If the CPU fails to overclock, what else do you have to add in addition to the voltage to continue o

In addition to adding voltage and water cooling, there are indeed some ways to continue overclocking. Because I am also a lover of this, I first have to determine the quality of the memory and motherboard and graphics card, and then add a heat sink to the memory, and change the graphics card to a better heat sink, and then I will change the motherboard by myself, and replace a larger capacitor for the motherboard, which is the premise of ensuring stability after overclocking, and then change the CPU, such as grinding the outer cover of the CPU with sandpaper to make it thinner, which is conducive to better heat dissipation. That's all.

The main thing is to change the motherboard and change the CPU

The hardware that has an impact on whether the CPU can run successfully and stably after overclocking comes out of the CPU itself.

1. Motherboard This is mainly affected by the CPU power supply circuit of the motherboard, if the design of the power supply circuit is reasonable, and the quality of the original (especially the capacitors next to the CPU socket) is excellent, then it will provide high-quality and stable power supply for the CPU is the premise of successful CPU overclocking. In addition, it is also important whether the motherboard BIOS provides more frequency and voltage options.

2. Memory Whether the memory can work in the overclocking state is also a prerequisite for the success of overclocking, but the current motherboards basically provide CPU and memory asynchronous working mode, and choosing this can also improve the success rate of CPU overclocking.

3. Graphics card However, the latest motherboards also provide a lock mode for the frequency of the graphics card, which can also improve the success rate.

4. Power supply A high-quality power supply is also a factor that cannot be ignored for CPU overclocking.

5. That is the CPU cooling system, and those who play overclocking know its importance.

There are a few factors that generally affect overclocking:

1。Motherboard power supply circuit workmanship 2. Chipset performance 3. Memory Quality Temp 5. Others such as power supply, individual CPU differences, various bus frequencies, electromagnetic interference, etc.

If the limit of the chipset is reached, the chipset needs to be properly pressurized; If the memory limit is reached, the memory frequency needs to be reduced or the voltage increased; Analyze specific problems and try step by step.

Friend, there is a limit to everything. You can't always want to marry a daughter-in-law and give a little wife?

Overclocking should be fun, not an end.

1Overclocking mainly depends on the motherboard and CPU, and other hardware needs to support it. Non-standard operating frequencies increase the bus frequency, and if one of the computer infrastructure components is not supported, it will fail.

2 I had a machine in my early years, Tualatin can be super, but after changing to a new graphics card, it can only work on.

3.I still had a machine in my early years, and the hard drive didn't work after overclocking.

Suggestion 1: Change to the manufacturer's professional overclocking motherboard.

Suggestion 2: Replace other accessories to improve compatibility.

Suggestion three, change your water cooling to a larger water tank, add ice. Put a cloth sleeve on the water pipe to prevent condensation.

Question 1: Are you using AMD or Intel?

Explanation 1: He said BIOS discharge, which means that you can't boot after overclocking failure, but this guy doesn't know English.

ximosi is a very bad statement for CMOS The landlord misunderstood.

The CMOS jumper is overclocked one more time. Or a failure? Pressure! Water! Still failing? Pressurize again!

Be sure to pay attention to the heat dissipation of the North Bridge! To change the water cooling, the fan should be reduced, so that the north bridge will lose the protection of the previous fan.

If it still fails, CMOS jumper, don't overshoot, and then overtake the CPU will hang

In addition to adding voltage, it is also necessary to have an excellent heat dissipation environment and a memory module with good physique.

You'd better add a fan for overclocking

Otherwise, be careful to burn your master if you go too far

Pressurized, water-cooled, not afraid of bad hosting.

It's better to buy a new one.

You can enhance heat dissipation.

Such as using extreme heat dissipation methods such as water cooling, dry ice, etc.

After you discharge the ximosi, you can continue to enter the DOS and continue to superscreen.

Overclocking should be fun, not an end, and I love this quote , haha

sys2100 - Assistant Level 2 said, hehe.

Hey, I ran a post about overclocking today, and there are ocers in it, and I took two points and left

Super failure is not that you are too much, 2G may not be able to exceed 4G.

The most detailed way to send it to you has not been received!

If you increase it to your ideal value and the CPU is running without problems, you don't need to increase the voltage.

The reason for increasing the voltage is that the data transmitted in the operation circuit in the CPU is 0 or 1, which is expressed by the voltage value and the voltage value, and after the CPU frequency increases, the internal transistor runs at a high frequency, under the combined influence of the three factors of CPU overheating, electronic drift and high frequency, the voltage value of the data signal represented by the voltage value transmitted between some operation circuits is significantly reduced, for example, I am now going to pass a 1 to the post-stage circuit, I need to give a voltage of 1 volt, and the backend recognizes that I am giving 1.

Now, under the combined influence of the three factors of CPU overheating, electronic drift, and high frequency, the back-end only receives the voltage value of volts, and the back-end circuit cannot judge whether the voltage I gave is 0 or 1, which leads to the collapse of the operation.

