I have created shared library which has matrix multiplication implementation logic. I am executing two different program and calculating matrix multiplication from both program by calling shared library. Only one copy of shared library is loaded into main memory and I know the physical address where the shared library function is loaded into main memory ( I know only the starting address of function, don't know the ending address of the function).
The shared library will be loaded into few cache sets (lets say from X - Y ) . clflush(address) is used to flush from CPU cache . So I can use clflush(address) to flush out from CPU cache.
Here are my questions
- If I use clflush(address) , it will only flush content of cache where the address mapped in CPU cache ( set X). So how to calculate the access time to access that memory address ?
Is it like
// Before clflush memory address P = &function(); // physical address start=timer(); access memory address P; // starting address pointing to cache set X end=timer(); time_needed1= end-start ; // Second access start=timer(); access memory address P; // starting address pointing to cache set X end=timer(); time_needed2= end-start ;
// flush out from CPUcache
clflush(memory address P) ; // After clflush start=timer(); access memory address P; // starting address pointing to cache set X end=timer(); time_needed3= end-start ;
I am expecting time_needed3 will be higher than time_needed2, but I am getting lower value that indicates clflush is not working here.
What should be the type of pointer P ? What should I pass in place of P ?
As I am using integer array for matrix multiplication , so will P = P + 16 will point to next cache set ? ( cache block size is 64Bytes and size of Integer is 4Bytes ).
How to find the end of function ? Is it possible ? Will P=P+16 will cause fault in case it exceeds boundary of shared function ?
I am using GCC under Linux. Any help or pointer in this direction will be great help. Thanks in advance.