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I'm trying to understand what this statement means:

Each Java Virtual Machine thread has its own pc (program counter) register. At any point, each Java Virtual Machine thread is executing the code of a single method, namely the current method (§2.6) for that thread.

https://docs.oracle.com/javase/specs/jvms/se7/html/jvms-2.html#jvms-2.5.1

I assume that the JVM thread works like any other thread - that every time that thread is scheduled to run (by say the Linux kernel) that it's "program counter" is loaded from it's task_struct data structure so from the CPU's perspective there's only a single program counter - it just gets updated by the OS everytime the OS switches threads.

Is that correct? I'm confused because that whole page seems to keep emphasizing that each JVM gets it's own PC/stack/heap etc. but I thought that was a given for any process - is the JVM somehow unique from other processes?

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  • Well, you've misquoted the excerpt in the title: "Each Java Virtual Machine thread has its own pc". And then "JVM threads work like any other thread". Nov 17, 2016 at 22:52
  • You're right - that distinction was part of my confusion.
    – Charlie
    Nov 18, 2016 at 14:35

1 Answer 1

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assume that the JVM works like any other thread

The JVM is not a thread: It is a process that has many threads.

...so from the CPU's perspective there's only a single program counter

The program counter is just one of several registers that constitute the context of a thread. Each CPU has one set of physical registers (or two sets, if it's hyperthreaded, but let's keep things simple and ignore hyperthreading.) Each CPU can therefore run exactly ONE thread at any given instant time. But...

The operating system can "switch contexts": It can save all of the registers for one thread running on a given CPU, and then load the registers with the saved registers (including the program counter) from some other thread.

In a typical desktop operating system, the operating system scheduler is invoked, maybe 100 times per second or more, to decide which threads should be running at that moment. It will switch out threads that were actually running at that moment, and switch in threads that have been waiting to run.

That way, your computer can have many more live threads than it has CPUs.

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    Makes sense. My confusion was actually over what constituted the thread context - I now understand that the article is saying is that each JVM thread has it's on pc and stack but that the JVM process has a shared heap for all threads.
    – Charlie
    Nov 18, 2016 at 14:37

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