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i am trying to measure the time taken by some code inside linux kernel at very high accuracy by a Linux kernel module.

so i tried rdtscl(start) which gives the no of clock ticks used in the code as given below...

unsigned long ini, end;
//some code...
printk("time taken=%lu ticks",end-ini);

as i have reffered to http://en.wikipedia.org/wiki/Time_Stamp_Counter which says that TSC is a 64-bit register present on all x86 processors since the Pentium so if i have dual core processor then will it(TSC) be present in both cores or there will be only one because it's single processor but dual core because the specified link says about processor?..(i think it will be in both cores but confused...)

the second question is that i have intel xeon i3 processor which has 4 processors & each having 2 cores then measuring the clock ticks will give the ticks of single processor or addition of all 4 processors..?

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The clock ticks are related to the core running rdtscl –  Basile Starynkevitch Dec 24 '12 at 6:53

3 Answers 3

All the cores have their own TSC; it basically counts cycles- but beware - the TSC clocks may not be synchronized! if your code starts running on one core and migrates to the 2nd one, which is certainly possible in the general case, your count will be wrong!

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The same WikiPedia article did said about issues with the TSC as below,

With the advent of multi-core/hyper-threaded CPUs, systems with multiple CPUs, and 
hibernating operating systems, the TSC cannot be relied on to provide accurate results 
— unless great care is taken to correct the possible flaws: rate of tick and whether 
all cores (processors) have identical values in their time-keeping registers. **There 
is no promise that the timestamp counters of multiple CPUs on a single motherboard will 
be synchronized**. In such cases, programmers can only get reliable results by locking 
their code to a single CPU. Even then, the CPU speed may change due to power-saving 
measures taken by the OS or BIOS, or the system may be hibernated and later resumed 
(resetting the time stamp counter). In those latter cases, to stay relevant, the 
counter must be recalibrated periodically (according to the time resolution your 
application requires).

Meaning modern CPU's can alter their CPU clock rate to save power which can affect the TSC value. Also TSC would never increment in situations like, when kernel may execute HALT and stop processor until an external interrupt is received.

the second question is that i have intel xeon i3 processor which has 4 processors & 
each having 2 cores then measuring the clock ticks will give the ticks of single 
processor or addition of all 4 processors..?

This may lead to a situation where a process could read a time on one processor, move to a second processor and encounter a time earlier than the one it read on the first processor which results in TSC as unstable time source.

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If you get NO clock ticks, then there's something seriously wrong with your code. Did you write your own rdtscl [or copy it from somewhere that isn't a good source?]

By the way, modern Intel (and AMD) processors may well have "constant TSC", so a processor that is halted, sleeping, running slower, etc, will still tick away at the same rate as the others - it may not be in sync still, but that's a different matter.

Try running just a loop that prints the value from your counter - just the RDTSC instruction itself should take some 30-50 clock cycles, so you should see it moving.

Edit: Here's my rdtsc function:

void rdtscl(unsigned long long *ll)
    __asm__ __volatile__ ("rdtsc" : "=a"(lo), "=d"(hi));                        
    *ll = ( (unsigned long long)lo)|( ((unsigned long long)hi)<<32 );  

alernatitvely, as a function returning a value:

unsigned long long rdtscl(void)
    __asm__ __volatile__ ("rdtsc" : "=a"(lo), "=d"(hi));                        
    return ( (unsigned long long)lo)|( ((unsigned long long)hi)<<32 );  

I notice that your code doesn't pass a pointer of your unsigned long, which makes me suspect that you are not actually passing the timestamp counter BACK to the caller, but rather just keeping whatever value it happens to have - which may well be the same for both values.

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