Running an overclocked PC is totally fine provided that the PC is stable at the overclock settings. There are several programs available to assess system stability through stress testing the system and thereby the overclock level. The steps of overclocking a PC are beyond the scope of this article, but there is pretty inclusive guide written by graysky on the topic: [Overclocking guide].
Some stressing applications like mprime and linpack (see below) have built in consistency checks to discover errors due to non-matching results. A more general and simple method for measuring hardware instabilities can be found in the kernel itself. To use it, simply watch the output from the kernel ring buffer by this command:
# cat /proc/kmsg
The key error to watch for looks like this:
[Hardware Error]: Machine check events logged
The kernel can throw these errors during an mprime run before mprime itself finishes the calculate and reports the error thus providing a very sensitive method to assess stability.
CPU Stressing Programs
These are listed in two categories: 'higher demand voltage' and 'medium demand voltage'. It is important to use some from each category to evaluate system stability. Ironically, machines are more sensitive to selections from the 'medium demand' category than from the 'high demand' category.
|Cc/Gcc||Both cc/gcc compilation is a great method of stress testing. Both are available in the base-devel group.|
|HandBrake-cli||can be used to encode using high quality settings.|
|Systester||AUR Systester is a multithreaded piece of software capable of deriving values of pi out to 128,000,000 decimal places. It has built in check for system stability.|
|High||mprime||AUR factors large numbers and is an excellent way to stress CPU and memory.|
|linpack||AUR - Linpack makes use of the BLAS (Basic Linear Algebra Subprograms) libraries for performing basic vector and matrix operations. and is an excellent way to stress CPUs for stability.|
Memory Stressing Programs
Memtest86+ is a standard memory testing util and is packaged in [extra].
Stressing CPU and Memory
Mprime (Prime95 for Windows and MacOS)
Prime95 is recognized universally as one defacto measure of system stability. Mprime under torture test mode will preform a series of very CPU intensive calculations and compare the values it gets to known good values.
Prime95 for Linux is calledAUR and is available in the AUR.
To run mprime, simply open a shell and type "mprime"
When the software loads, simply answer 'N' to the first question to begin the torture testing:
Main Menu 1. Test/Primenet 2. Test/Worker threads 3. Test/Status 4. Test/Continue 5. Test/Exit 6. Advanced/Test 7. Advanced/Time 8. Advanced/P-1 9. Advanced/ECM 10. Advanced/Manual Communication 11. Advanced/Unreserve Exponent 12. Advanced/Quit Gimps 13. Options/CPU 14. Options/Preferences 15. Options/Torture Test 16. Options/Benchmark 17. Help/About 18. Help/About PrimeNet Server
There are several options for the torture test (menu option 15).
- Small FFTs (option 1) to stress the CPU (option 1)
- In-place large FFTs (option 1) to test the CPU and memory controller
- Blend (option 3) is the default and constitutes a hybrid mode which stresses the CPU and RAM.
Errors will be reported should they occur both to stdout and to
~/results.txt for review later. Many do not consider a system as 'stable' unless it can run the Large FFTs for a 24 hour period.
~/results.txt; note that the two runs from 26-June indicate a hardware failure. In this case, due to insufficient vcore to the CPU:
[Sun Jun 26 20:10:35 2011] FATAL ERROR: Rounding was 0.5, expected less than 0.4 Hardware failure detected, consult stress.txt file. FATAL ERROR: Rounding was 0.5, expected less than 0.4 Hardware failure detected, consult stress.txt file. [Sat Aug 20 10:50:45 2011] Self-test 480K passed! Self-test 480K passed! [Sat Aug 20 11:06:02 2011] Self-test 128K passed! Self-test 128K passed! [Sat Aug 20 11:22:10 2011] Self-test 560K passed! Self-test 560K passed! ...
Linpack makes use of the BLAS (Basic Linear Algebra Subprograms) libraries for performing basic vector and matrix operations. and is an excellent way to stress CPUs for stability.
/etc/linpack.conf according to the amount of memory on the target system.
Systester (SuperPi for Windows)
AUR is available in the AUR in both cli and gui version. It tests system stability by calculating up to 128 millions of Pi digits and includes error checking. Note that one can select from two different calculation algorithms: Quadratic Convergence of Borwein and Gauss-Legendre. The latter being the same method that the popular SuperPi for Windows uses.
A cli example using 8 threads is given:
$ systester-cli -gausslg 64M -threads 8
A very good program for stress testing memory is [Memtest86+]. It is based on the well-known original memtest86 written by Chris Brady. Memtest86+ is, like the original, released under the terms of the GNU General Public License (GPL). No restrictions for use, private or commercial exist other than the ones mentioned in the GNU GPL.
Either download and burn the ISO to a CD and boot from it, or installfrom [extra] and update GRUB which will auto-detect the package and allow users to boot directly to it.