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While considering alternatives for Java for a distributed/concurrent/failover/scalable backend environment I discovered Erlang. I've spent some time on books and articles where nearly all of them (even Java addicted guys) says that Erlang is a better choice in such environments, as many useful things are out of the box in a less error prone way.

I was sure that Erlang is faster in most cases mainly because of a different garbage collection strategy (per process), absence of shared state (b/w threads and processes) and more compact data types. But I was very surprised when I found comparisons of Erlang vs Java math samples where Erlang is slower by several orders, e.g. from x10 to x100.

Even on concurrent tasks, both on several cores and a single one.

What's the reasons for that? These answers came to mind:

  • Usage of Java primitives (=> no heap/gc) on most of the tasks
  • Same number of threads in Java code and Erlang processes so the actor model has no advantage here
  • Or just that Java is statically typed, while Erlang is not
  • Something else?

If that's because these are very specific math algorithms, can anybody show more real/practice performance tests?

UPDATE: I've got the answers so far summarizing that Erlang is not the right tool for such specific "fast Java case", but the thing that is unclear to me - what's the main reason for such Erlang inefficiency here: dynamic typing, GC or poor native compiling?

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Very good question, I'd love to see the answers myself. – biziclop Nov 29 '12 at 15:42
Java compiles math fairly efficiently to native machine code I'm sure you know there is no special byte code for math )) efficiency here is expense of primitives/no objects etc, if I implement the same math with Objects/Wrappers - results will be very worse – yetanothercoder Nov 29 '12 at 19:45
btw why didn't erlang HiPE native compiling happen or why is it 10 times slower? – yetanothercoder Nov 29 '12 at 20:14
@Jarrod Roberson -- Seems to me that yetanothercoderu is looking for a technical explanation of what exactly JVM and HiPE do differently in these cases that gives rise to the observed performance difference. afaict our answers have not been constructive because we simply don't know. – igouy Nov 30 '12 at 16:53
why doesn't my Ferrari haul pizza's as efficiently as my Hyundai? I mean really why does my Ferrari burn so much more gas and cost so much more to up keep just to deliver a few pizzas each night? And don't tell me "it wasn't designed to do that"! – Jarrod Roberson Nov 30 '12 at 22:32
up vote 23 down vote accepted

Erlang was not built for math. It was built with communication, parallel processing and scalability in mind, so testing it for math tasks is a bit like testing if your jackhammer gives you refreshing massage experience.

That said, let's offtop a little:
If you want Erlang-style programming in JVM, take a look at Scala Actors or Akka framework.

share|improve this answer
OK, good point, but what do you think the main reason for poor math here: dynamic typing? scala, akka as on the top of jvm - has the same "jvm architecture issues": global GC, which is a very serious issue for big heaps, and no valid hot redeploy option, only restart if you want to update the PROD with minimal "strange" issues – yetanothercoder Nov 29 '12 at 19:51
I do not know Erlang enough to tell why. And of course JVM has its issues. What I meant was: "use the tool proper to your problem". Erlang is great for sending messages. Not necessarily so great for processing them. If you do math calculations, use Matlab, or C, or Assembler. If you do statistics, use R, and so on, and so on. – npe Nov 30 '12 at 14:09

Benchmarks are never good for saying anything else than what they are really testing. If you feel that a benchmark is only testing primitives and a classic threading model, that is what you get knowledge about. You can now with some confidence say that Java is faster than Erlang on mathematics on primitives as well as the classic threading model for those types of problems. You don't know anything about the performance with large number of threads or for more involved problems because the benchmark didn't test that.

If you are doing the types of math that the benchmark tested, go with Java because it is obviously the right tool for that job. If you want to do something heavily scalable with little to no shared state, find a benchmark for that or at least re-evaluate Erlang.

If you really need to do heavy math in Erlang, consider using HiPE (consider it anyway for that matter).

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these benchmarks are with HiPE erlang btw – yetanothercoder Nov 29 '12 at 15:47
btw I see why java is faster here - almost all is compile to native +no heap, +static. What about erlang here: as it's HiPE isn't it compiled to native? what about heap? Or only static vs dynamic plays crucial role here? – yetanothercoder Nov 29 '12 at 20:05

As pointed in other answers - Erlang is designed to solve effectively real life problems, which are bit opposite to benchmark problems.

But I'd like to enlighten one more aspect - pithiness of erlang code (in some cases means rapidness of development), which could be easily concluded, after comparing benchmarks implementations.

For example, k-nucleotide benchmark:
Erlang version:
Java version:

If you want more real-life benchmarks, I'd suggest you Comparing C++ And Erlang For Motorola Telecoms Software

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You made a false comparison -- that Java program isn't included, it's listed under "wrong" (different) algorithm / less comparable programs". The Java program from the comparison shows 13 secs and source code 1630, versus Erlang program 157 secs and source code 932.… – igouy Jul 7 '13 at 17:17

The Erlang solution uses ETS, Erlang Term Storage, which is like an in-memory database running in a separate process. Consequent to it being in a separate process, all messages to and from that process must be serialized/deserialized. This would account for a lot of the slowness, I should think. For example, if you look at the "regex-dna" benchmark, Erlang is only slightly slower than Java there, and it doesn't use ETS.

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The fact that erlang has to allocate memory for every value whereas in java you will typically reuse variables if you want it to be fast, means it will always be faster for 'tight loop' bench marks.

It would be interesting to benchmark a java version using the -client flag and boxed primitives and compare that to erlang.

I believe using hipe is unfair since it is not an active project. I would be interested to know if any mission critical software is running on this.

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I don't know anything about Erlang, but this seems to be a compare apples to oranges approach anyways. You must be aware that considerable effort was spent over more than a decade to improve java preformance to the point where it is today.

Its not surprising (to me) that a language implementation done by volunteers or a small company can not outmatch that effort.

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Ericsson, the creators and maintainers of Erlang, is one of the biggest providers of telecommunications equipment worldwide, and one of the largest companies in Sweden. Erlang is more than two decades old. None of your reasons are relevant to Java outperforming Erlang in this benchmark. – Emil Vikström Nov 29 '12 at 18:35
@EmilVikström Well, they sort of are. While Ericsson is a large company it is only a small group within Ericsson, about 20 people, who support, maintain and develop Erlang. What is probably more important is that Erlang was designed for a different type of application that Java. Specifically massively concurrent fault tolerant applications. There are real-live products who run millions of TCP connections on one machine, – rvirding Nov 29 '12 at 22:21

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