As far as I understood, JavaScript cannot be compiled ahead of time because of it's dynamic nature. So Interpretation and just in time compilation happens at run time, that affects JavaScript performance. So WebAssembly comes into picture. Languages can be compiled ahead of time into intermediate format (WASM). This gives good performance since there is less runtime overhead.

My question is why JVM cannot be used in place of WebAssembly VM. Java compiled into intermediate format (bytecode). This byte code can be given to browser and JVM can execute it. JVM also supports JIT which helps to achieve near native performance. 

So what is the need for new WebAssembly. Why can't JVM be integrated into browser and achieve high performance by leveraging the existing most popular Java language.

  • 5
    The JVM certainly could be integrated into web browsers, there is no technical impossibility. Although, bytecode running in a JVM is always slower than native machine compiled code, I assume the main reason is probably political (don't want to put a lot of Java/Oracle in the web which should stay neutral/free?) Interesting question anyway :)
    – sjahan
    Sep 27, 2019 at 9:52
  • 1
    It seems the performance of WASM isn't actually that (native) good, so I'd tend to really think about political stuff :)
    – sjahan
    Sep 27, 2019 at 9:54
  • 6
    The time will come and Java will compile to WASM as well.
    – jayarjo
    Sep 29, 2019 at 6:34
  • @jayarjo Except for trademark-related reasons, I guess we won't be allowed to call it Java :/ May 13, 2020 at 21:33
  • Web is supposed to be open. Oracle is the least open tech company ever.
    – Pacerier
    Jun 7, 2020 at 16:52

3 Answers 3


There are a great many reasons why the JVM was not deemed a suitable runtime in place of WebAssembly ...

  • WebAssembly was designed with delivery-over-HTTP and browser-based in mind. For that reason, it supports streaming compilation - i.e. you can start compiling the code while downloading.
  • WebAssembly was designed to have rapid compilation times (resulting in web pages that load quickly), this is supported by having very simple validation rules compared to Java / JVM languages.
  • WebAssembly was designed with the concept of a 'host' environment, i.e. the browser.
  • WebAssembly was designed to be secure and simple, minimising the overall attack surface.
  • WebAssembly was designed to support a great many languages (C, C++, Rust, ...), whereas the JVM was initially design for a single language, Java.

As a general observation, WebAssembly was designed to support multiple languages on the web. The JVM was designed to support Java on the desktop. It doesn't make either one better than the other in a more general sense.

Finally, the JVM was integrated with the browser (Java Applets), but that didn't work out in the end!

  • 1
    Well, in some way, people already thought of this issue and a) created a feature request for GraalVM to run WebAssembly code and b) maybe some 'simply' implements a JVM in WebAssembly. Nov 13, 2019 at 10:52
  • @StefanRother-Stübs I assume that you were talking about GraalWasm: medium.com/graalvm/…
    – gouessej
    Jan 15, 2020 at 9:32
  • Nonetheless, there are several compilers that translate JVM bytecode to WebAssembly and vice-versa. Aug 26, 2020 at 21:51
  • 4
    "Finally, the JVM was integrated with the browser (Java Applets), but that didn't work out in the end!" Java enthusiast here: the JVM was used through a plugin, but that's not the same as being "integrated with the browser" if you ask me. The fact that it was a separate runtime with it's own update method etc. was one reason for its downfall. They should have created a lightweight / secure VM that could be integrated with the browsers instead of relying on 70 MB downloads when CORBA changed implementation at the same time as a security fix. I'm very much agreeing with the rest of the post! May 2, 2021 at 13:28
  • @MaartenBodewes Can that be done through WASM and SubstrateVM? May 15, 2021 at 9:06

A quote from the High-Level Goals of WebAssembly:

a Minimum Viable Product (MVP) for the standard with roughly the same functionality as asm.js, primarily aimed at C/C++;

So their original goal was running C/C++ program in a web browser, not running Java code.


JVM can run:

  • JavaScript
  • Python (Jython)
  • Ruby (JRuby)
  • Groovy
  • Scala
  • C++ (using JNI)

unfortunately the support for java was removed from the browser, because Sun (former maintainer of java), could not provide adequate support.

Just like the Flash ended up losing.

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