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view OrthancServer/Resources/ImplementationNotes/memory_consumption.txt @ 5326:fbe857e942cd
store metrics as integers instead of floats to avoid precision loss in increments
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Sun, 25 Jun 2023 18:28:49 +0200 |
parents | f5907aecbaed |
children | 566e8d32bd3a |
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In Orthanc 1.11.3, we have introduced a Housekeeper thread that tries to give back unused memory back to the system. This is implemented by calling malloc_trim every 100ms. Here is how we validated the effect of this new feature: ------------------------------------------------------- We compared the behaviour of 2 osimis/orthanc Docker images from the mainline on Feb 1st 2023. One image without the call to malloc_trim and the other with this call. 1st test: unconstrained Docker containers ......................................... 5 large studies are uploaded to each instance of Orthanc (around 1GB in total). A script triggers anonymization of these studies as quick as possible. We compare the memory used by the containers after 2 minutes of execution (using `docker stats`): - without malloc_trim: 1500 MB - with malloc_trim: 410 MB 2nd test: memory constrained Docker containers .............................................. Each Orthanc container is limited to 400MB (through the docker-compose configuration `mem_limit: 400m`) 5 large studies are uploaded to each instance of Orthanc (around 1GB in total). Each study is anonymized manually, one by one and then, we repeat the operation. We compare the memory used by the containers after each anonymization (using `docker stats`): # study without malloc_trim with_malloc_trim 0 ~ 50 MB ~ 50 MB 1 ~ 140 MB ~ 140 MB 2 ~ 390 MB ~ 340 MB 3 ~ 398 MB ~ 345 MB 4 out-of-memory crash ~ 345 MB 5..20 ~ 380 MB (stable) 3rd test: memory constrained Docker containers .............................................. In this last test, we lowered the memory allocation to 300MB and have been able to run the first test script for at least 7 minutes (we did not try longer !). The consumed memory is most of the time around 99% but it seems that the memory constrain is handled correctly. Note that, in this configuration, 128 MB are used by the Dicom Cache. The same test without malloc_trim could never run for more than 35 seconds. 4th test: performance impact of malloc_trim and available memory ................................................................ In this test, we have measured the time required to anonymize a 2000 instances study with various configurations. It appears that malloc_trim or the total amount of memory available in the system has no significant impact on performance. - No malloc trim, 300 MB in the system: ~ 38s - No malloc trim, 1500 MB in the system: ~ 38s - With malloc trim, 300 MB in the system: ~ 38s - With malloc trim, 1500 MB in the system: ~ 38s Conclusion: ---------- The use of malloc_trim reduces the overall memory consumption of Orthanc and avoids some of the out-of-memory situations. However, it does not guarantee that Orthanc will never reach a out-of-memory error, especially on very constrained systems. Depending on the allocation pattern, the Orthanc memory can get very fragmented and increase regularly since malloc_trim only releases memory at the end of each of malloc arena. However, note that, even long before the introduction of malloc_trim, we have observed Orthanc instances running for years without ever reaching out-of-memory errors and Orthanc is usually considered as very stable. Moreover, before each release, Orthanc integration tests are run against Valgrind and no memory leaks have been identified. malloc_trim documentation ------------------------- from (https://stackoverflow.com/questions/40513716/malloc-trim0-releases-fastbins-of-thread-arenas) If possible, gives memory back to the system (via negative arguments to sbrk) if there is unused memory at the `high' end of the malloc pool. You can call this after freeing large blocks of memory to potentially reduce the system-level memory requirements of a program. However, it cannot guarantee to reduce memory. Under some allocation patterns, some large free blocks of memory will be locked between two used chunks, so they cannot be given back to the system. The `pad' argument to malloc_trim represents the amount of free trailing space to leave untrimmed. If this argument is zero, only the minimum amount of memory to maintain internal data structures will be left (one page or less). Non-zero arguments can be supplied to maintain enough trailing space to service future expected allocations without having to re-obtain memory from the system. Malloc_trim returns 1 if it actually released any memory, else 0. On systems that do not support "negative sbrks", it will always return 0. glibc internals --------------- Lots of useful info here: https://man7.org/linux/man-pages/man3/mallopt.3.html summary: - malloc uses sbrk() or mmap() to allocate memory. mmap() is used to allocate large memory chunks, larger than M_MMAP_THRESHOLD. - about mmap(): On the other hand, there are some disadvantages to the use of mmap(2): deallocated space is not placed on the free list for reuse by later allocations; memory may be wasted because mmap(2) allocations must be page-aligned; and the kernel must perform the expensive task of zeroing out memory allocated via mmap(2). Balancing these factors leads to a default setting of 128*1024 for the M_MMAP_THRESHOLD parameter. - free() employs sbrk() to release memory back to the system and M_TRIM_THRESHOLD specifies the minimum size that is released. So, even without malloc_trim, Orthanc is able to give back memory to the system. - free() never gives back block allocated by mmap() to the system, only malloc_trim() does !