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Java is a beautifully crafted OO language but the first thing I noticed is how slow it is (compared to C++). This is probably because it has to go through another layer of translation (the VM) instead of running directly in the CPU's native microcode.

My question: Do you know of any attempts to create Java-specific CPU's that run Java natively without requiring the software-implemented VM?

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closed as off topic by Kev Mar 17 '13 at 15:48

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People (rightfully) complaining about "Java is slow" complainment in N... (N-1)... (Also, a special-purpose CPU that runs Java bytecode would very likely end up much slower than a modern desktop CPU running a regular JVM). – delnan Dec 5 '10 at 14:57
Well, Assembly is even faster, but the time you gain on performance, becomes development time (and multiplyed by 100 factor maybe...) – digEmAll Dec 5 '10 at 15:12
@skaffman By slow I meant slower than a comparable program in C++. Try running Eclipse (which AFAIK was written in Java) inside a VMWare VM and see what I mean. – Android Eve Dec 5 '10 at 15:12
@Android Eve: I know, I was provocatively commenting your sentence: " slow it is (compared to C++)" ;-) – digEmAll Dec 5 '10 at 15:17
Java has slower startup time compared to C++, but after warmup it can achieve comparable performance, or even better performance if server JVM is being used. – ceklock Mar 17 '13 at 19:14
up vote 14 down vote accepted

Sun designed the picoJava processor about 10 years ago, but it never went anywhere - there was no market for it at the time, and modern VMs render the concept pretty pointless.

Then there's the fledgling ARM Jazelle architecture.

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+1 for this precise piece of information. I will read it shortly and try to understand why it never went anywhere. – Android Eve Dec 5 '10 at 15:04
@Android: It never went anywhere because there was no market for it, and because the JVMs of the day were slow. It'll go nowhere today, because the modern JVMs are not slow. – skaffman Dec 5 '10 at 15:05
@saffman the Wikipedia article you just brought says "speeding bytecode execution up to 20 times, compared to standard Intel CPU with a JVM." -- This is what I mean by "slow". We take faster CPU nowadays for granted but this is not very energy efficient... By slow I mean slower. – Android Eve Dec 5 '10 at 15:10
@Android: There's no citation for that figure. Just because it's written on wikipedia doesn't make it true. It's likely to be years out of date. – skaffman Dec 5 '10 at 15:12
@Android Eve: Every commonly used JVM has a sophisticated JIT compiler than intelligently native-compiles methods that would benefit from it. So nowadays executing bytecode natively is fairly useless. – James K Polk Dec 5 '10 at 15:14

Azul Systems designs systems from the ground up with (massive services running on) Java in mind, including hardware-assisted garbage collection.

There's also GCJ for compiling Java to native code, though it is not a complete implementation of Java.

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But the whole point of Azul's Vega-3 CPU is that it does not implement JVML bytecode. It is simply a well-designed, orthogonal CPU. The smarts are in the JVML-to-native compiler (which is actually just a licensed variant of Sun's/Oracle's C2 compiler which is part of the HotSpot JVM) and not in the CPU. The people who founded Azul came from Sun's Java CPU projects, and they did it this way precisely because they realized that implementing JVML in the CPU is not faster, it is slower, because it throws away the massive dynamic optimization potential. – Jörg W Mittag Dec 5 '10 at 15:18
+1 for this information. I hope that this thread will become a reference for existing attempts. – Android Eve Dec 5 '10 at 15:19
@Jörg - yes, this isn't a very good answer to the question asked. but since it sounds like a fairly exploratory question (has anyone done X? instead of why doesn't Y work?) going off in a bit of a tangent seems appropriate. – David Winslow Dec 5 '10 at 15:29

The only reference I found so far to this conundrum is the following article:

While I was initially interested in first knowing whether there are Java-CPU's and what they are, this thread sheds some light on why I haven't heard of any (until I read the learned replies here). The last comment, by Alex Besogonov, seems to be the best explanation:

Java bytecode is NOT suited to be run on real hardware. It's stack-based, so pipelining goes out of the window. In theory, one can do on-the-fly translation from stack-based to register-based machine, but it'll require A LOT of transistors.

So in reality, it's ALWAYS more effective to JIT-compile Java bytecode and then run it on a common CPU. There is one exception JVMs for low-power devices where the speed of hardware JVM is not a problem (remember Forth CPUs).

Of course, hardware can still provide few features to speed up JVMs. Like hardware-assisted forwarding pointers which allow to create fast real-time compacting pauseless GC (I assume Azul hardware has this support).

This is very interesting. Thank you all for your answers.

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You might want to try JOP

It's open source and you can try it on your own hardware.

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