How often do you find yourself actually using spinlocks in your code? How common is it to come across a situation where using a busy loop actually outperforms the usage of locks?
Personally, when I write some sort of code that requires thread safety, I tend to benchmark it with different synchronization primitives, and as far as it goes, it seems like using locks gives better performance than using spinlocks. No matter for how little time I actually hold the lock, the amount of contention I receive when using spinlocks is far greater than the amount I get from using locks (of course, I run my tests on a multiprocessor machine).

I realize that it's more likely to come across a spinlock in "low-level" code, but I'm interested to know whether you find it useful in even a more high-level kind of programming?

  • 5
    By and large, spin locks can "get the job done" (synchronization). I'm watching this to see an answer to "Are there any situations in C# where a spinlock is an appropriate synchronization method?" – Sam Harwell Sep 21 '09 at 19:03

10 Answers 10


It depends on what you're doing. In general application code, you'll want to avoid spinlocks.

In low-level stuff where you'll only hold the lock for a couple of instructions, and latency is important, a spinlock mat be a better solution than a lock. But those cases are rare, especially in the kind of applications where C# is typically used.

  • 27
    In particular, where you have multiple cores, then spinning one core waiting for another core might be much, much faster then provoking a reschedule. Context switches can add up, if you have a lot of contention. Single core, spinlocks are less than compelling, since it amounts to abandoning the rest of your timeslice without actually letting the next thread get in until it expires, so it amounts to a really slow yield... – Steve Jessop Sep 21 '09 at 19:52

In C#, "Spin locks" have been, in my experience, almost always worse than taking a lock - it's a rare occurrence where spin locks will outperform a lock.

However, that's not always the case. .NET 4 is adding a System.Threading.SpinLock structure. This provides benefits in situations where a lock is held for a very short time, and being grabbed repeatedly. From the MSDN docs on Data Structures for Parallel Programming:

In scenarios where the wait for the lock is expected to be short, SpinLock offers better performance than other forms of locking.

Spin locks can outperform other locking mechanisms in cases where you're doing something like locking through a tree - if you're only having locks on each node for a very, very short period of time, they can out perform a traditional lock. I ran into this in a rendering engine with a multithreaded scene update, at one point - spin locks profiled out to outperform locking with Monitor.Enter.


For my realtime work, particularly with device drivers, I've used them a fair bit. It turns out that (when last I timed this) waiting for a sync object like a semaphore tied to a hardware interrupt chews up at least 20 microseconds, no matter how long it actually takes for the interrupt to occur. A single check of a memory-mapped hardware register, followed by a check to RDTSC (to allow for a time-out so you don't lock up the machine) is in the high nannosecond range (basicly down in the noise). For hardware-level handshaking that shouldn't take much time at all, it is really tough to beat a spinlock.


My 2c: If your updates satisfy some access criteria then they are good spinlock candidates:

  • fast, ie you will have time to acquire the spinlock, perform the updates and release the spinlock in a single thread quanta so that you don't get pre-empted while holding the spinlock
  • localized all data you update are in preferably one single page that is already loaded, you do not want a TLB miss while you holding the spinlock, and you definetely don't want an page fault swap read!
  • atomic you do not need any other lock to perform the operation, ie. never wait for locks under spinlock.

For anything that has any potential to yield, you should use a notified lock structure (events, mutex, semaphores etc).

  • kernel mode lock mechanisms are much slower in comparison to user mode lock choices, sometimes up to 100 times! so, mutex etc. may not be an option for a really good implementation. – Zuuum Feb 13 '11 at 5:19

One use case for spin locks is if you expect very low contention but are going to have a lot of them. If you don't need support for recursive locking, a spinlock can be implemented in a single byte, and if contention is very low then the CPU cycle waste is negligible.

For a practical use case, I often have arrays of thousands of elements, where updates to different elements of the array can safely happen in parallel. The odds of two threads trying to update the same element at the same time are very small (low contention) but I need one lock for every element (I'm going to have a lot of them). In these cases, I usually allocate an array of ubytes of the same size as the array I'm updating in parallel and implement spinlocks inline as (in the D programming language):

while(!atomicCasUbyte(spinLocks[i], 0, 1)) {}
    myArray[i] = newVal;
atomicSetUbyte(spinLocks[i], 0);

On the other hand, if I had to use regular locks, I would have to allocate an array of pointers to Objects, and then allocate a Mutex object for each element of this array. In scenarios such as the one described above, this is just plain wasteful.


If you have performance critical code and you have determined that it needs to be faster than it currently is and you have determined that the critical factor is the lock speed, then it'd be a good idea to try a spinlock. In other cases, why bother? Normal locks are easier to use correctly.


Please note the following points :

  1. Most mutexe's implementations spin for a little while before the thread is actually unscheduled. Because of this it is hard to compare theses mutexes with pure spinlocks.

  2. Several threads spining "as fast as possible" on the same spinlock will consome all the bandwidth and drasticly decrease your program efficiency. You need to add tiny "sleeping" time by adding noop in your spining loop.

  • And if your mutexes do not do this then you can do a spinlock + mutex of your own: spin X number of times, then lock. – Zan Lynx Sep 21 '09 at 20:02

You hardly ever need to use spinlocks in application code, if anything you should avoid them.

I can't thing of any reason to use a spinlock in c# code running on a normal OS. Busy locks are mostly a waste on the application level - the spinning can cause you to use the entire cpu timeslice, vs a lock will immediatly cause a context switch if needed.

High performance code where you have nr of threads=nr of processors/cores might benefit in some cases, but if you need performance optimization at that level your likely making next gen 3D game, working on an embedded OS with poor synchronization primitives, creating an OS/driver or in any case not using c#.


I used spin locks for the stop-the-world phase of the garbage collector in my HLVM project because they are easy and that is a toy VM. However, spin locks can be counter-productive in that context:

One of the perf bugs in the Glasgow Haskell Compiler's garbage collector is so annoying that it has a name, the "last core slowdown". This is a direct consequence of their inappropriate use of spinlocks in their GC and is excacerbated on Linux due to its scheduler but, in fact, the effect can be observed whenever other programs are competing for CPU time.

The effect is clear on the second graph here and can be seen affecting more than just the last core here, where the Haskell program sees performance degradation beyond only 5 cores.


Always keep these points in your mind while using spinlocks:

  • Fast user mode execution.
  • Synchronizes threads within a single process, or multiple processes if in shared memory.
  • Does not return until the object is owned.
  • Does not support recursion.
  • Consumes 100% of CPU while "waiting".

I have personally seen so many deadlocks just because someone thought it will be a good idea to use spinlock.

Be very very careful while using spinlocks

(I can't emphasize this enough).

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