When should I use every one of them and which strategy is better in terms of resource utilisation?
I think the docs explain the difference and usage of these two functions pretty well:
In terms of resources, the
Given this, the resource consumption will depend very much in the situation. For instance, If you have a huge number of long running tasks I would suggest the
That’s right, Executors.newCachedThreadPool() isn't a great choice for server code that's servicing multiple clients and concurrent requests.
Why? There are basically two (related) problems with it:
1) It's unbounded, which means that you're opening the door for anyone to cripple your JVM by simply injecting more work into the service (DoS attack). Threads consume a non-negligible amount of memory and also increase memory consumption based on their work-in-progress, so it's quite easy to topple a server this way (unless you have other circuit-breakers in place).
2) The unbounded problem is exacerbated by the fact that the Executor is fronted by a SynchronousQueue which means there's a direct handoff between the task-giver and the thread pool. Each new task will create a new thread if all existing threads are busy. This is generally a bad strategy for server code. When the CPU gets saturated, existing tasks take longer to finish. Yet more tasks are being submitted and more threads created, so tasks take longer and longer to complete. When the CPU is saturated, more threads is definitely not what the server needs.
Here are my recommendations:
Use a fixed-size thread pool (Executors.newFixedThreadPool) or a ThreadPoolExecutor with a set maximum number of threads;
You must use newCachedThreadPool only when you have short-lived asynchronous tasks as stated in Java doc, if you submit tasks which takes longer time to process, you will end up creating to many threads. You may hit 100% CPU if you submit long running tasks at faster rate to newCachedThreadPool (http://rashcoder.com/be-careful-while-using-executors-newcachedthreadpool/).