Speaker: Piotr Przybyl @piotrprz and @piotrprz@mstdn.social

For more see the table of contents

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Note: some things in this talk are in preview features. Might change/get better

Demo

• Traditional demo of starting a thread and having it wait 10 seconds.
• Ran 1K platform threads in just over 10 seconds. Ran 30K in 15 seconds. Ran 40K and it crashed due to “not enough space”.
• Switched to virtual threads and no more resource constraints. Just over 10 seconds for 40K virtual threads. A million virtual threads took about 15 seconds
• Awesome until see how fooled by demo
• In the demo is sleeping, not using any resources
• Redid demo with CPU work so no blocking.

Releases

• released in Java 21 and previewed in 20-21
• structured concurrency – preview in 23
• Scoped values – preview in 22

Virtual threads

• Great for I/O and waiting
• No way to switch on and off globally in JDK
• Don’t make threads faster; Make app scale better
• Gave NYC example: drive to restaurant and park. Hardware resource (Car) not used. Vs taxi/Uber where don’t care where is when eating
• If all cars were taxis, could move people faster. But one person doesn’t move faster by just using a taxi.
• Said not his metaphor but likes it [I like it too]
• Will not squeeze more juice from your CPU

Don’t Reuse

• Reuse – cheap to start, create new
• Pool – requires reusing

Don’t Pin

• Like car “keep engine running”. Wastes resources, still have to pay.
• I/O and synchronize pin in Java 21 when takes more than 20ms
• Find with -Djdk.tracePinnedThreads=full and JFR events
• toxiproxy – good for chaos engineering. Can set to half a second plus some jitter for variance (or anything you want)

Logging Double slit experiment – “how many lights are there”

• Observing makes the answer different
• Changed from 5 seconds of work to five one seconds and added logging.
• Logging changing behavior because default handler is synchronous.
• Less finished because opportunities for other threads to get in
• It’s like everyone calling an Uber when a concert gets out.
• Every time you do I/O, the thread blocks. ex: get out of taxi
• Platform threads are different; they don’t block just because you do an I/O operation.

Other problems

• Can’t ignore backpressure control
• Ignore interrupts
• merge with synchronized/native

Structured Concurrency (preview)

• better “idioms” for multi threaded coded
• helps eliminate thread leaks and cancellation delays
• not replacing interruption with cancellation
• showed waiting on two future. they don’t know the other gave up.
• each future needs a reference to all other features so they know to give up when implemented manually
• StructuredTaskScope.ShutdownOnFailure() { // two futures } // allows to know
• scope.throwIfFailed() knows

Scoped Values (preview)

• One way immutable ThreadLocals.
• ThreadLocale is like a cache.
• Bounded lifetime; visible in code
• Results in simplified reasoning and improved performance
• ScopedValue.where(x,y). run(() -> dostuff())
• Can use Runnable or Callable
• Can nest where() as long as you don’t mutate it

My take

This was interesting. I didn’t know pinned threads were a thing. Also good humor; well known debug pattern of “debug 1” 🙂