates.

However, a high clock speed also causes high temperatures. If a lot of CPU-intensive processes are running at the same time, it’s not surprising that the CPU temperature rises considerably. This should not be alarming as long as it is only temporary and can be attributed to processor usage. If, however, you observe that the CPU temperature is too high regularly, you should find out what the problem is in order to avoid potential damage. For this purpose, there are many tools available that help to display the current CPU temperature and also depict the course of data curves over a longer period of time.

CPU temperature defines a value that specifies the processor’s temperature. However, things aren’t quite that simple because a CPU is made up of various components which are governed by different temperatures. Sensors are located in the processor cores and on the surface’s metal cover - the so-called “integrated heat spreader” (IHS). In general, the temperature of the processor core is considerably higher and more conclusive than the temperature that is measured on the surface.

The temperature on the heat spreader (IHS) is actually only measured when the computer is manufactured so that it can be included in the performance specification. All later IHS temperatures are the result of calculations and thus only approximate values.

Depending on the manufacturer, the temperatures are either displayed separately or summarized as average values (e.g. core temperature and surface temperature). Yet, these values are not necessarily comparable because recording methods can differ and the calculation of estimated values can vary. If you want to estimate whether the CPU temperature is normal or within a critical range, it is extremely important to know which make was installed.

If you’re uncertain about your computer’s processor model, you can find out all the necessary information with the CPU-Z freeware. The tool not only specifies the manufacturer and processor type, it also provides data on other features such as numbers for cores, clock speed, voltage, etc.

The information on the model and performance range form the basis for assessing the CPU temperature. In order to evaluate it, you have various tools to choose from. Windows itself doesn’t provide this information. In Windows, you can review your current CPU usage using Task Manager (use the “top” command in Linux) or check its course over the previous 60 seconds. You can also review which running programs and processes are forming part of current CPU usage.

As previously mentioned, each computer is equipped with temperature sensors that constantly monitor the temperature of the individual components in order to avoid overheating. If you would like to access this information to get a readout of the CPU temperature, you won’t be able to get around having to install additional programs. The best-known programs for this purpose are Core Temp, HwiNFO and AIDA64. The first two are freeware. Users need to acquire a license to use AIDA64 if they wish to continue to use it after 30 days. All three programs not only display the CPU temperature, but also record the temperature variations.

If you prefer not to install additional tools, you can get a readout of the CPU temperature in BIOS. However, in doing so, you must take into account that the values shown will be higher than they are in the Windows or Linux operating systems. This is because energy consumption is not regulated downward in BIOS.

To be able to determine if the CPU temperature is normal or one, you must familiarize yourself with the “normal value” or tolerance range of your PC. This is not all that simple, because external conditions such as the PC’s location or the room temperature can have an effect on temperature. The specific processor type, however, will play the biggest role. For this reason, the following values are just a rough guidefor estimation:low processor usage (in standard operation): approximately 30 to 50 °C (86 to 122 °F)

Processors can endure very high temperatures. The 100-degree Celsius mark may even be exceeded briefly (with new processors, up to 103 °C is possible) without the CPU being damaged. Values around the limit, however, shorten the product lifespan, as the individual components are highly sensitive to heat. Though this sounds dramatic, it rarely applies to the average user. That’s because high-performance users such as gamers or graphic designers tend to replace parts to ensure their PC runs fast despite performing high-CPU tasks.

The average PC users won’t have to think about lowering the CPU temperature because the operating system normally regulates the CPU temperature on its own. The CPU is curbed as soon as a threshold temperature previously defined by the manufacturer has been reached. This means that the clock rate is reduced, thus producing less heat until the temperature is within the tolerance range.

Things are a little different when a user has decided to overclock the CPU in order to achieve better processing performance and accelerate the processes that are running. Gamers tend to overclock their PCs to ensure that online games run smoothly. In this case, the temperature can be temporarily reduced by opening the PC casing or using external equipment such as fans. As a result, the primary fan is assisted in doing its job. The heat can be evacuated quicker and it becomes easier for cooling airflow to reach the overheated components. But this method is only a temporary solution. It should not be used as a long-term solution to lower CPU temperature.

If you regularly use CPU-intensive programs that drive up the CPU temperature, you can use certain programs to regulate the PC fan speed, and in this way customize it as is appropriate. An even more efficient option would be to install an active cooling system (e.g. a water-cooling system). However, it’s a good idea to take into consideration whether these measures are adequate for your needs or your CPU’s performance. Sometimes it makes more sense to retrofit a more high-performance processor.