Citation :
*** WARNING *** These program is designed to heavily load CPU chips.
Undercooled, overclocked or otherwise weak systems may fail causing data
loss (filesystem corruption) and possibly permanent damage to electronic
components. Nor will it catch all flaws. *** USE AT YOUR OWN RISK ***
N E W burnK7 for AMD Athlon/Duron/Thurderbird has been released.
These programs are designed to load x86 CPUs as heavily as possible for
the purposes of system testing. They have been optimized for different
processors. FPU and ALU instructions are coded an assembler endless loop.
They do not test every instruction. The goal has been to maximize heat
production from the CPU, putting stress on the CPU itself, cooling
system, motherboard (especially voltage regulators) and power supply
(likely cause of burnBX/MMX errors).
burnP5 is optimized for Intel Pentium w&w/o MMX processors
P6 is for Intel PentiumPro, PentiumII&III and Celeron CPUs
K6 is for AMD K6 processors
K7 is for AMD Athlon/Duron processors
MMX is to test cache/memory interfaces on all CPUs with MMX
BX is an alternate cache/memory test for Intel CPUs
burn* will run endlessly _UNLESS_ an arithmetic error is detected.
Check up on it with the Task Manager. It will terminate with an
error code of 1 if a computational error is detected. It checks
every 3-8 seconds. I haven't seen any terminations, the CPUs always
lockup first. Let me know if errors happen to you.
I heartily recommend using Mikael Olsson's `runprio` program (available
at SimTel) to run burn* at HIGH priority. This reduces system performance
to crawl, but gives ~5'C hotter CPU temperatures because burn* gets
96% of all CPU cycles rather than 72% at normal priority. DO NOT try
Real-Time Priority, it gets no more. Of course, you can still run
Sysmon/PerfMon and temperature sensors programs to monitor progress. Thanks to Otto Strudel who ported burnK7 and to Kevin Hughes
<kevin@klsoft.force9.co.uk> who used MING to port my Linux
sources to the Win32 *.exe's included in the .zip .
TO RUN: runprio -x high burnp6.exe from a DOS box or Start->Run
TO KILL: ^C or Ctl-Alt-Del to the TaskManager, highlight & End task.
burnBX and burnMMX are essentially very intense RAM testers. They can
also take an optional parameter indicating the RAM size to be tested:
A = 2 kB E = 32 kB I = 512 kB M = 8 MB
B = 4 F = 64 J = 1 MB N = 16
C = 8 G = 128 K = 2 O = 32
D = 16 H = 256 L = 4 P = 64
`burnBX L` (4 MB) and `burnMMX F` (64 kB) are the default sizes.
A-E mostly test L1 cache, F-H test L2 cache, and H-P force their way
to RAM. But even A-E will have some cacheline writeouts to RAM.
In spite of it's name, burnBX can be run on any chipset [RAM controller]
and tests alot more than the RAM controller. Unfortunately, burnBX is
not optimal on AMD K6 processors. burnMMX is preferable for any CPU that
has an MMX unit.
burnBX/MMX needs about 72 MB of total RAM + swap to start (not necessarily
free), but doesn't use this much unless you request it. They will
throw a GPF if you don't have enough swap. If you don't want to
add more, you can adjust the .bss section downward as indicated in the
source comments. I use very simple memory management. They can also
test swap, and at least on my system, I can run 2*`burnBX 8` with 128
MB SDRAM with some use of swap, but no excessive thrashing[seeks]. YMMV.
If sub-spec, your system may lock up after 2-10 minutes. Alternatively,
`burnBX` is especially likely to terminate with an error. It shouldn't.
burn* are just unpriviliged user processes. But it probably means your
CPU is undercooled, most likely no thermal grease or other interface
material between CPU & heatsink. Or some other deficiency. A power
cycle should reset the system. But you should fix it.
The cpuburn programs are copyright, but I grant a licence under the
GNU Public Licence 2.0 . See http://www.gnu.org . This is free
software, free as in speech, not as in beer. Also known as
"Open Source". The source code is in the *.s files.
Robert Redelmeier redelm@ev1.net
*** WARNING *** This program is designed to heavily load CPU chips.
Undercooled, overclocked or otherwise weak systems may fail causing data
loss (filesystem corruption) and possibly permanent damage to electronic
components. Nor will it catch all flaws. *** USE AT YOUR OWN RISK ***
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