If the answer to that question is no, then quite simply, stop overclocking. You may be over-volting your CPU or RAM. Settings could cause serious system damage. It is the most common reason for this type of BSOD under the conditions you have described. If you do not know for sure, here is what I want you to do. Keep in mind, you may not like the answers because they are somewhat a pain, but you are an overclocker, so you are probably already familiar with the steps:
Option 1: Use the PC extensively without overclocking it for a few days (72 hours minimal).
We need to determine if the system crashes when it is not being overclocked, or if the damage is a permanent result of you overclocking too much. To do this, we can do several things. You can use the computer, as you always do, for several days, optimally, regular daily usage for about 72 hours. You can come and go, go to work, do whatever it is you do, but run the system without any overclock settings and see if it ever crashes. If it never does, you have a good indication the system is stable.
Option 2: Conduct burn-in testing when the computer is not overclocked.
To expedite this process, and put all chips (no pun intended) on the table, conduct burn-in testing when the system is not overclocked. What is burn in testing? When you perform a burn-in test, you operate the processor at 100% maximum load using a stress test / benchmarking software to ensure that the system does not crash. Burn-in testing is used after new systems are assembled to determine the reliability of the processor and memory. The initial testing is usually performed by manufacturers at companies like Dell and HP automatically using custom-built utilities during the assembly and configuration steps. IT consultants and ISPs that do professional hardware installs will often perform this step either on-site or off-site for the customer at their discretion (sometimes charging a premium fee). The way most system builders do it is through running an assortment of programs. This is a step consulting firms will often times charge s lot for with servers, primarily because it is easy to sell to businesses and they have no idea what it is other than that it sounds important. When this test is done on deployment to an on-site location, software is used, sometimes with additional utilities to watch system activity from the office, with something like RAdmin and PA Server Monitor. In your case, one of the most highly rated items for simply conducting the burn-in test for this task is prime95. This software stresses your hardware to its maximum capacity to determine if it can take the heat. Many laptops, even after being shipped as factory refurbished or brand new, will not pass prime95 if they are not placed on a cooling pad. This is due to the inability of a laptop to cool itself effectively after a prolonged period of time. It is the nature of miniaturized components; yet justifiable for a RMA in most cases. How quickly the laptop crashes is of particular concern. If the laptop crashes within a few minutes or hours of running prime95, this is an indication that there may be defects in the processor, the seating of the processor, the ability of the fans to adequately cool for even a short period of time, or other components like RAM. Branded and custom desktop computers should be able to operate prime95 indefinitely without crashing. Because this test stresses components, there is a risk of complete hardware failure when you perform this type of test. However, by passing complex instructions to your processor and stressing both the CPU and RAM, you will have a good idea if your system will blue screen a month from now by using prime95. I note that you already risk complete hardware failure by overclocking any way.
I recommend this method for so long as you know and accept the risks. Link Removed
