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Sep
23
comment Avoiding gcc function prologue overhead?
Has there been any improvements on this? In either gcc or llvm?
Aug
10
comment Whole one core dedicated to single process
Is it still true that isolcpus gives better isolation than cpusets, even when --kthread=on option is provided?
Apr
24
comment C++11 memory_order_acquire and memory_order_release semantics?
Ok, I wouldn't say I don't care about optimizations :), just that I first need to know the semantics and only then what are the optimizations allowed under these semantics.
Apr
24
comment C++11 memory_order_acquire and memory_order_release semantics?
@Cubbi: I think all formulations of type "No reads/writes in the reader/writer thread can be reordered before/after the atomic load/store" should be removed. First, I think they are wrong (e.g. there could be reads in the reader that could be reorder before the atomic load without breaking the acq-rel semantics). Second, as a programmer, I don't care what reordering compiler/hardware may do to boost performance, I care about the fact that statements (sequenced-)before relase in threadA will appear to be executed before the statements that are (sequenced-)after the acquire done by threadB.
Apr
24
comment C++11 memory_order_acquire and memory_order_release semantics?
Thanks. I'm familiar with the paper - this is the source of my confusion: acquire access/operation semantics usually guarantee that both loads and stores that are after (in program order) do indeed appear as executed after the acquire op. cppreference however seems to allow writes to appear as executed before.
Apr
23
comment C++11 memory_order_acquire and memory_order_release semantics?
I've added lock in the trace above. I imagine that the post-acquire-write at (5) can be executed before (4).