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I wrote a program which reads the APERF/MPERF counters on an Intel chip (page 2 on http://www.intel.com/content/dam/doc/manual/64-ia-32-architectures-software-developer-vol-3b-part-2-manual.pdf).

These counters are readable/writable via the readmsr/writemsr instructions, and I'm currently simply reading them at a regular interval via a device driver in Windows 7. The counters are 64 bits, and increment approximately with each processor clock, so you'd expect them to overflow in a very long amount of time, but when I read the counters, their value jumps around as if they are being reset by another program.

Is there any way to track down what program would be resetting the counters? Could something else be causing incorrect values to be read? The relevant assembly and corresponding C functions I'm using are attached below. The 64-bit result from rdmsr is saved into eax:edx, so to make sure I wasn't missing any numbers in the r_x registers, I run the command multiple times to check them all.

C:

long long test1, test2, test3, test4;
test1 = TST1();
test2 = TST2();
test3 = TST3();
test4 = TST4();
status = RtlStringCbPrintfA(buffer, sizeof(buffer), "Value: %llu %llu %llu %llu\n", test1, test2, test3, test4);

Assembly:

;;;;;;;;;;;;;;;;;;;
PUBLIC TST1 
TST1 proc
    mov ecx, 231 ; 0xE7
    rdmsr
    ret ; returns rax
TST1 endp

;;;;;;;;;;;;;;;;;;;
PUBLIC TST2 
TST2 proc
    mov ecx, 231 ; 0xE7
    rdmsr
    mov rax, rbx
    ret ; returns rax
TST2 endp

;;;;;;;;;;;;;;;;;;;
PUBLIC TST3 
TST3 proc
    mov ecx, 231 ; 0xE7
    rdmsr
    mov rax, rcx
    ret ; returns rax
TST3 endp

;;;;;;;;;;;;;;;;;;;
PUBLIC TST4 
TST4  proc
    mov ecx, 231 ; 0xE7
    rdmsr
    mov rax, rdx
    ret ; returns rax
TST4 endp

The result that prints out is something like below, but the only register which ever changes is the rax register, and it doesn't increase monotonically (can jump around):

Value: 312664 37 231 0
Value: 252576 37 231 0
Value: 1051857 37 231 0
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2  
Are you reading those registers on a specific CPU or on whichever happens to be the current? –  Alexey Frunze Jul 9 '12 at 21:31
    
That's a good point, I am running the code on whatever core happens to be current. (I'm using i5 and i7 machines as the test machines). On the other hand, I would expect the rdx register to increment from 0 eventually on one of the CPUs, rather than always remaining at zero. –  Shookit Jul 10 '12 at 0:44
    
Also, is be possible to only run the driver off of one specific core? –  Shookit Jul 11 '12 at 2:11
    
You can move the current thread to a specific CPU using KeSetSystemAffinityThreadEx(). –  Alexey Frunze Jul 11 '12 at 2:16

2 Answers 2

up vote 2 down vote accepted

I was not able to figure out what was resetting my counters, but I was able to determine the frequency. The Intel docs state that when one counter overflows, the other counter also will. So even though the counters are constantly resetting, the ratio of aperf and mperf still does represent the processor's frequency.

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It seems that Windows 7 and Windows 8 read and reset the writeable APERF/MPERF counters on AMD processors. So, you want to access the read-only APERF/MPERF counters at registers 0xc00000E7/E8.

But there is a new issue. On some of the latest AMD processors (Family 0x16 processors), those registers are not always supported. To determine if those registers are supported, you have to read the EffFreqRO bit in CPUID Fn8000_0007_EDX. As stated before, all this applies only to AMD processors.

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