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What is a global interpreter lock and why is that an issue?

A lot noise has been made around removing the GIL from Python, and I'd like to understand why that is so important. I have never written a compiler nor an interpreter myself, so don't be frugal with details, I'll probably need them to understand.

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10 Answers 10

up vote 73 down vote accepted

Python's GIL is intended to serialize access to interpreter internals from different threads. On multi-core systems, it means that multiple threads can't effectively make use of multiple cores. (If the GIL didn't lead to this problem, most people wouldn't care about the GIL - it's only being raised as an issue because of the increasing prevalence of multi-core systems.) If you want to understand it in detail, you can view this video or look at this set of slides. It might be too much information, but then you did ask for details :-)

Note that Python's GIL is only really an issue for CPython, the reference implementation. Jython and IronPython don't have a GIL. As a Python developer, you don't generally come across the GIL unless you're writing a C extension. C extension writers need to release the GIL when their extensions do blocking I/O, so that other threads in the Python process get a chance to run.

Update: Updated link to video to point to Youtube, as the earlier link had rotted.

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Whatching the video. Great stuff. – e-satis Aug 18 '09 at 15:17
Good answer - basically it means that threads in Python are only good for blocking I/O; your app will never go above 1 CPU core of processor usage – Paul Betts Aug 18 '09 at 15:26
"As a Python developer, you don't generally come across the GIL unless you're writing a C extension" - You might not know that the cause of your multi-threaded code running at a snails pace is the GIL, but you'll certainly feel its effects. It still amazes me that to take advantage of a 32-core server with Python means I need 32 processes with all the associated overhead. – Basic Jan 7 '14 at 17:42
@PaulBetts: it is not true. It is likely that performance critical code already uses C extensions that can and do release GIL e.g., regex, lxml, numpy modules. Cython allows to release GIL in custom code e.g., b2a_bin(data) – J.F. Sebastian Aug 16 '15 at 13:34

Suppose you have multiple threads which don't really touch each other's data. Those should execute as independently as possible. If you have a "global lock" which you need to acquire in order to (say) call a function, that can end up as a bottleneck. You can wind up not getting much benefit from having multiple threads in the first place.

To put it into a real world analogy: imagine 100 developers working at a company with only a single coffee mug. Most of the developers would spend their time waiting for coffee instead of coding.

None of this is Python-specific - I don't know the details of what Python needed a GIL for in the first place. However, hopefully it's given you a better idea of the general concept.

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Like the coffe mug analogy. – e-satis Aug 18 '09 at 15:04

Watch David Beazley tell you everything you ever wanted to know about the GIL.

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He's a great talker - if anybody's going to convince you that the GIL sucks, it's him. – new123456 Jul 7 '11 at 1:11
the link is dead. :( – szeitlin May 11 '15 at 17:09
David Beazley - Understanding the Python GIL - – Zv_oDD Jun 14 '15 at 21:16

Whenever two threads have access to the same variable you have a problem. In C++ for instance, the way to avoid the problem is to define some mutex lock to prevent two thread to, let's say, enter the setter of an object at the same time.

Multithreading is possible in python, but two threads cannot be executed at the same time at a granularity finer than one python instruction. The running thread is getting a global lock called GIL.

This means if you begin write some multithreaded code in order to take advantage of your multicore processor, your performance won't improve. The usual workaround consists of going multiprocess.

Note that it is possible to release the GIL if you're inside a method you wrote in C for instance.

The use of a GIL is not inherent to Python but to some of its interpreter, including the most common CPython. (#edited, see comment)

The GIL issue is still valid in Python 3000.

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Stackless still has a GIL. Stackless does not improve threading (as in, the module) - it offers a different method of programming (coroutines) which attempt to side-step the issue, but require non-blocking functions. – jnoller Aug 18 '09 at 16:24
Good point. Thank you for the comment – fulmicoton Aug 18 '09 at 22:19
What about the new GIL in 3.2? – new123456 Jul 7 '11 at 1:11
Just to add that you don't have a problem/need mutexes/semaphores if only one thread will update the memory. @new123456 it reduces the contention and schedules threads better without hurting single-threaded performance (which is impressive in itself) but it's still a global lock. – Basic Jan 7 '14 at 17:45

Here's a longish article talking about the GIL and threading in Python I wrote awhile back. It goes into a fair amount of detail on it:

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nice info der!!!!!!!!!! thanx – vks Jan 21 at 8:18

Let's first understand what the python GIL provides:

Any operation/instruction is executed in the interpreter. GIL ensures that interpreter is held by a single thread at a particular instant of time. And your python program with multiple threads works in a single interpreter. At any particular instant of time, this interpreter is held by a single thread. It means that only the thread which is holding the interpreter is running at any instant of time.

Now why is that an issue:

Your machine could be having multiple cores/processors. And multiple cores allow multiple threads to execute simultaneously i.e multiple threads could execute at any particular instant of time.. But since the interpreter is held by a single thread, other threads are not doing anything even though they have access to a core. So, you are not getting any advantage provided by multiple cores because at any instant only a single core, which is the core being used by the thread currently holding the interpreter, is being used. So, your program will take as long to execute as if it were a single threaded program.

However, potentially blocking or long-running operations, such as I/O, image processing, and NumPy number crunching, happen outside the GIL. Taken from here. So for such operations, a multithreaded operation will still be faster than a single threaded operation despite the presence of GIL. So, GIL is not always a bottleneck.

Edit: GIL is an implementation detail of CPython. PyPy and Jython don't have GIL, so a truly multithreaded program should be possible in them, thought I have never used PyPy and Jython and not sure of this.

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Wikipedia has a nice description of a global interpreter lock

That article links this nice article that discusses the GIL in Python.

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Possibly it's better to link to the start of that DDJ article - – Vinay Sajip Aug 18 '09 at 15:02
Thanks, but I did my homework before asking the question here, and of course went to google and wikipedia first. – e-satis Aug 18 '09 at 15:02

Here is some code demonstrating effects of GIL:

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Why Python (CPython and others) uses the GIL


In CPython, the global interpreter lock, or GIL, is a mutex that prevents multiple native threads from executing Python bytecodes at once. This lock is necessary mainly because CPython's memory management is not thread-safe.

How to remove it from Python?

Like Lua, maybe Python could start multiple VM, But python doesn't do that, I guess there should be some other reasons.

In Numpy or some other python extended library, sometimes, releasing the GIL to other threads could boost the efficiency of the whole programme.

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I want to share an example from the book multithreading for Visual Effects. So here is a classic dead lock situation

static void MyCallback(const Context &context){
Auto<Lock> lock(GetMyMutexFromContext(context));
EvalMyPythonString(str); //A function that takes the GIL

Now consider the events in the sequence resulting a dead-lock.

║   ║ Main Thread                            ║ Other Thread                         ║
║ 1 ║ Python Command acquires GIL            ║ Work started                         ║
║ 2 ║ Computation requested                  ║ MyCallback runs and acquires MyMutex ║
║ 3 ║                                        ║ MyCallback now waits for GIL         ║
║ 4 ║ MyCallback runs and waits for MyMutex  ║ waiting for GIL                      ║
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