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I will have to create a multi-threading project soon and I keep hearing people saying that the default Delphi memory manager has problems with multi-threading. So, I have found this SynScaleMM. Anybody can give some feedback on it or on a similar memory manager?


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Could you please provide a citation for where you "keep hearing" that? You shouldn't make design decisions based on rumor and hearsay. –  Rob Kennedy May 20 '11 at 13:09
Which version of Delphi are you on? Have you moved to a Delphi based on a modern FastMM, or are you still on the old Borland MM? –  David Heffernan May 20 '11 at 13:11
I've heard people say that the world will end tomorrow; that doesn't make it so. As @Rob said, you shouldn't make major decisions (of which a memory manager is definitely one) based on something you "keep hearing". FastMM4 performs pretty well in multi-threaded apps unless you're doing something really intensive; if that were the case, you'd have specific reasons you wanted to change. –  Ken White May 20 '11 at 13:37
For example, I posted a bug in QC where FastMM can even deadlock under heavy concurrent MT. –  user160694 May 20 '11 at 14:51
I'll say this: good architecture is worth 100 times the benefit of swapping memory managers, unless the memory manager is very bad (and FastMM is pretty good). It you use messaging between threads then you reduce contention down to a level where this is just not a significant issue. If you need to swap memory managers (and unless you are seriously maxing out a machine with 10+ cores) then I suggest it the architecture thay needs changing, not the memory manager. –  Misha May 21 '11 at 2:55
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5 Answers

up vote 37 down vote accepted

Our SynScaleMM is still experimental.

EDIT: Take a look at the more stable ScaleMM2 and the brand new SAPMM. But my remarks below are still worth following: the less allocation you do, the better you scale!

But it worked as expected in a multi-threaded server environment. Scaling is much better than FastMM4, for some critical tests.

But the Memory Manager is perhaps not the bigger bottleneck in Multi-Threaded applications. FastMM4 could work well, if you don't stress it.

Here are some (not dogmatic, just from experiment and knowledge of low-level Delphi RTL) advice if you want to write FAST multi-threaded application in Delphi:

  • Always use const for string or dynamic array parameters like in MyFunc(const aString: String) to avoid allocating a temporary string per each call;
  • Avoid using string concatenation (s := s+'Blabla'+IntToStr(i)) , but rely on a buffered writing such as TStringBuilder available in latest versions of Delphi;
  • TStringBuilder is not perfect either: for instance, it will create a lot of temporary strings for appending some numerical data, and will use the awfully slow SysUtils.IntToStr() function when you add some integer value - I had to rewrite a lot of low-level functions to avoid most string allocation in our TTextWriter class as defined in SynCommons.pas;
  • Don't abuse on critical sections, let them be as small as possible, but rely on some atomic modifiers if you need some concurrent access - see e.g. InterlockedIncrement / InterlockedExchangeAdd;
  • InterlockedExchange (from SysUtils.pas) is a good way of updating a buffer or a shared object. You create an updated version of of some content in your thread, then you exchange a shared pointer to the data (e.g. a TObject instance) in one low-level CPU operation. It will notify the change to the other threads, with very good multi-thread scaling. You'll have to take care of the data integrity, but it works very well in practice.
  • Don't share data between threads, but rather make your own private copy or rely on some read-only buffers (the RCU pattern is the better for scaling);
  • Don't use indexed access to string characters, but rely on some optimized functions like PosEx() for instance;
  • Don't mix AnsiString/UnicodeString kind of variables/functions, and check the generated asm code via Alt-F2 to track any hidden unwanted conversion (e.g. call UStrFromPCharLen);
  • Rather use var parameters in a procedure instead of function returning a string (a function returning a string will add an UStrAsg/LStrAsg call which has a LOCK which will flush all CPU cores);
  • If you can, for your data or text parsing, use pointers and some static stack-allocated buffers instead of temporary strings or dynamic arrays;
  • Don't create a TMemoryStream each time you need one, but rely on a private instance in your class, already sized in enough memory, in which you will write data using Position to retrieve the end of data and not changing its Size (which will be the memory block allocated by the MM);
  • Limit the number of class instances you create: try to reuse the same instance, and if you can, use some record/object pointers on already allocated memory buffers, mapping the data without copying it into temporary memory;
  • Always use test-driven development, with dedicated multi-threaded test, trying to reach the worse-case limit (increase number of threads, data content, add some incoherent data, pause at random, try to stress network or disk access, benchmark with timing on real data...);
  • Never trust your instinct, but use accurate timing on real data and process.

