Option 1: Don't care. If you look in the java HashSet implementation you discover that it simply uses a HashMap internally:
public class HashSet<E>
implements Set<E>, Cloneable, java.io.Serializable
static final long serialVersionUID = -5024744406713321676L;
private transient HashMap<E,Object> map;
That is a quick implementation, however, each set entry has a reference to a value, that is not needed. Hence the memory consumption. My first option is to "don't care", since I hope that sometime in the future someone will provide an improved HashSet in the JDK. Software engineers should always have hope and a positive attitude :)
Within normal program logic I always stick to the provided standards as much as possible and use what is available. This avoids the effect that each programmer uses its own "favorite Set implementation", or, even worse, does a lengthy research what is the actually best HashSet implementation to use ;)
Does Oracle have an open bug ticket for the poor HashMap? Cannot find one....
Option 2: Care. If you are not on business logic value but within some technical middleware code, then performance may matter. Then there are various options.
The CompactHashMap within Google Guava is one. Another nice library is the High Performance Primitive Collections. Within HPPC you find sets for every primitive type also. I think you also will find other stuff that fits your particular purpose. Not every HashMap replacement may have the exact same semantics as the orginal HashMap.
So, I personally would never replace java.util.HashMap just "by default".