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After reading Anandtech on 'Haswell TSX' (tranactional memory barriers) I immediately wondered if CLR/JVM will be able to make use of these in C#/Java/Scala/F# for heavily parallel applications (C# Rx/TPL/TFD).

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Before you vote to close, this processor change could have big impacts on server-side programming. Specifically whether these runtimes can use these instructions with existing constructs or whether new constructs (STM) will have to be introduced for programmers to take advantage of the new hardware. –  yzorg Dec 7 '12 at 6:30
    
Joe Duffy's latest blog post helped to clarify what the next generation in multi-threading will look like (at least for C#/.NET). bluebytesoftware.com/blog/2012/12/08/ImperativeFunctional.aspx –  yzorg Jan 2 '13 at 6:53
    
Maybe they'll fix that eventually but for now they suggest no to use this feature as it's broken: HSW136, No Fix, Software Using Intel® TSX May Result in Unpredictable System Behavior on page 12 of the spec update pdf. So I guess there will be no more effort to include this feature in CLR or JVM until it's finally fixed. –  mbx Aug 14 at 11:24

3 Answers 3

HLE(hardware lock elision) can be easily integrated into any existing codebase that use locks. For example, there is already exists such pthread implementation. Also, note that JVM already perform lock elision optimization, I think they can switch to hardware lock elision when possible easily.

But things gets more complicated with transactions. You can't start transaction and push 1Mb of updates, your transaction will be aborted. Because of that, hardware transactional memory is limited, it is not as composable and modular as software transactional memory. It is very low level thing. Also, note that not every function can be called safely from transaction. Such function must be free from side effects.

Because of that, I expect TSX will be available in CLR in form of compiler intrinsics that will be used by framework developers to create better concurrent collections and synchronization primitives. It won't be like Haskell's or Clojure's transactional memory.

As c++ developer I already know how to use TSX instruction set, for example, to build lock-free algorithms, queues, hashes and so on.

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I expect the high performance JVM guys will jump on it first. e.g. http://www.azulsystems.com/products/zing/virtual-machine

I see TSX being of most use in high performance collection implementations. I don't see any reason why we can't implement a set of native code collections using TSX, and project that to .Net or Java using regular native invoke techniques.

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Old question, but I thought I'd add a new answer with at least one concrete pointer

Intel has done experimentation using their TSX system to elide locks in Java, published here. Typical results though are only 2-3% on standard benchmarks such as SpecJVM2008, though one benchmark does see 18% improvement. Synthetic benchmarks see much better results, but the results are... synthetic.

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