There are two ways of assigning cpu core/cores to a running process.
taskset -cp 0,4 9030
Pretty clear ! assigning cpu cores 0 and 4 to the pid 9030.
taskset -p 0x11 9030
This is a bit more complex. The hexadecimal number that follows
-p is a bitmask. An explanation can be found here, an excerpt of which is given below :
The CPU affinity is represented as a bitmask, with the lowest order
bit corresponding to the first logical CPU and the highest order bit
corresponding to the last logical CPU. Not all CPUs may exist on a
given system but a mask may specify more CPUs than are present. A
retrieved mask will reflect only the bits that correspond to CPUs
physically on the system. If an invalid mask is given (i.e., one that
corresponds to no valid CPUs on the current system) an error is
returned. The masks are typically given in hexadecimal.
Still confused? Look at the image below :
I have added the binaries corresponding to the hexadecimal number and the processors are counted from left starting from zero. In the first example there is a
one in the bitmask corresponding to the
zeroth processor, so that processor will be enabled for a process. All the processors which have
zero to their corresponding position in the bitmask will be disabled. In fact this is the reason why it is called a mask.
Having said all these, using taskset to change the processor affinity requires that :
A user must possess CAP_SYS_NICE to change the CPU affinity of a
process. Any user can retrieve the affinity mask.
Please check the Capabalities Man Page.
You might be interested to look at this SO Question that deals with CAP_SYS_NICE.