Check CPU & GPU Temperature in Game MSI Afterburner. Sometimes, you may want to monitor the computer's temperature in real-time, which wouldn't be possible with the BIOS approach. Using utility programs, such as MSI Afterburner, comes in handy in this case. CPU Temperature Monitor is an application that will help you to check the CPU temperature by collecting the data from various sensors. In a complex technological environment, hardware resources are important, and monitoring them can give you continuous uptime, maintain peak-performance, and minimize the business risks. Thus tracking CPU temp which can guide us about our system health is essential. Some of The Best CPU Temperature Monitor Tools For Windows: 1. Core Temp Image Source: Alcpu. Core temp is a user-friendly and lightweight tool that can monitor your system temperature effortlessly. It is compatible with almost all types of processors and displays. Speccy is a very useful and easy to use free software that lets you measure the.
- Asus Cpu Temp App
- Cpu Temperature Monitor Msi
- Cpu Temperature Monitor Windows 7
- Cpu Temperature Monitor Free
- Cpu Temperature Monitor Online
If you're a gamer or a power user, maxing out your CPU for heavy tasks, such as video editing or encoding, then you have probably faced the problem of processor overheating or thermal throttling. Simbooster pro 1 5 1. As a gamer it's critical that you monitor both the graphics card and the processor to ensure the temperature in the core temperatures remain within the manufactures recommended limits. If temperatures approach threshold, throttling may occur, drastically affecting performance and causing frame drop, micro stutter, glitching or input lag. This article covers the optimal strategies for monitoring your GPU and CPU temperatures and keeping them at optimal temperature levels.
Recommended Coolers
Temp Monitor in the BIOS
Asus Cpu Temp App
You can use a wide variety of utility programs to monitor temperatures, but if that is not your thing, or only want to check once if you suspect overheating, then use your computer's BIOS. To access your motherboards BIOS interface, restart your gaming computer and press the Delete/Insert/ Random F key (check your bios manual to confirm the key, or watch for on screen instructions during POST) button during the booting up process. The BIOS interface may appear daunting if you are not familiar with it, but it's usually fairly easy to check the processor temperature. Navigate through the different options until you find the processor settings – you will find the temperature reading here (if it was not on the first screen). The downside of this approach is that you must restart your computer each time you want to check the temperature and you cannot check the GPU/CPU temperature under load (such as in game).
Check CPU & GPU Temperature in Game
MSI Afterburner
Sometimes, you may want to monitor the computer's temperature in real-time, which wouldn't be possible with the BIOS approach. Using utility programs, such as MSI Afterburner, comes in handy in this case. MSI Afterburner is a free utility program that not only helps in monitoring temperatures but is also essential in monitoring overclock rates and adjusting the speed of your GPU fans.
This software is highly customizable, and allows you to show the memory, and temperatures in game (as a screen overlay) using RivaTuner.
Core Temp
Core Temp is a piece of software that works by measuring the temperature of your processors core values. Core Temp also supports monitoring for other devices in your machine and has a function to prevent overheating, by shutting down or putting your computer to sleep when the temperatures reach a certain temperature threshold. Also, if you're using a premium gaming keyboards with an LCD display, you can use Core Temp to display temps and other info on the keyboard (looks very cool!).
HWMonitor
HWMonitor will show you all the sensor read out from your motherboard and connecting hardware, including temperature, fan speed, and voltage. The most outstanding feature of this utility software is its simplicity – it breaks down all results within a single window divided into different layouts. It lists temperatures and voltages of the core hardware components. These results come in three different values – maximum value, minimum value, and current value. HWMonitor comes in handy whenever you want to perform quick temperature checks of your system.
AMD and NVidia Control Panels for GPUs
AMD Radeon and NVidia GPU's come with their control panels, NVidia Control Panel and the AMD Control Center. These features allow you to interact with your GPU in various ways, including fan speeds, basic overclocking and a GPU temperature monitoring utility. Usually the control panels are installed when you install the graphics card drivers. If they are not available, you can easily download them from the respective manufacturer's sites. The only shortcoming of these solutions is that they are somehow complex to use, but that is something that quick tutorials can fix.
AMD and Intel Utility Programs
Intel and AMD provide Extreme Tuning Utility and Ryzen Master programs respectively, which allow you to monitor overclocking and temperatures. These utility programs are free and quite easy to use. Ryzen Master is essential when it comes to system monitoring since it covers both real-time monitoring and a histogram providing per-core temperature and clock rates plus average and peak readings. Extreme Tuning Utility helps in making small tweaks in Intel processors with the aim of improving performance, increasing battery life, or lowering temperatures. It displays temperature information alongside other essential data that show the performance of various components of your system.
