Hertzovka is the number of times per second when the display updates its image. Because motion is displayed by the difference between frames, the refresh rate effectively limits the visible frame rate. But the refresh rate does not match the personnel.
Computer Update Speed
The refresh rate is an attribute of the monitor, and the frame rate is an attribute of the information sent to it.
If you can run the game at a speed of 100 frames per second, you can feel tangible benefits by playing it on the monitor, which can be updated so many times per second. But if you watch a movie with a classic 24 frames per second, a monitor with a higher refresh rate will not matter.
Comparing the performance of two gaming computers, we often look at the frame rate that each computer can play in a certain game with the same resolution and graphics quality. Frame refresh rate is measured in FPS or Frames per Second. Most people know that the higher the FPS, the better, but let's look at some common misconceptions regarding FPS and refresh rate.
What can be the darting of a monitor on a laptop
First, let's determine the meaning of the word frame and what determines the frame rate? A frame is one still image that is combined in a quick slide show with other still images. Each of the images is slightly different to create the illusion of natural movement. Frame rate is the number of images displayed in one second.
To create or render a new frame, your CPU and GPU work together to determine the actions of the AI, physics, positions and textures of objects in the scene to create the image. Then your graphics processor cuts this image into pixels with the resolution you set and sends this information to the display. The more powerful your processor and GPU are, the more frames they can generate per second.
Response time is the time it takes a pixel to go from one color to another. Usually measured in milliseconds (ms), this is directly related to the refresh rate, since the monitor can really quickly refresh its image only if the pixels respond quickly enough. A response time of 16 ms corresponds to the theoretical maximum refresh rate of 60 Hz 1 s / 60 = 16.6 ms.
Your monitor or display is where the refresh rates come from. The measurement is made in (Hz), the number of times per second, when your monitor can redraw the screen. A reading of 85 Hz indicates that your display is able to redraw the entire screen 85 times per second.
How to overclock the monitor?
How to overclock the monitor:
Note. Be sure to fully read the instructions, requirements and warnings. Not all monitors are compatible with overclocking.
Overclocking the monitor is a bit complicated; but it becomes quite easy if you read the instructions, warnings and requirements.
For DVI-D cables to have enough bandwidth to support 1440p screens at 120 Hz, you need to increase the clock frequency of DVI-D cables. ToastyX has released patches for AMD and nVidia control panels; installing these patches will add an option to the control panel / catalyst to increase the update speed (thanks, ToastyX). Just run the patcher, and then download and use the Custom Resolution Utility (created by ToastyX) to create multiple profiles with different Hz settings.
In Windows 10, go to Settings> System> Display> Advanced Display Settings> Display Adapter Properties. Click the “Monitor” button, find what you need in the “Screen refresh rate” list, click “OK”.
In Windows 7 and 8, right-click on the table, click "Screen Resolution". Find your display, if you have more than one screen, and then click the "Advanced Settings" button. Go to "Monitor", specify the settings "Screen refresh rate."
If your display and graphics card support NVIDIA G-SYNC, you're in luck. Thanks to this technology, a special chip on the display is connected to the graphics card. This allows the monitor to change the refresh rate in accordance with the frame refresh of the NVIDIA GTX video card, up to the maximum display refresh rate.
REFERENCE! This means that frames are displayed as soon as they are displayed by the GPU, eliminating screen tearing and reducing stuttering when the frame refresh rate is higher and lower than the display refresh rate.
This makes it ideal for situations where frame rate changes, which often happens in games. Today you can even find G-SYNC technology in gaming laptops!
AMD has a similar solution called FreeSync. But this does not require a proprietary chip in the monitor. Instead, FreeSync uses the DisplayPort Adaptive-Sync specification, an industry-standard, royalty-free standard. The difference between the two is that in G-SYNC the proprietary module in the monitor controls the communication between the devices. In FreeSync, the AMD Radeon driver and display firmware provide connectivity. AMD has demonstrated that FreeSync can work via HDMI, but it requires custom drivers from AMD and the manufacturer of the monitor.
G-SYNC currently only works with DisplayPort, but this may change. FreeSync monitors are generally cheaper than their G-SYNC counterparts, but gamers tend to prefer G-SYNC over FreeSync, as the latter can cause image doubles when artifacts remain on old images. However, this may change as both technologies are relatively new.
Can the dinghy slow down over time
Each LCD screen has a maximum frame refresh rate. This is the speed with which the matrix can completely restart the picture, in other words, update it in a second.
Hertzivka is not infinite and it has a limit. It is also not the same for certain screens and is encoded by the destination device. So, for screens in monitors and tablets, the frame refresh rate is approximately sixty hertz.
Display manufacturers relied on such a frequency and for some time organized production around it.
But the high frame rate does not say that all the images on the display will be smooth. All this is due to a limit above which the frame refresh rate will not visually increase.
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