Yes, that is certainly a possible solution. I'm not entirely sure what boost is doing with its singleton behind the scenes; you can look that up yourself in the code.
The singleton pattern is just like creating a global object and accessing the global object, in most respects. There are some differences:
1) The singleton object instance is not created until it is first accessed, whereas the global object is created at program startup.
2) Because the singleton object is not created until it is first accessed, it is actually created when the program is running. Thus the singleton instance has access to other fully constructed objects in the program when the constructor is actually running.
3) Because you access the singleton through the getInstance() method (boost's get_const_instance method) there is a little bit of overhead for executing that method call.
So if you're not concerned about when the singleton is actually created, and can live with it being created at program startup, you could just go with a global variable and access that. If you really need the singleton created after the program starts up, then you need the singleton. In that case, you can grab and hold onto a reference to the object returned by get_const_instance() and use that reference.
Something that bit me in the past though you should be aware of. You're actually getting a reference to the object that is owned by the singleton. You don't own that object.
1) Do not write code that would cause the destructor to execute (say, using a shared pointer on the returned reference), or write any other code that could cause the object to end up in a bad state.
2) In a multi-threaded app, take care to correctly lock fields in the object if the object may be used by more than one thread.
3) In a multi-threaded app, make sure that all threads that hold onto references to the object terminate before the program is unloaded. I've seen a case where the singleton's code resides in one DLL library; a thread that holds the reference lives in another DLL library. When the program ends, the thread was still active. The DLL holding the singleton's code was unloaded first; the thread that was still alive tried to do something to the singleton's object and caused a crash.