Therefore, in the process of overclocking, in order to solve the problem of weakening the data signal caused by the three factors of CPU overheating, electronic drift and high frequency, artificially increase the operating voltage of the CPU to make the data transmitted between its internal computing circuits clearer, and improve or disappear the problem of computing crash caused by overclocking.

However, under our existing technical conditions, the CPU voltage rating cannot be increased arbitrarily. Generally speaking, under our ordinary air-cooled heat dissipation conditions, the CPU voltage will increase by up to 5%, which is already a very severe test for the cooling system, otherwise it will cause the CPU to overheat and cause the operation to collapse.

The CPU voltage increases by more than 8%, which is dangerous. It is easy to burn the CPU directly, which is due to the breakdown of the internal circuit due to overpressure, and has nothing to do with heat dissipation.

Overclocking of a computer is to increase the working frequency of hardware such as CPU, graphics card, and memory through the overclocking method of the computer operator, so that they can work stably at a frequency higher than their rated rate, so as to improve the working speed of the computer.

The English name of overclocking is "over clock", which is a technical means to obtain performance beyond the rated frequency by adjusting the hardware settings to increase the main frequency of the chip. The working frequency of the CPU of the computer is the main frequency, which is determined by the product of the external frequency and the frequency doubling. Take the AMD Phenom II X4 955 black box CPU as an example, its rated operating frequency is Hertz), as a native quad-core processor, it can steadily exceed the 4GHz air-cooled limit frequency through software alone, and the system can run stably, completing a successful overclocking.

Not necessarily. The current board BIOS will automatically give the voltage, as long as it can be stable, it is better not to pressurize. If the overclocking amplitude is relatively large, the CPU needs to be pressurized, which helps to go up to a higher limit frequency, but has higher requirements for heat dissipation.

Overclocking with voltage can be dangerous. Be careful!

There are two main ways to overclock your CPU:

1.The hardware settings are jumper settings for overclocking. Most of the early motherboards used jumpers or dip switches to overclock.

In the vicinity of these jumpers and dip switches, there are often some ** printed on the motherboard, which records the functions defined by the combination of jumpers and dip switches. In the shutdown state, you can set it according to the frequency in **. After rebooting, if the computer boots up normally and runs stably, it means that our overclocking has been successful.

2.The software settings are the BIOS settings for overclocking. BIOS setup is more convenient than hardware setup.

Perform CPU overclocking settings in CPU Preferences. If you encounter the situation that the computer cannot start normally after overclocking, as long as you shut down and press and hold the INS or Home button to reboot, the computer will automatically return to the default working state of the CPU, so it is better to overclock in the BIOS.

Turn up the working frequency first, start, if it starts and continues to work normally, there is no need to pressurize. If it does not start, or the working state is unstable, turn up the voltage until it works properly.

1.When you buy a processor or CPU, you will see how fast it runs. For example, a Pentium 4 CPU runs at 3200MHz.

This is a measure of how many clock cycles the processor has gone through in a second. A clock cycle up-sensitivity band is a period of time during which the processor is able to execute a given number of instructions.

2.Logically, the more clock cycles a processor can complete in a second, the faster it will be able to process information, and the faster the system will run. 1MHz is one million clock cycles per second, so the processor can go through 3,200,000,000,000 or 3.2 billion clock cycles per second.

When overclocking the host, the CPU should not exceed the step voltage.

Overclocking may cause the system to be unstable, with blue screens, black screens, crashes, etc., but it will not cause CPU damage, and the cause of CPU damage is excessive voltage. The amount of overclocking depends on the constitution of the CPU, and two CPUs of the same model can have completely different overclocking capabilities. He Oak.

Intel processors with buckle cores can generally be overclocked to 8G at the default voltage, and as long as the CPU working voltage is not increased, it will generally not damage the CPU. Even if the voltage is increased by a small combustion width, it will only shorten the life of some CPUs.

The resistance of the CPU increases with the frequency, and if the voltage is low, the internal current will be too small, which means that the electrical signal is not significant and cannot be recognized, that is, it cannot work.

Others such as system buses, graphics cards, memory, etc. can be overclocked. This can be achieved by software tuning and hardware modifications.

Overclocking can affect system stability, shorten the life of hardware, and even burn hardware devices (and not only CPUs!). So, it's best not to overclock without a special reason.

Overclocking is the method of making a variety of computer parts run at higher speeds than they are rated for. If you buy an AMD Phenom II X4 955 black box processor and want it to run faster, you can overclock it. It is rated to operate at Hertz), a native quad-core processor that is able to surpass the 4GHz air-cooled limit frequency via software alone.

1. Overclocking requires both CPU and motherboard BIOS support.

2. When overclocking, generally do not increase the CPU voltage, and if there is an unstable phenomenon (such as blue screen, automatic restart) after adjusting to a certain frequency, then appropriately increase the voltage.

3. Priority over-frequency multiplication, lock frequency multiplier and then over-frequency out-frequency.

4. According to the default frequency of the CPU, increase the adjustment at a frequency of 3 to 5% each time, and do not adjust too much at one time, resulting in the computer not being able to boot and the BIOS needs to be emptied.

5. Pay attention to the temperature after overclocking, because the CPU heats up more after overclocking, and stronger heat dissipation is required.