How to Prevent Temperature Issues in Your Computer
Overheating of different components of your PC may be due to different reasons. However, the most common cause of this problem is dust build-up. Computers always rely on constant airflow to keep the system cool. As the air flows, it carries some dust particles with it, which accumulate within the system over time. This phenomenon is more common in laptops but is still a problem in gaming desktops. The most convenient way of countering this problem is by cleaning your computer before replacing the thermal compound. You should be able to pull these procedures off, but if you doubt yourself, you can always seek for professional help.
To avoid overheating, you can also check if all the fans and heat sink / radiator fins are not clogged with dust. Additionally, be mindful of where you place your computer (not next to a heater!) and avoid positions that block the external fans. For laptops, you can invest in a cooling pad to support the internal fans, cooling pads reduce temperatures by a significant number of degrees (5-6°). Additionally, for desktop gaming PC's an AIO water cooler can bring temps down even further than using a stock heat sink and fan.
Conclusion
Constant temperature monitoring goes a long way in maintaining the health and longevity of your machine and helps ensure that it works efficiently. Depending on your requirements, you can leverage any of the tools mentioned above to keep an eye on your system temperatures. Some of them monitor other vital system hardware that affect the performance of your computer, such as voltage and fan speed, overclocking and shutdown temperature thresholds. If you notice that your gaming computer is continuously overheating or producing excessive fan noise, then there's probably an underlying issue that needs investigation. You can start by consulting your Task Manager and checking for any processes that are overworking the processor. After identifying these problems, stop them or try to find out why they are using excessive system resources. Also, check fans are working and that all vents or water cooling radiators are free of dust accumulation and debris.
Download
Development Team
- Windows*: Joe Olivas, Timo Kleimola, Mark Price, Timothy McKay
- MacOS*: Patrick Konsor
Previous Contributors
- Windows*: Seung-Woo Kim, Karthik Krishnan, Vardhan Dugar, Joseph Jin-Sung Lee, Jun De Vega
Introduction
Intel® Power Gadget is a software-based power usage monitoring tool enabled for Intel® Core™ processors (from 2nd Generation up to 10th Generation Intel® Core™ processors). Intel® Atom™ processors are not supported. It is supported on Windows* and macOS* and includes an application, driver, and libraries to monitor and estimate real-time processor package power information in watts using the energy counters in the processor. With this release, we are providing functionality to evaluate power information on various platforms including notebooks, desktops and servers. Windows 7* and 32-bit versions of the Intel® Power Gadget for Windows* has ceased development from 3.0.7. Starting with version 3.5 and going forward, only the 64-bit version and Windows 8* will be supported.
Background
Traditional methods to estimate power/energy usage of the processor has always been a cumbersome task that included special purpose tools or instrumentation on the platform along with third party equipment. The motivation for the tool was to assist end-users, ISV's, OEM's, developers, and others interested in a more precise estimation of power from a software level without any H/W instrumentation.
New Features
In version 3.0 there are additional features that include estimation of power on multi-socket systems as well as externally callable APIs to extract power information within sections of code. The multi-socket support essentially evaluates the Energy MSR on a per-socket basis and provides an estimate of power draw per socket. The API layer is a set of libraries and dlls that can be called and offers the flexibility to build the tool within code sections of an application. Latest release also includes support for Windows 10*.
