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Apr
14
awarded  Caucus
Nov
17
awarded  Notable Question
Jul
2
awarded  Curious
Jun
20
accepted Performance implications of context switches for 64-bit segment bases
May
1
awarded  Nice Question
Apr
13
awarded  Yearling
Apr
10
awarded  Nice Question
Feb
23
answered FreeBSD zone allocator
Feb
21
comment epoll IO with worker threads in C
@invictus That's cool. I've been doing something similar but with I/O-bound work. I tried 1 listener thread + N workers w/ single and separate lock-free FIFO work queues. What killed performance was cache line bouncing and figuring out when/how to sleep and wake workers. Isolation was truly the key to 10-100x speedup. However, sharing writable data may be negligible in your case if processing is lengthy. Good luck. :)
Feb
21
comment epoll IO with worker threads in C
@pindumb Won't be a problem for low thread counts (one per physical core). Under load, chances are only a small portion of the threads will witness the readable listener. If it is a concern, the listener could be rotated amongst the threads. It would be a different story with hundreds or thousands of threads.
Feb
20
comment epoll IO with worker threads in C
@invictus Yes, the workload won't be perfectly balanced unless you distribute the connections evenly yourself in the listener handler, which may add some complexity. Is your work CPU- or I/O-bound? More threads than processor cores will just introduce more context switching if it's CPU-bound.
Feb
20
answered epoll IO with worker threads in C
Feb
8
revised How to launch Ubuntu From Boot loader
improved formatting
Feb
8
suggested approved edit on How to launch Ubuntu From Boot loader
Jan
9
answered Explanation of Long Jump to Segment
Jan
1
awarded  Tumbleweed
Dec
29
revised Netmap/PF_RING and TCP Segmentation Offload and Large Receive Offload
added tag for more exposure
Dec
25
asked Netmap/PF_RING and TCP Segmentation Offload and Large Receive Offload
Dec
9
accepted To what extent must atomic types be used to guarantee cross-thread visibility?
Dec
9
comment To what extent must atomic types be used to guarantee cross-thread visibility?
I'm still digesting this answer, but I'm curious if an acquire/release pair does indeed observe a new value (refcount), will the non-atomic fields be visible to other threads too? In this case, I'd initialize bar1 and bar2, and then publish the structure by setting refcount to 1 and post it somewhere. Basically, I cannot risk other threads seeing garbage in the non-atomic fields.