If your app can accommodate GPL licensed code, then I'd recommend Hoard. You'll have to write your own wrapper to it but that is very easy. In my tests, I found nothing that matched this code. If your code cannot accommodate the GPL then you can obtain a commercial licence of Hoard, for a significant fee.
Even if you can't use Hoard in an external release of your code you could compare its performance with that of FastMM to determine whether or not your app has problems with heap allocation scalability.
I have also found that the memory allocators in the versions of msvcrt.dll distributed with Windows Vista and later scale quite well under thread contention, certainly much better than FastMM does. I use these routines via the following Delphi MM.
size_t = Cardinal;
msvcrtDLL = 'msvcrt.dll';
function malloc(Size: size_t): Pointer; cdecl; external msvcrtDLL;
function realloc(P: Pointer; Size: size_t): Pointer; cdecl; external msvcrtDLL;
procedure free(P: Pointer); cdecl; external msvcrtDLL;
function GetMem(Size: Integer): Pointer;
Result := malloc(size);
function FreeMem(P: Pointer): Integer;
Result := 0;
function ReallocMem(P: Pointer; Size: Integer): Pointer;
Result := realloc(P, Size);
function AllocMem(Size: Cardinal): Pointer;
Result := GetMem(Size);
if Assigned(Result) then begin
FillChar(Result^, Size, 0);
function RegisterUnregisterExpectedMemoryLeak(P: Pointer): Boolean;
Result := False;
MemoryManager: TMemoryManagerEx = (
It is worth pointing out that your app has to be hammering the heap allocator quite hard before thread contention in FastMM becomes a hindrance to performance. Typically in my experience this happens when your app does a lot of string processing.
My main piece of advice for anyone suffering from thread contention on heap allocation is to re-work the code to avoid hitting the heap. Not only do you avoid the contention, but you also avoid the expense of heap allocation – a classic twofer!