Brief Description (Windows*)
Intel® Power Gadget 3.5 consists of the following components. Set of driver and libraries which access and post process the processor energy counter to calculate the power usage in Watts, temperate in Celsius and frequency in GHz (default install directory will be ~Program FilesIntelPower Gadget 3.5). A command line version of the tool (PowerLog3.0.exe) is also included
System Requirements (Windows*)
- Windows 8*
- Windows 10*
- Windows Server 2008, Windows Server 2012
- Microsoft .NET* Framework 4
- Microsoft Visual C++ 2017 Redistributable package
- 2nd Generation Intel® Core™ Processor or later, older processors not supported
- Single socket
- Multi-socket
System Requirements (macOS*)
- macOS* 10.11 or later
- 2nd Generation Intel® Core™ processor or later
Known Limitations / Issues
- Graphs will not appear if your processor does not have the appropriate hardware counters
- Discrete graphics cards are not supported and GPU graphs will not appear unless Intel graphics is in use
- Windows 7* supported builds are below in the Archive section
Installation / Setup (Windows*)
- Run the msi package as an administrator. Accept the UAC, if one appears
- Follow the installer prompt instructions to complete installation
- .Net Framework 4 (will automatically be downloaded from Microsoft* site if not yet installed in your system) needs Internet connection
- Microsoft* Visual C++ 2017 Redistributable Package (will automatically get installed if not yet installed)
Installation / Setup (macOS*)
- Double click the downloaded DMG (Intel Power Gadget.dmg)
- Double click the package (Install Intel Power Gadget.pkg)
- Follow the installer prompt instructions to complete installation
On recent macOS versions, after installation users need to explicitly allow the Power Gadget driver to load:
- Open System Preferences, and click on 'Security and Privacy'
- Click the lock at the bottom of the page to unlock changes
- Click 'Allow' to allow system software from Intel Corporation:
- Restart your computer to apply the changes
On macOS Catalina (10.15), users may need to perform additional steps to enable the Power Gadget driver to automatically load (this is due to a bug in macOS).
- Open the Terminal application
- Enter the following command, and press Enter (requires a password to complete):
- Restart your computer to apply the changes
Usages (Windows*)
Common use of Intel® Power Gadget is to monitor energy usage of the processor
- Provides processor power (Watts), temperature (Celsius) and frequency (MHz) in real-time via graph displayed in the GUI
- Let you log the power and frequency measurements and save it in a csv format.
- Double click on the desktop shortcut and the GUI will launch
- Drag to move the GUI.
- Right click the GUI and a pop-up menu will show up allowing you to choose options or close the application. Options have the following parameters. Click 'Start Log' button in the GUI to start logging. Press the same button 'Stop Log' to stop logging. While it's logging, red label 'REC' will blink in the power chart area.
- You can choose to add time-stamp to the log file name or not.
- You can choose the log file name.
- You can choose to resize the GUI from 100% to 300% by dragging the slider and testing the new size with the 'Apply Size' button and accept the changes by pressing 'Ok'.
- Screen Update Resolution lets you change how often the GUI is updated at runtime. This may range from 50 ms to 1000 ms. (Default set to 1000 ms)
- Log Sampling Resolution lets you change the logging sampling resolution ranging from 1 ms to 1000 ms. (Default set to 100 ms)
- In a multi-socket system, you can choose which package information to display in the GUI. The log will record all package information in a csv file.
- Click 'Start Log' button in the GUI to start logging. Press the same button 'Stop Log' to stop logging. While it's logging, red label 'REC' will blink in the power chart area
Using Intel® Power Gadget 3.0 in a Script
In order to start and stop the logging in a script, first launch the GUI as usual.
- At the beginning of the script, call 'IntelPowerGadget.exe -start' and it will trigger the logging in the GUI.
- At the end of the script, call 'IntelPowerGadget.exe -stop' and it will stop the logging.
The parameters for the log are based on the options set in the GUI.
PowerLog3.0
PowerLog3.0.exe is the command line version of Intel® Power Gadget in logging power usage
Usage:
Cpu Temperature Monitor Msi
- Log power data to logfile for a period of time:
- Start a command a log power data to logfile until the command finish:
Logfile Data
Logfile will include the elapsed timed, package power limit, processor frequency, GT frequency, processor temperature, average and cumulative power of the processor
Cpu Temperature Monitor Windows 7
- Processor Energy (Total energy of the processor) = IA Energy + GT Energy (if applicable) + Others (not measured)
- IA Energy (Energy of the CPU/processor cores)
- GT Energy (Energy of the processor graphics) – If applicable , some processors for desktops and servers don't have it or may have use discrete graphics
Only works on 2nd Generation Intel® Core™ processor family or newer. Atom processors not yet supported.
Use only 32-bit installer for 32-bit OS and 64-bit installer for 64-bit OS
Cpu Temperature Monitor Free
Application may hang after running for a long period of time (just close and restart application)
Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order.
This document contains information on products in the design phase of development.
All products, platforms, dates, and figures specified are preliminary based on current expectations, and are subject to change without notice. All dates specified are target dates, are provided for planning purposes only and are subject to change.
This document contains information on products in the design phase of development. Do not finalize a design with this information. Revised information will be published when the product is available. Verify with your local sales office that you have the latest datasheet before finalizing a design.
