The -Xms and -Xmx parameters define the minimum and maximum heap sizes, respectively.
Since GC occurs when the generations fill up, throughput is inversely proportional to the amount of the memory available.
By default, the JVM grows or shrinks the heap at each GC to try to keep the proportion of free space to the living objects at each collection within a specific range. This range is set as a percentage by the parameters -XX:MinHeapFreeRatio=minimum and -XX:MaxHeapFreeRatio=maximum; and the total size bounded by -Xms and -Xmx.
There is some guidelines for Java Heap Sizing available on the oracle site for glassfish tuning but should hold true for any JVM.
A troubleshooting guide from IBM recommends aiming for an application specific heap usage of a minimum heap usage of around 40% and a maximum heap usage of around 70%
Does VM manage the memory more efficiently if the maximal value is lower?
Possibly, not over allocating the heap size objects will more correctly 'fill-out' to the correct memory generations since having a large heap size less GC will be performed meaning more objects sitting in the young generation for longer which provides faster garbage collection at the price of doubling the memory usage.
I would not see any additional overhead however being the cause of the your application running out of memory with a high maximum memory allocation as being the cause and its most likely there are large objects being stored in memory or there is a memory leak somewhere in the application that is the more pressing concern than heap management.