Generally, a non-blocking architecture is based on method calls that, while they may execute for a long time on the worker thread, do not block the calling thread. If the calling thread needs to acquire information about or from the task the worker thread is executing, it is up to the calling thread to do that.
An event-based architecture is based on the concept of code being executed in response to events that are fired. The timing of code execution is generally not deterministic, but events may invoke blocking methods; just because a system is event-based does not mean everything it does is not blocking.
Generally, an asynchronous architecture is an event-based, non-blocking architecture.
When an asynchronous call is made, event handlers are registered with the API providing synchronization services, in order to notify the caller that the something the caller is interested in has happened. The call then immediately returns (non-blocking behavior), and the caller is free to continue execution. When events are fired back to the calling process, they will be handled on some thread in that process.
It is important to understand whether events will be handled on the same thread or not, as this will affect the non-blocking nature of the execution, but I'm not personally aware of any libraries that do asynchronous execution management on a single thread.
I removed the above paragraph because it's not strictly correct as stated. My intent was to say that even though the operations in the system are non-blocking, such as making calls out to an OS facility and continuing execution, the nature of single-threaded execution means that when events are fired, they will be competing with other processing tasks for compute time on the thread.