Code names featured are used internally within Intel to identify products that are in development and not yet publicly announced for release. Customers, licensees and other third parties are not authorized by Intel to use code names in advertising, promotion or marketing of any product or services and any such use of Intel's internal code names is at the sole risk of the user.
Cpu Temperature Monitor Online
Intel and the Intel logo are trademarks of Intel Corporation in the U.S. and other countries.
*Other names and brands may be claimed as the property of others.
Copyright © 2019, Intel Corporation. All rights reserved.
Intel® Power Gadget also provides a C/C++ Application Programming Interface (API) for accessing this power and frequency data in your program; the API is supported on Windows and Mac OS X. For more information on the API's, see:
For Mac Using the Intel® Power Gadget API on Mac OS X
For Windows Using the Intel® Power Gadget API on Windows
Development Team
- Windows*: Joe Olivas, Timo Kleimola, Mark Price, Timothy McKay
- MacOS*: Patrick Konsor
Previous Contributors
- Windows*: Seung-Woo Kim, Karthik Krishnan, Vardhan Dugar, Joseph Jin-Sung Lee, Jun De Vega
Introduction
Intel® Power Gadget is a software-based power usage monitoring tool enabled for Intel® Core™ processors (from 2nd Generation up to 10th Generation Intel® Core™ processors). Intel® Atom™ processors are not supported. It is supported on Windows* and macOS* and includes an application, driver, and libraries to monitor and estimate real-time processor package power information in watts using the energy counters in the processor. With this release, we are providing functionality to evaluate power information on various platforms including notebooks, desktops and servers. Windows 7* and 32-bit versions of the Intel® Power Gadget for Windows* has ceased development from 3.0.7. Starting with version 3.5 and going forward, only the 64-bit version and Windows 8* will be supported.
Background
Traditional methods to estimate power/energy usage of the processor has always been a cumbersome task that included special purpose tools or instrumentation on the platform along with third party equipment. The motivation for the tool was to assist end-users, ISV's, OEM's, developers, and others interested in a more precise estimation of power from a software level without any H/W instrumentation.
New Features
In version 3.0 there are additional features that include estimation of power on multi-socket systems as well as externally callable APIs to extract power information within sections of code. The multi-socket support essentially evaluates the Energy MSR on a per-socket basis and provides an estimate of power draw per socket. The API layer is a set of libraries and dlls that can be called and offers the flexibility to build the tool within code sections of an application. Latest release also includes support for Windows 10*.
Brief Description (Windows*)
Intel® Power Gadget 3.5 consists of the following components. Set of driver and libraries which access and post process the processor energy counter to calculate the power usage in Watts, temperate in Celsius and frequency in GHz (default install directory will be ~Program FilesIntelPower Gadget 3.5). A command line version of the tool (PowerLog3.0.exe) is also included
System Requirements (Windows*)
- Windows 8*
- Windows 10*
- Windows Server 2008, Windows Server 2012
- Microsoft .NET* Framework 4
- Microsoft Visual C++ 2017 Redistributable package
- 2nd Generation Intel® Core™ Processor or later, older processors not supported
- Single socket
- Multi-socket
System Requirements (macOS*)
- macOS* 10.11 or later
- 2nd Generation Intel® Core™ processor or later
Known Limitations / Issues
- Graphs will not appear if your processor does not have the appropriate hardware counters
- Discrete graphics cards are not supported and GPU graphs will not appear unless Intel graphics is in use
- Windows 7* supported builds are below in the Archive section
Installation / Setup (Windows*)
- Run the msi package as an administrator. Accept the UAC, if one appears
- Follow the installer prompt instructions to complete installation
- .Net Framework 4 (will automatically be downloaded from Microsoft* site if not yet installed in your system) needs Internet connection
- Microsoft* Visual C++ 2017 Redistributable Package (will automatically get installed if not yet installed)
Installation / Setup (macOS*)
- Double click the downloaded DMG (Intel Power Gadget.dmg)
- Double click the package (Install Intel Power Gadget.pkg)
- Follow the installer prompt instructions to complete installation
On recent macOS versions, after installation users need to explicitly allow the Power Gadget driver to load:
- Open System Preferences, and click on 'Security and Privacy'
- Click the lock at the bottom of the page to unlock changes
- Click 'Allow' to allow system software from Intel Corporation:
- Restart your computer to apply the changes
On macOS Catalina (10.15), users may need to perform additional steps to enable the Power Gadget driver to automatically load (this is due to a bug in macOS).
