Jon didn't explain the real point.
ExecutorService is based on threads, while C#'s
await can be said to be based on fibers.
Both allow multitasking, which splits computing resources between concurrent functions (ie, functions that run "simultaneously"). The first kind of multitasking is called pre-emptive, while the second co-operative. Historically, preemptive multitasking was considered more advanced and superior to cooperative. Indeed, before preemptive multitasking became supported by consumer operating systems, computers really sucked. However, preemptive multitasking has its shortcomings. It can be hard to program for, and it uses more memory.
The main difference between the two is that preemptive multitasking allows the runtime (usually, the operating system itself) to stop any function at any time and start a different function (and to run them simultaneously on different CPUs). Meanwhile, cooperative multitasking requires the running function to end or to voluntarily pause. Most of us are familiar with preemptive multitasking in the form of multithreading, as well as the kind of careful programming that goes with it. Fewer are familiar with cooperative multitasking, which nowdays is often called fibers or coroutines (in which case it's implemented in userland inside the threads of a preemptive OS).
Anyway, the point is that
await are not directly comparable, and
await isn't, in general, superior to real multithreading (except that it features nice syntactic sugar). C#'s reason for including
await (and basing it on cooperative multitasking) is that the major GUI toolkits on the platform are not designed for multithreading and refactoring them to support concurrency would take a boatload of work. Cooperative multitasking works well for the UI because most of the event handlers are short and can be executed serially.
await extends the concept of the event loop by letting long event handlers pause themselves and resume after the rendering function gets a chance to run. All of this happens in a single thread on a single CPU core.
Where they both find common ground is that they're both forms of multitasking, and
await Task are both forms of synchronization.
As can be expected, C# is not without good support for threads and thread pools. Likewise, Java contains fibers/co-routines/async in many libraries, such as Servlet 3.0 and
In response to Jon Skeet: Continuation (as the userland implementation mechanism of fibers is called) is non-trivial, but threads are no less sophisticated in their implementation. Jon may have been thrown off because the algorithms behind threads are in the OS rather than in the compiler or .NET runtime.