Why should I add voltage to my graphics card when overclocking? Does adding voltage increase power c

Overclocking. If the voltage is not added, the graphics card will not be able to operate normally, and the performance will not be improved.

Here is an example of the N-card, and the specific steps of overclocking the graphics card are introduced, which can be completed with the help of the N-card overclocking software NVIDIA Inspector

Run the installed software, click the display overclocking at the bottom of the main interface to see the overclocking interface, basically Chinese display, most people who have some knowledge of hardware can understand.

The first is the frequency of video memory,Generally, you have to go online to see how much value is appropriate,You can add it little by little,If there is a problem, there will be a blurred screen,Crash。

The second is the core frequency, the same reason, but the amplitude of this addition will be smaller, not much each time, and the other is the same as the memory frequency.

The last one is voltage regulation, which the software detects from the bottom of the boot program to the highest and lowest levels, these two values are the voltage range in which the GPU chip operates, if it is below this voltage may cause unstable operation, if it is too high, it may burn the chip.

Since the normal amplitude of overclocking almost does not require the help of voltage control, and the large adjustment of the voltage increases the probability of the display chip burning, it is not recommended for ordinary users to adjust this voltage significantly.

The leftmost one is the fan speed, if you want to overclock, you must turn on the fixed fan speed, which is generally determined according to the overclocking amplitude (the minimum is more than 70% and the highest can be 100%).

It is recommended that you can turn off the overclocking software or use the downclocking when dealing with general daily applications, which is good for the life and power consumption of the graphics card.

After the adjustment, you can directly click on the frequency and voltage, and it can take effect.

If the frequency is high, it will definitely cost electricity, and if you don't increase the voltage, you can't move it, and overclocking with voltage is a dangerous job, don't try it easily, if the graphics card is not in good shape, it will be a wisp of green smoke game over

There is still damage without pressurization. Increasing the frequency theoretically shortens the lifetime of the electrons. How much depends on the GPU, the graphics memory itself, and the extent of your overclocking.

The physique is good, super few, maybe it will be okay to use it for 5 or 10 years. To put it bluntly, it's just to look at RP. Moreover, the impact of OC is not only the life of the GPU and video memory, but also the increase in power consumption and temperature after the frequency increases, which is a test for the power supply and heat dissipation design of the graphics card.

Especially the power supply. If you cut corners in the design and don't give enough redundancy, it will also significantly shorten the life of the graphics card. Overclocking is generally used to run scores.

After running and coming down. Really play with OC frequency? I can only say that the person is white, within the normal range, no matter how much there is, the game that can't be played still can't be played.

What's the point of a few frames or a dozen frames? Especially for mid-to-high-end graphics cards. Slightly reduce the inconsequential special effect is not stronger than the OC?

The graphics card is still damaged if it is not pressurized and overclocked. Increasing the frequency theoretically shortens the lifetime of the electrons.

Overclocking is to improve performance by increasing the working frequency of the graphics card's cores and video memory, so the graphics card will always work at a higher frequency than its base working frequency after overclocking, and the graphics card will smoke if you accidentally do so.

Graphics card overclocking:

a. After overclocking, the temperature of the graphics card will increase when it is working, so be sure to do a good job in the heat dissipation system of the graphics card.

b. The graphics card should have a relatively stable working frequency, and don't always change it.

c. Be cautious when overclocking the graphics card, otherwise it may turn the graphics card into a waste card.

Even if you put pressure on it, it may hurt. It is generally recommended to overclock by silent electricity, although the overclocking may be smaller than pressurization.

In addition, in any case, it is definitely not possible to increase the frequency too high all at once.

Harmless Because overclocking and not overclocking have nothing to do with voltage, it hurts the CPU a bit.

If you can't keep up with the cooling, your graphics card will die quickly. Full load calculation,Fans have to fann desperately,Overclocking within a reasonable range,It should be fine if the time is short,I've tried it before.,It's been a long time.,About a day and a night when you hang up.,There will be any errors such as the graphics card driver stopping running.,And then the game will go black.。

Even if you put pressure on it, it may hurt. It is generally recommended to overclock by silent electricity, although the overclocking may be smaller than pressurization.

In addition, in any case, it is definitely not possible to increase the frequency too high all at once.

There is a frequency word in the word overclocking, which means frequency, and if it does not exceed the design frequency of the graphics card chip, it is not overclocking.

The option you mentioned to increase power can improve the stability of the graphics card, and if the temperature of the graphics card is well controlled, it can be increased.

The overclocking ability of the current graphics card is very low, at most 15%, and many of them are not exceeded, the reason is that the frequency of the graphics card itself is too high, and the component performance and high-frequency interference are too serious.

