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What exactly are the advantages and disadvantages to using a register-based virtual machine versus using a stack-based virtual machine?

To me, it would seem as though a register based machine would be more straight-forward to program and more efficient. So why is it that the JVM, the CLR, and the Python VM are all stack-based?

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9 Answers 9

up vote 17 down vote accepted

This has already been answered, to a certain level, in the Parrot VM's FAQ and associated documents: A Parrot Overview The relevant text from that doc is this:

the Parrot VM will have a register architecture, rather than a stack architecture. It will also have extremely low-level operations, more similar to Java's than the medium-level ops of Perl and Python and the like.

The reasoning for this decision is primarily that by resembling the underlying hardware to some extent, it's possible to compile down Parrot bytecode to efficient native machine language.

Moreover, many programs in high-level languages consist of nested function and method calls, sometimes with lexical variables to hold intermediate results. Under non-JIT settings, a stack-based VM will be popping and then pushing the same operands many times, while a register-based VM will simply allocate the right amount of registers and operate on them, which can significantly reduce the amount of operations and CPU time.

You may also want to read this: Registers vs stacks for interpreter design Quoting it a bit:

There is no real doubt, it's easier to generate code for a stack machine. Most freshman compiler students can do that. Generating code for a register machine is a bit tougher, unless you're treating it as a stack machine with an accumulator. (Which is doable, albeit somewhat less than ideal from a performance standpoint) Simplicity of targeting isn't that big a deal, at least not for me, in part because so few people are actually going to directly target it--I mean, come on, how many people do you know who actually try to write a compiler for something anyone would ever care about? The numbers are small. The other issue there is that many of the folks with compiler knowledge already are comfortable targeting register machines, as that's what all hardware CPUs in common use are.

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Implemented in hardware, a register-based machine is going to be more efficient simply because there are fewer accesses to the slower RAM. In software, however, even a register based architecture will most likely have the "registers" in RAM. A stack based machine is going to be just as efficient in that case.

In addition a stack-based VM is going to make it a lot easier to write compilers. You don't have to deal with register allocation strategies. You have, essentially, an unlimited number of registers to work with.

Update: I wrote this answer assuming an interpreted VM. It may not hold true for a JIT compiled VM. I ran across this paper which seems to indicate that a JIT compiled VM may be more efficient using a register architecture.

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Traditionally, virtual machine implementors have favored stack-based architectures over register-based due to 'simplicity of VM implementation' ease of writing a compiler back-end - most VMs are originally designed to host a single language and code density and executables for stack architecture are invariably smaller than executables for register architectures. The simplicity and code density are a cost of performance.

Studies have shown that a registered-based architecture requires an average of 47% less executed VM instructions than stack-based architecture, and the register code is 25% larger than corresponding stack code but this increase cost of fetching more VM instructions due to larger code size involves only 1.07% extra real machine loads per VM instruction which is negligible. The overall performance of the register-based VM is that it takes, on average, 32.3% less time to execute standard benchmarks.

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Here's a reference for the figures quoted in this answer: db.usenix.org/events/vee05/full_papers/p153-yunhe.pdf - note that the speed differential is for an interpreter, not a JIT compiler. –  Ganesh Sittampalam Sep 21 '11 at 17:37
    
+1 for actual numbers –  Phil H Oct 13 '12 at 21:28

One reason for building stack-based VMs is that that actual VM opcodes can be smaller and simpler (no need to encode/decode operands). This makes the generated code smaller, and also makes the VM code simpler.

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How many registers do you need?

I'll probably need at least one more than that.

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I can see what you're getting at, but how is that different from a stack? Stacks can be made too small too. –  Jason Baker Oct 2 '08 at 19:43
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Seeing as the virtual machines are implemented in software, your stack size is virtually unlimited. Registers are finite. I can have r1-r32. I could create r33 in software, but what other classes would need to know? –  Chris Cudmore Oct 2 '08 at 19:52
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Parrot has infinitely many registers. Are you sure you need one more than that? –  Jörg W Mittag Jun 1 '10 at 12:47

It is not obvious to me that a "register-based" virtual machine would be "more straight-forward to program" or "more efficient". Perhaps you are thinking that the virtual registers would provide a short-cut during the JIT compilation phase? This would certainly not be the case, since the real processor may have more or fewer registers than the VM, and those registers may be used in different ways. (Example: values that are going to be decremented are best placed in the ECX register on x86 processors.) If the real machine has more registers than the VM, then you're wasting resources, fewer and you've gained nothing using "register-based" programming.

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Stack based VMs are easier to generate code for.

Register based VMs are easier to create fast implementations for, and easier to generate highly optimized code for.

For your first attempt, I recommend starting with a stack based VM.

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I dont understand exactly what you mean when you say "Register based VMs are easier to create fast implementations for". Can you give an example? –  Mustafa Güven Dec 10 '11 at 14:57

Stack based VM's are simpler and the code is much more compact. As a real world example, a friend built (about 30 years ago) a data logging system with a homebrew Forth VM on a Cosmac. The Forth VM was 30 bytes of code on a machine with 2k of ROM and 256 bytes of RAM.

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Calling a typical Forth implementation a VM is a bit of a stretch. Forth is a threaded interpreted language, which basically means that the Forth interpreter is given a list of addresses to execute. At each of those addresses it will find either machine code, in which case it will simply execute the code. Or it will find another list of addresses, and recursively apply itself to that list. This is what makes Forth code so compact (and the Forth "interpreter" so tiny). However, a Forth program is tied to the architecture for which is was built. –  Ferruccio Jan 21 '12 at 19:19

The paper of the above mentioned facts :)

http://db.usenix.org/events/vee05/full_papers/p153-yunhe.pdf

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