- Open the Terminal application
- Enter the following command, and press Enter (requires a password to complete):
- Restart your computer to apply the changes
Usages (Windows*)
Common use of Intel® Power Gadget is to monitor energy usage of the processor
- Provides processor power (Watts), temperature (Celsius) and frequency (MHz) in real-time via graph displayed in the GUI
- Let you log the power and frequency measurements and save it in a csv format.
- Double click on the desktop shortcut and the GUI will launch
- Drag to move the GUI.
- Right click the GUI and a pop-up menu will show up allowing you to choose options or close the application. Options have the following parameters. Click 'Start Log' button in the GUI to start logging. Press the same button 'Stop Log' to stop logging. While it's logging, red label 'REC' will blink in the power chart area.
- You can choose to add time-stamp to the log file name or not.
- You can choose the log file name.
- You can choose to resize the GUI from 100% to 300% by dragging the slider and testing the new size with the 'Apply Size' button and accept the changes by pressing 'Ok'.
- Screen Update Resolution lets you change how often the GUI is updated at runtime. This may range from 50 ms to 1000 ms. (Default set to 1000 ms)
- Log Sampling Resolution lets you change the logging sampling resolution ranging from 1 ms to 1000 ms. (Default set to 100 ms)
- In a multi-socket system, you can choose which package information to display in the GUI. The log will record all package information in a csv file.
- Click 'Start Log' button in the GUI to start logging. Press the same button 'Stop Log' to stop logging. While it's logging, red label 'REC' will blink in the power chart area
Using Intel® Power Gadget 3.0 in a Script
In order to start and stop the logging in a script, first launch the GUI as usual.
- At the beginning of the script, call 'IntelPowerGadget.exe -start' and it will trigger the logging in the GUI.
- At the end of the script, call 'IntelPowerGadget.exe -stop' and it will stop the logging.
The parameters for the log are based on the options set in the GUI.
PowerLog3.0
PowerLog3.0.exe is the command line version of Intel® Power Gadget in logging power usage
Usage:
Cpu Temperature Monitor Msi
- Log power data to logfile for a period of time:
- Start a command a log power data to logfile until the command finish:
Logfile Data
Logfile will include the elapsed timed, package power limit, processor frequency, GT frequency, processor temperature, average and cumulative power of the processor
Cpu Temperature Monitor Windows 7
- Processor Energy (Total energy of the processor) = IA Energy + GT Energy (if applicable) + Others (not measured)
- IA Energy (Energy of the CPU/processor cores)
- GT Energy (Energy of the processor graphics) – If applicable , some processors for desktops and servers don't have it or may have use discrete graphics
Only works on 2nd Generation Intel® Core™ processor family or newer. Atom processors not yet supported.
Use only 32-bit installer for 32-bit OS and 64-bit installer for 64-bit OS
Cpu Temperature Monitor Free
Application may hang after running for a long period of time (just close and restart application)
Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order.
This document contains information on products in the design phase of development.
All products, platforms, dates, and figures specified are preliminary based on current expectations, and are subject to change without notice. All dates specified are target dates, are provided for planning purposes only and are subject to change.
This document contains information on products in the design phase of development. Do not finalize a design with this information. Revised information will be published when the product is available. Verify with your local sales office that you have the latest datasheet before finalizing a design.
Code names featured are used internally within Intel to identify products that are in development and not yet publicly announced for release. Customers, licensees and other third parties are not authorized by Intel to use code names in advertising, promotion or marketing of any product or services and any such use of Intel's internal code names is at the sole risk of the user.
Cpu Temperature Monitor Online
Intel and the Intel logo are trademarks of Intel Corporation in the U.S. and other countries.
*Other names and brands may be claimed as the property of others.
Copyright © 2019, Intel Corporation. All rights reserved.
Intel® Power Gadget also provides a C/C++ Application Programming Interface (API) for accessing this power and frequency data in your program; the API is supported on Windows and Mac OS X. For more information on the API's, see:
For Mac Using the Intel® Power Gadget API on Mac OS X
For Windows Using the Intel® Power Gadget API on Windows
End User License Agreement included in Windows* download
Notices
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Intel may make changes to specifications and product descriptions at any time, without notice. Designers must not rely on the absence or characteristics of any features or instructions marked 'reserved' or 'undefined.' Intel reserves these for future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. The information here is subject to change without notice. Do not finalize a design with this information.
The products described in this document may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request.