^^ interesting. Somebody start documenting the Arc thread model quick ^^. The only thing I understood in the Arc thread model is (thread (expr)); also, there are those "queue" thingies in arc0/arc.arc which look quite interesting (possibly useful for message passing).
First, we need to build an Erlang-style message passing technique, then abstract away the messaging aspect in macros, and then provide a generalized (parallel-map ...) macro.
But one of the sources of the strength of Erlang's model is inherently built-in the language---many things are passed by value, including aggregate types, so that GC can run per-thread and you don't need to care about synchronization. You can implement the same model on top of other languages (e.g. see Termite http://lambda-the-ultimate.org/node/841 ), but you do change the language's semantics.
Concurrency is the next big thing in programming languages. If you want to take advantage of the increasing parallel hardware you have to support it. If Arc can't support concurrency, languages like Erlang who can will become the de facto standard.
I've heard that a lot, but I don't quite buy it. Thing is, distributed computing is the current big thing in architectures. If you can't scale your architecture across multiple commodity PCs, you're in for lots of pain, regardless of whether it supports multiple cores or not. Nobody wants to have to buy a SunFire just because their website got big.
If you have distribution, it's no big deal just to run multiple processes on one box and let the OS handle concurrency. You can treat each processor like it's a separate machine, let the OS handle scheduling, use your architecture's distributed-computing features, and silently take advantage of the blazingly fast IPC between different processes on the same machine.
I think in a case like hosting web apps, you can get away with using the OS's scheduling to run lots of instances of your server software and call it architectural concurrency. Witness Rails' standard deployment model with a pack of mongrels. Each rails instance is single-threaded, but you are running several on the machine and let the OS juggle them.
I think the appeal of Erlang and others like it is if you have a single app that you want to speed up with additional cores (it's hard to run a database on a bunch of commodity PCs as separate instances... it's done that way today, but will multimaster DBs really scale to 10,000 machines? Probably have to ditch the central DB for something more parallel) I think that if we have really hit the single core speed limit, then this eventually will matter, but not until the single thread becomes too big for one core to handle. (Assuming software requires more resources over time here... who knows.)
To get away from the webapp example... I imagine, for the foreseeable future, your web browser is really only going to need one core, and having more cores just means you can run more browsers at a time (like a pack of foxes, if you will), but a single browser won't get any speedup. In 10 years, when everything on the web is rendered in OpenGL 5 instead of text markup, maybe your browser will want some more parallelism (or maybe we'll just farm that off to dedicated graphics hardware).
I don't think it's really something critical for Arc right now. It's hard to follow the Erlang model without become Erlang (just like it's hard to do everything Lisp does without becoming Lisp), but I think that having parallelism baked into the language (or at least thought about) would be neat from a personal-coding-fun standpoint.
right now, two cores makes Javascript intensive apps not suck. For instance, without two cores I can't handle Google's Apps, with two cores they function nicely.
When I read the arc challenge at first it seemed like a trivial "win" for arc and a cheap shot. It upset me, to be frank, and that interested me, because usually if you read something upsetting it means there's something there you need to see.
After I got done grumbling (mostly to myself) about how much better in a general case was my favorite language (Erlang), I used the challenge as a jumping off point for thinking about what an Erlang web framework would be (freely admitting my status as a dabbler and dilettante here, where yariv maintains a mature Rails-like web framework for Erlang).
I wrote an (extremely rudimentary) framework to support the code in my Erlang answer to the arc challenge. I noticed that a number of the answers supposed hypothetical or imaginary frameworks, so I suspect that a lot of people only got what was on the surface of the arc challenge (this toy web app is so short!) without understanding what was underlying it (what would it take to extend your favorite language to express something so concisely? And does that concise form take the form of a Greenspunesque arcalike or is it possible to express the same intent in your language's idiom?).
In short, I don't feel there's a need to "retaliate" by posing concurrency-specific challenges where Erlang must win--in fact, such challenges have been posed before (e.g. Joe Armstrong's Java vs. Erlang white paper). I'd rather do what I can to learn from what pg has done with arc.