I tried to follow those rules in our Open Source framework, and if you take a look at our code, you'll find out a lot of real-world sample code.

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+1 Most of this list of good advice could be summarised as "don't use the heap if at all possible" –  David Heffernan May 20 '11 at 19:02
@David ... As you stated yourself in your answer! I just wanted to make it more clear, with precise workaround tricks and ideas. –  Arnaud Bouchez May 20 '11 at 19:03
Interesting advice, but some of it seems to be prioritising speed at the cost of maintainability (for example, functions returning strings is a much more "natural" way of writing code than procedures with var parameters). So I'd also add to the advice "Don't prematurely optimise". Only make some of these changes if you really need the speed. –  Jonathan Morgan May 23 '11 at 1:56
@Jonathan You're perfectly right: that was the reason of my last two advices (first benchmark and profile). But if you want your multi-threaded application to scale well with FastMM4 and the current reference count implementation (i.e. the asm LOCK), you'll have in all cases to get rid of (temporary) string allocation in loops. –  Arnaud Bouchez May 23 '11 at 5:22
@Darian ShortString is an AnsiString, and will be converted into a plain String before using any method of the VCL. So you'll have even more memory allocations here. And since Delphi 2009, you'll loose Unicode capabilitieS. ShortString can be handy in some cases (for handling numerical data or code-level identifiers), but you will have to use only ShortString methods to avoid all those hidden conversions to string. So IMHO this is not a general rule to advice here - it may slow down your app. –  Arnaud Bouchez Sep 29 '11 at 5:38
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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.

unit msvcrtMM;



  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 = (
    GetMem: GetMem;
    FreeMem: FreeMem;
    ReallocMem: ReallocMem;
    AllocMem: AllocMem;
    RegisterExpectedMemoryLeak: RegisterUnregisterExpectedMemoryLeak;
    UnregisterExpectedMemoryLeak: RegisterUnregisterExpectedMemoryLeak



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!

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Hoard offers a commercial license only. Not cheap, but it allows for non GPL applications. –  user160694 May 20 '11 at 14:56
@Idsandon I've updated the question to expand on Hoard's licence. –  David Heffernan May 20 '11 at 15:08
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FastMM deals with multi-threading just fine. It is the default memory manager for Delphi 2006 and up.

If you are using an older version of Delphi (Delphi 5 and up), you can still use FastMM. It's available on SourceForge.

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In fact, FastMM scales rather poorly under heavy thread contention. –  David Heffernan May 20 '11 at 13:22
@Bruce Under any workload as far as I know. FastMM is simply not scalable. That's why you find the existence of lots of scalable MMs. –  David Heffernan May 20 '11 at 13:29
FWIW, I have an app doing lots of transfers and using about 400 threads, and FastMM handles it fine. I think that using a known and well tested MM is more important than a potential improvement and potential pitfalls of a fault when multi-threading. –  mj2008 May 20 '11 at 13:38
I use FastMM for highly multi-threaded servers (with 100+ concurrent threads) on dual quad and hex core machines. One particular server has been up for 6 months and processed over 1,000,000,000 internal messages. I have never had any issues with FastMM over the 5 years I have used it, so you woud need a pretty compelling reason to switch. –  Misha May 21 '11 at 2:48
I'm with Bruce here. Lots of talk about small performance gains (5%, etc), which given that a newer processor or more cores can boost performance by multiples just seems to me to be a waste of time. Similarly, architectural changes can boost performance by way more than you will get by changing memory managers. –  Misha May 21 '11 at 3:00
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You could use TopMM: http://www.topsoftwaresite.nl/

You could also try ScaleMM2 (SynScaleMM is based on ScaleMM1) but I have to fix a bug regarding to interthread memory, so not production ready yet :-( http://code.google.com/p/scalemm/

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Deplhi 6 memory manager is outdated and outright bad. We were using RecyclerMM both on a high-load production server and on a multi-threaded desktop application, and we had no issues with it: it's fast, reliable and doesn't cause excess fragmentation. (Fragmentation was Delphi's stock memory manager worst issue).

The only drawback of RecyclerMM is that it isn't compatible with MemCheck out of the box. However, a small source alteration was enough to render it compatible.

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Where does Delphi 6 come into this question, OP is using XE? And who uses MemCheck anymore? And I can't even find RecyclerMM - is it still alive? –  David Heffernan May 20 '11 at 19:31
RecyclerMM is only good compared to the Delphi 6 defaults. FastMM is way better than that, and you can use FastMM on any delphi version from 6 to the latest. –  Warren P May 21 '11 at 17:03
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