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Java Byte Code is the language to which Java source is compiled and the Java Virtual Machine understands. Unlike compiled languages that have to be specifically compiled for each different type of computers, a Java program only needs to be converted to byte code once, after which it can run on any platform for which a Java Virtual Machine exists.

I can understand that once java is compiled the class can be run from any machine because the compiled class can be understood by any machine.

My question is: Why are there 2 types of jdk then? (x86, x64)

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marked as duplicate by assylias, Jeroen Vannevel, msandiford, Kevin Brown, watcher Feb 20 at 17:55

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Because the underlying architecture differs: endianness, vendor, etc. x86 has 32bit and 64bit versions, so does ARM, and then there is SPARC, MiPS, etc etc... Not only 32bit vs 64bit –  fge Feb 20 at 15:40
Your application code is portable, the JVM is not. You need an implementation for every hardware architecture and OS you intend to use. –  Edwin Dalorzo Feb 20 at 15:44
@assylias Not quite the same question. –  Edwin Dalorzo Feb 20 at 15:46
Also, even though Java will always read bytecode the same, if you run a 32-bit Java program on a 64-bit computer (both x86), there's a chance that the program will bottleneck. –  NobleUplift Feb 20 at 15:56

4 Answers 4

up vote 2 down vote accepted

The Java Virtual Machines are themselves applications that need to run on top of a hardware architecture and operating system and most likely they are not implemented in Java themselves.

That is the case of the popular Java HotSpot Virtual Machine (the default implementation from Oracle) which is mostly implemented in C/C++.

That means you need a compiled version of it for every hardware architecture and operating system in which you intend to use it, and so that explains that there are versions of it for 32-bit and 64-bit hardware architectures.

This is also the case of other JVM implementations, like JRockit, IBM J9, Azul Systems Zulu and probably many others.

Other helper programs aside the Java Virtual Machine, typically included for programmers to develop applications as part of what is know as the JDK (Java Development Kit) may also be developed in this way. That is the case of tools like the compiler (javac), the documentation generator (javadoc), the RMI compiler (rmic), the Java disassembler, (javap), etc.

So, those JDK tools would also require a hardware dependent implementation. And so that's why you are offered a choice when downloading the JDK.


Addressing the questions on the "portability" subject

It depends on what you mean by "portability". If you mean the Java's WORA (write once, run anywhere), then it has to be through a virtual machine like Java, Python or Ruby. But languages like C/C++ compile to machine code, and therefore, they are not run through a virtual machine, but by the hardware itself. This does not mean they are not portable, you may write your code in way that can be run in multiple architectures, it is just that you cannot use the same binaries. You have to recompile for every case, since the program must be written/compiled in a way a particular hardware/os understands.

This gap is what the virtual machines intend to close.

Now, portability can mean more than just using the same binaries. Even with Java you may write code that is not portable, perhaps because you use OS dependent features or because you mistakenly programmed paths using literals (i.e Linux / vs Windows \), etc.

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I love lists; especially lists with links. +1 –  NobleUplift Feb 20 at 15:53
Why then are not ruby and python considered to have the same attributes as java? The same code will run on all platforms if they are interpreted –  Bula Feb 20 at 16:00
@Bula Yes, they are. In the case of Ruby, typically you have build it yourself for you own architecture or get the binaries from some other place. And the Python download page clearly offers alternatives to download the language for different hardware architectures. –  Edwin Dalorzo Feb 20 at 16:04
@EdwinDalorzo I'm confused now. Can you give me an example of a language that is not portable then? –  Bula Feb 20 at 16:06
@Bula I have added more information to my answer to address your question. –  Edwin Dalorzo Feb 20 at 16:11

There are more than two types of JDK. Each type of JDK is compiled for a specific platform, Intel x86, x64, ARM, etc. Despite the fact that they are written for different platforms, they do the same things. So many types are required because usually you cannot run JDK for one platform on another (say you cannot run JDK for ARM on x86).

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The java language is portable, the binaries needed to make them portable are not. For instance the jvm and javac are both non-portable.

The javac would be too slow if it was written in java, and you get yourself in a chicken and egg situation with how to write a javac without a javac - so it is typically written in c or c++, making it non portable.

Also the jvm is doing the work of taking portable bytecode and translating it to specific non-portable code for the specific machine you are runnning on, so it cannont be portable.

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Actually, javac is written in Java; javac.exe is just a tiny wrapper which starts the JVM and gives control to the main method of the javac class. By the way, most C compilers are written in C so you should see, the “chicken and egg situation” is solvable. –  Holger Feb 21 at 9:35
  1. Performance of 64-bit jdk is better than 32-bit jdk, but it requires more memory.
  2. 32 bit application can only access 2GiB of memory on Windows.
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