When you request a 35Gb heap using -Xmx35000m, what you are actually saying is that to allow the total space used for the heap to be 35Gb. But the total space consists of the Tenured Object space (for objects that survive multiple GC cycles), the Eden space for newly created objects, and other spaces into which objects will be copied during garbage collection.
The issue is that some of the spaces are not and cannot be used for allocating new objects. So in effect, you "lose" a significant percent of your 35Gb to overheads.
There are various -XX options that can be used to tweak the sizes of the respective spaces, etc. You might try fiddling with them to see if they make a difference. Refer to this document for more information. (The commonly used GC tuning options are listed in section 8. The -XX:NewSpace option looks promising ...)
This might be happening because you are allocating huge objects. IIRC, objects above a certain size can be allocated directly into the Tenured Object space. In your (highly artificial) benchmark, this might result in the JVM not putting stuff into the Eden space, and therefore being able to use less of the total heap space than is normal.
As an experiment, try changing your benchmark to allocate lots of small objects, and see if it manages to use more of the available space before OOME-ing.
Here are some other theories that I would discount:
"You are running into OS-imposed limits." I would discount this, since you said that you can get significantly greater memory utilization by increasing the -Xmx... setting.
"The Windows task manager is reporting bogus numbers." I would discount this because the numbers reported roughly match the 25Gb that you think your application had managed to allocate.
"You are losing space to other things; e.g. the permgen heap." AFAIK, the permgen heap size is controlled and accounted independently of the "normal" heaps. Other non-heap memory usage is either a constant (for the app) or dependent on the app doing specific things.
"You are suffering from heap fragmentation." All of the JVM garbage collectors are "copying collectors", and this family of collectors has the property that heap nodes are automatically compacted.
"JVM bug on Windows." Highly unlikely. There must be tens of thousands of 64bit Java on Windows installations that maximize the heap size. Someone else would have noticed ...
Finally, if you are NOT doing this because your application requires you to allocate memory in huge chunks, and hang onto it "for ever" ... there's a good chance that you are chasing shadows. A "normal" large-memory application doesn't do this kind of thing, and the JVM is tuned for normal applications ... not anomalous ones.
And if your application really does behave this way, the pragmatic solution is to just set the -Xmx... option larger, and only worry if you start running into OS-level issues.