Wanted to write this down somewhere for some time, so doing it now.
As i have touched upon before (and as i understand), user-level threads share the data section of its parent process, as well as the heap of the parent process (note that when a process is "Executed" by the kernel, the kernel allocates an area to execute consisting of the text segment, data segment (memory arena). Because all threads share the heap, the allocation (e.g. done using malloc (in turn using brk or mmap) ) in the heap needs to have a lock, and this is a costly operation. Every time malloc/free is called from any of the threads, a lock has to be taken, then memory allocated/deallocated, while other threads wait on the lock.
With tcmalloc, i would expect that the heap is broken up into parts so that each thread can use only its part of the heap and there is also a centralized heap where the thread will try to grab data from in case of running out of memory on its local heap.
(btw, just while on the topic, making a quick note about Valgrind's issues with tcmalloc: from valgrind man page: "When a shared library is loaded, Valgrind checks for functions in the library that must be replaced or wrapped. For example, Memcheck replaces all malloc related functions (malloc, free, calloc, ...) with its own versions. Such replacements are done by default only in shared libraries whose soname matches a predefined soname pattern (e.g.libc.so* on linux). By default, no replacement is done for a statically linked library or for alternative libraries such as tcmalloc. In some cases, the replacements allow --soname-synonyms to specify one additional synonym pattern, giving flexibility in the replacement".)
As i have touched upon before (and as i understand), user-level threads share the data section of its parent process, as well as the heap of the parent process (note that when a process is "Executed" by the kernel, the kernel allocates an area to execute consisting of the text segment, data segment (memory arena). Because all threads share the heap, the allocation (e.g. done using malloc (in turn using brk or mmap) ) in the heap needs to have a lock, and this is a costly operation. Every time malloc/free is called from any of the threads, a lock has to be taken, then memory allocated/deallocated, while other threads wait on the lock.
With tcmalloc, i would expect that the heap is broken up into parts so that each thread can use only its part of the heap and there is also a centralized heap where the thread will try to grab data from in case of running out of memory on its local heap.
(btw, just while on the topic, making a quick note about Valgrind's issues with tcmalloc: from valgrind man page: "When a shared library is loaded, Valgrind checks for functions in the library that must be replaced or wrapped. For example, Memcheck replaces all malloc related functions (malloc, free, calloc, ...) with its own versions. Such replacements are done by default only in shared libraries whose soname matches a predefined soname pattern (e.g.libc.so* on linux). By default, no replacement is done for a statically linked library or for alternative libraries such as tcmalloc. In some cases, the replacements allow --soname-synonyms to specify one additional synonym pattern, giving flexibility in the replacement".)
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