问题
I'm figuring what a timer implementation to use if you need to schedule tons of (non blocking) tasks as fast as possible inside jvm on one machine.
I've studied ScheduledThreadPoolExecutor and HashedWheelTimer sources (+wheel timer general docs) and here are basic differences (N - number of all outstanding scheduled tasks so far, C - wheel size):
ScheduledThreadPoolExecutor
- O(log N) for adding new task
- O(1) per each timer tick (but tick per each task, so N overall)
- O(log N) cancelling the task
- lock per each tick/task
HashedWheelTimer
- O(1) adding new task
- O(m) per each timer tick (m ~ N/C where C > 512 approx), so ~C ticks overall
- O(m) for cancelling a task
- lock per bucket of tasks (on each tick)
Thus I tend using HW Timer for such use-case, because you must schedule tasks quickly with minimum overhead, i.e. O(1) for new task. Also you will minimize a bookkeeping activity, because you'll get less number of ticks (N < C) and less lock contention. Canceling is not very important feature in this case
Did anybody try these timers for similar activities and what results see in practice? Thanks!
回答1:
HWT. Unless you require to-the-ns-precision, use the HWT. For most client-server applications, a HWT is sufficient. In many internet-scale applications, especially for in-memory caches that were the timeout was constantly changing, it was the only option. We're talking about billions of jobs here.
Actually, if you require that level of precision, you need a system with guaranteed interrupt times and not GC pauses; i.e. not Java, not Intel... :)
来源:https://stackoverflow.com/questions/17276393/hashedwheeltimer-vs-scheduledthreadpoolexecutor-for-higher-performance