I would take a look at the developer docs.
Allocating and Reclaiming App Memory
Here are some facts about how Android allocates then reclaims memory
from your app:
The Dalvik heap for each process is constrained to a single virtual
memory range. This defines the logical heap size, which can grow as it
needs to (but only up to a limit that the system defines for each
app). The logical size of the heap is not the same as the amount of
physical memory used by the heap. When inspecting your app's heap,
Android computes a value called the Proportional Set Size (PSS), which
accounts for both dirty and clean pages that are shared with other
processes—but only in an amount that's proportional to how many apps
share that RAM. This (PSS) total is what the system considers to be
your physical memory footprint. For more information about PSS, see
the Investigating Your RAM Usage guide. The Dalvik heap does not
compact the logical size of the heap, meaning that Android does not
defragment the heap to close up space. Android can only shrink the
logical heap size when there is unused space at the end of the heap.
But this doesn't mean the physical memory used by the heap can't
shrink. After garbage collection, Dalvik walks the heap and finds
unused pages, then returns those pages to the kernel using madvise.
So, paired allocations and deallocations of large chunks should result
in reclaiming all (or nearly all) the physical memory used. However,
reclaiming memory from small allocations can be much less efficient
because the page used for a small allocation may still be shared with
something else that has not yet been freed.
Restricting App Memory
To maintain a functional multi-tasking environment, Android sets a
hard limit on the heap size for each app. The exact heap size limit
varies between devices based on how much RAM the device has available
overall. If your app has reached the heap capacity and tries to
allocate more memory, it will receive an OutOfMemoryError.
In some cases, you might want to query the system to determine exactly
how much heap space you have available on the current device—for
example, to determine how much data is safe to keep in a cache. You
can query the system for this figure by calling getMemoryClass(). This
returns an integer indicating the number of megabytes available for
your app's heap. This is discussed further below, under Check how much
memory you should use.
Just to extract the info you want:
The exact heap size limit varies between devices based on how much
RAM the device has available overall.
You could delve into the source code to look at how heap memory is
calculated, but I am not sure what you will gain from this.
The heap memory will probably vary on OS version as there will be
many differences in service and OS resource usage that will affect
how much RAM is available to a device after this has been taken from
the gross total RAM.
If you are really looking for in depth info on memory heap, i would use the memory debugging tools detailed here.