Using management software to increase or decrease fan speed is a good way to cool down or reduce noise (but it will heat up).

The questioner misunderstood the diagram" power target "The meaning of the option is to mistakenly think of it as increasing the power of the graphics card in order to improve the performance of the graphics card. The explanation is as follows:

1. The function of this option is to control the TDP adjustment of the graphics card, which can only be adjusted down from the maximum value of the design. When the value is the highest, the graphics card works at the maximum power consumption of the design, which is the state of high performance, and of course, the temperature of the graphics card is also the highest;

2. In order to control the heating degree of the graphics card, you can use this option to reduce the overall power consumption of the graphics card, but the performance of the graphics card will also decrease. That is, it is a means to control the heating degree of the graphics card, which is provided for users to choose according to the actual situation;

3. If the heat dissipation conditions of the case are good, you can adjust this item to the maximum value to let the graphics card reach the maximum performance designed.

Just overclock, when it's almost impossible to sell it, you can buy a graphics card.

If you don't overclock and pressurize, how can the power consumption increase?

When the CPU is overclocked, the power consumption increases. If the ** current remains the same, some CPUs will not work normally and stably due to insufficient power consumption. When the voltage is boosted, the CPU gains more power, making overclocking easier to succeed and stabilize.

According to p=ui.

After overclocking, the CPU heat will increase, and secondly, it is easy to burn the CPU if the voltage is too high, so you must be cautious when overclocking.

It is the same as the machine, and the result of long-term high-speed operation is inevitably the shortening of life.

There is no need to change the CPU energy-saving technology.

When the CPU load is low, it will automatically lower the multiplier.

Reduces heat generation and power consumption.

It automatically adjusts to a high multiplier when the load is high.

So it doesn't affect performance.

It is not recommended to turn this feature off.

Your logic is completely correct, overclocking means that the required power is increased, and the heat dissipation is also improved, but the pressurization depends on the degree of overreach, for example, 200 to 230 or 266 does not need to be pressurized.

The requirements of software for hardware are all-round, and it is meaningless to simply increase the frequency of a certain hardware, and the performance of other hardware has not changed.

If you are an overclocking professional, please ignore the following text.

Some of the computer's hardware (CPU, RAM, discrete graphics card, etc.) has overclocking capabilities.

CPUs are so delicate that manufacturers have no control over what frequencies each CPU can work at.

In fact, the manufacturer has done many tests on its own, and the CPU that can work at high frequencies is marked as high frequency.

But in order to ensure its quality, these marks have a certain surplus.

In other words, a CPU that works at 2500MHz is likely to work reliably at 3500MHz, and in order to exploit these potential surpluses, it can be overclocked. So overclocking is not a deliberate add-on feature from the manufacturer.

The manufacturer does not recommend that users turn on the overclocking function, because the hardware damage caused by overclocking is not within the scope of after-sales.

Why do manufacturers still sell hardware with overclocking functions, users or gamers are divided into ordinary users and professional users from the perspective of use.

The amount of overclocking for each piece of hardware is a variable and not a quantitative, and the use of overclocking is not as simple as turning on the frequency of the hardware to the maximum value in the software or motherboard options.

Because the overclocking potential of each piece of hardware is unknown, overclocking is a complex process that requires gradual mastery, and no overclocking expert will dare to tell how good it is when they first encounter a piece of hardware.

The frequency amplitude of each CPU is different, and the result of each overclocking may not be the same, the more precise and complex it is, and the less controllable it is.

1. Hardware of different categories, specifications, models, etc., needs to run professional software to test the overclocking value of the hardware before overclocking.

2. Hardware overclocking (especially CPU) also needs to do a good job of corresponding cooling measures, without powerful cooling measures, overclocking is equivalent to gambling.

3. Adjust the specific value of overclocking according to different categories, specifications and models of hardware.

4. Adjust the specific value of overclocking according to the requirements of the software for hardware.

5. If the memory exceeds the maximum memory frequency supported by the CPU, the CPU will use it according to the maximum frequency it can identify.

The above factors affect the specific value of hardware overclocking (when using hardware with overclocking function, there is one factor that needs to be changed accordingly. After turning off the program that uses overclocking, adjust the frequency to the frequency value before using the program. People who don't have professional knowledge simply adjust the frequency to the maximum value equal to the amount of food they eat.

Allowing a person to exercise to the maximum extent possible every minute and second will cause irreparable damage to a person's life and health. ）

To sum up, manufacturers sell hardware with overclocking capabilities, facing professional users with professional backgrounds. It is recommended that non-professional users who want to pursue better operation results can upgrade or buy a higher-end one when they have enough RMB. (e.g. i5 for i7, GTX960 for GTX980, etc.).