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By "concurrency" I mean lightweight processes like Erlang's actors and concurrent GC aimed to make such a processes work smoothly.

It would be very cool if INRIA got rid of those drawbacks of the current OCaml implementation to make OCaml more prepared for the multicore future.

P.S. F# isn't what I'm looking for.

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3 Answers 3

up vote 9 down vote accepted


I cannot be more concise without reproducing his explanation. It speaks for itself. Yes, this is from 2002, but I haven't heard him sway on the issue, and from the text, it doesn't seem probable at all that he would back down from these goals.

For current developments on concurrent functional programming, possibly MPI solutions (with ocaml bindings) might be a solution to your problem. Obviously this is not shared memory parallelism. There is also concurrent ML.

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I'm not prepared to dig into the archives just now, but I'm sure there have been more recent threads where similar sentiments have been expressed. INRIA is focused on supported the OCaml language as is, not pushing forward with big new features like LWP or a concurrent runtime. Isn't that partly the point of Jon Harrop's HLVM? –  Chris Conway Aug 19 '09 at 23:32
ocaml4multicore is available (with limitations), see: algo-prog.info/ocmc/web –  nlucaroni Sep 24 '09 at 14:44
Worth noting: what M. Leroy delivered that lecture to the OCaml list back in 2002, it was the case that SMP machines weren't nearly as common as they are today. Still, it remains to be seen whether adding shared-memory parallelism to the OCaml runtime is a win over the more traditional approach to optimizing for SMP systems: fork/exec and interprocess communication. It looks like INRIA has yet to make any announcements that its collective mind has changed. –  james woodyatt Dec 5 '10 at 6:46
@james woodyatt: "traditional approach to optimizing for SMP systems: fork/exec and interprocess communication". Such approaches only work well on distributed systems and, in particular, do not work well on multicores due to the shared memory bus and hierarchical caches. –  Jon Harrop Jun 25 '11 at 10:02
@JosephGarvin: If your messages are conveying any significant amount of data then naive message passing will deep copy that data when it could be passed by reference. From the point of view of the hardware, those copies are different data so they will compete for the same space in a shared cache. However, if you are passing many tiny messages then there is no difference as you say. I believe the local caches just replicate some of what is in the shared caches. –  Jon Harrop Oct 10 '11 at 22:35

It seems that Jane Street has funded a project for adding Concurrent GC to OCaml

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That culminated in OCaml4Multicore but it is not very useful because allocation seriously damages scalability and allocation is practically unavoidable in OCaml due to the lack of value types. –  Jon Harrop Jun 5 '10 at 16:29

There is J&oCaml, which is …

Objective Caml plus (&) the join calculus, that is, OCaml extended for concurrent and distributed programming.

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But even with JoCaml you need to explicitly call fork if you want to use multiple cores. –  aneccodeal Aug 25 '09 at 2:58

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