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on historic descisions, may make a page out of this someday
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%p
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Off course the
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=link_to "architecture" , "/rubyx/layers.html"
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gives a good overview of the system as it is. But it does not explain how we got
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there. And sometimes knowing the journey makes it easier to understand where
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one is. So i shall try to highlight the four or five main
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%h2 Macbook + Ruby == Rasperry Pi
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%p.full_width
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=image_tag "mac_plus.png"
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When i bought my first 30Euro Pi i noticed that ruby is unusable on it.
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Looking at how slow ruby actually is, it occurred to me that ruby just about turns
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the Pi into my first 286 laptop (running at 6MHz), which is the same as turning my
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MacBook Pro into a Pi.
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%p
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Off course, while working on web-apps, which can be parallelized so easily, and with
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a company paying both developer and hardware, the std ruby argument holds.
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But since i wanted to use my pi for demanding projects something had to be done.
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%h2 Judy, the importance of cpu cache
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%p
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=ext_link "Judy" , "http://judy.sourceforge.net/"
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is a really really fast digital tree, kind of hash. I actually built a memory
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database with it that was also really really fast. When connecting it to rails i
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ran into the above problem, the niceties of ActiveRecord (ruby) brought performance
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of my extension (c) down by a factor of 40.
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%p
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But anyway, the point is that Judy's speed is based on a radical optimisation for
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cache lines (and key compression). This means all data structures are exactly a cpu
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cache line big. As i learned, cpu's do not access memory in word sizes, but instead, always
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a cache line at a time. This basically lead to ruby-x's memory model, which is
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fixed sized objects, multiples of a cache-line.
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%h3 Microkernel
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%p
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As a young engineer, i thought, as my peers, that Linux (then 0.93) was the greatest
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thing. Only much later did i learn that it is just a copy really, and the reason
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it got popular was not technical, but licensing (Same reason it is in Android i
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believe). The reason it stayed popular is inertia, in other words writing device
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drivers is hard.
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%p
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=ext_link "Synthesis," , "https://en.wikipedia.org/wiki/Self-modifying_code#Massalin's_Synthesis_kernel"
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=ext_link "L4,", "https://en.wikipedia.org/wiki/L4_microkernel_family"
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and
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=ext_link "Minix," , "http://www.minix3.org/"
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are good proof that the superior architecture is the Microkernel. Eg L4 can run
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another OS as an application with about 4% performance degradation. Or Minix can
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recover from a device driver failure.
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%p
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This, plus the fact that we have bundler, brought me to the approach that:
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If you can leave it out, do. Much of the functionality that is in ruby (mri),
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will never be in RubyX, but rather supplied by gems.
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%h3 System interrupts
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%p
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In the beginning i was off course contemplating how much of c based systems i would use.
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Like LLVM, which is off course a great tool, though made for c-ish applications.
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Or libc, which again is really for c apps to access the kernel.
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%p
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The sheer size of the functionality one inherits almost swayed me. Even i had long
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since determined that one of ruby's biggest flaws, it's std-lib, came from modelling
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and using libc.
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%p
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Then i learned assembler and looked at libc implementations and learned what i
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believe made the decision: Kernel calls are not really calls at all. They are
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software interrupts, which basically means you fill some registers, flick the
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switch, and the next instruction you can collect the result in a specified
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register. This may look like a call, and off course, by using libc it is presented
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as a call, but it is not. It is a very simple set of assembler instructions.
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%p
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For me this meant there is very very little benefit in using c, either in it's
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libc form, or assembler/linker (i had found a ruby gem to do that easily),
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or, maybe most importantly, the c calling convention. All of these things
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are great for c programs, but they are just not made for dynamic languages
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and that would have brought a whole sloth of problems.
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%h3 Return address is a parameter
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%p
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In C calling (probably other languages too), the return address is determined
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in the callee, usually by pushing the pc to the stack. But Arm has a different
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way, an instruction called Branch With Link, that actually stores the pc in a
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separate register called Link.
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%p
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And this made me realise, that really, the return address is always a parameter
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to a function. Like other parameters it uses a register. It is the C way to
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hide this implicit parameter, much in the same way it is the oo way of hiding
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the self parameter.
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%p
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By this time i was already coding some rudimentary calling convention and it
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did not take long to verify this in code. It is in fact quite easy to determine
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the return address at compile time and pass it explicitly. (Easy if one does not
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use a c linker that is)
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%h3 OO calling convention
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%p
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Another thing that deterred me from C is the way they use the stack. It is so
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completely not oo and cryptic. It is in other words very difficult to unwind,
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and almost impossible to implement closures.
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%p
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Since the assembly had progressed easily, i made performance tests with an oo
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calling convention, and determined that the price would be
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=link_to "about 50%." , "/misc/soml_benchmarks.html"
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Since currently the gap is more than an order of magnitude, this seemed ok,
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given that it would make the compilation process so much easier.
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%p
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The resulting calling convention uses normal Message objects that form a linked
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list, rather than a stack. Since they are completely standard objects, manipulation
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both at run and compile time is totally integrated.
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%p
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Funation calling has been working for years, but recently i cracked dynamic method
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dispatch too, which was not that hard really. Currently the work is progressing to
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blocks, and the clear structure does help a lot.
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And while exceptions (or bindings) are not started, i think they will come with
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relative ease (compared to the c way), since the structures are very simple.
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%h2 Decisions that affect the future
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%h3 Mesasm
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%p
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I gave
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=ext_link "Metasm" , "https://github.com/jjyg/metasm/"
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several long looks. After all it has assembler and disassembler for at least
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10 cpu's, and support for several binary formats, including elf. The
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reason not to use it was not that it is big (including much we don't need).
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But rather that it is unmaintained and unresponsive.
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%p
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It would be great to split all that code into several gems, a core and one
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per cpu / binary format / assembly, disassembly. Only the core would need
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to be integrated into rubyx, and one could just use the platform specific
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gems. But I am not the one to do this work, was the decision.
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%h3 Lock free Concurrency
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%p
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Concurrency will have to be part of the core, even if it is just to get a gc
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working. The work that
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=ext_link "Massalin did" , "http://valerieaurora.org/synthesis/SynthesisOS/abs.html"
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already showed how effective lock free
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concurrency is, but Dr Cliff took it into the modern (java) world by
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publishing a
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=ext_link "lock free hash" , "https://www.youtube.com/watch?v=HJ-719EGIts"
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that he later run on some crazy machine with 800 cpus.
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%p
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I am not sure whether it will be better to port the java code, or try a
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=ext_link "diy" , "https://preshing.com/20130605/the-worlds-simplest-lock-free-hash-table/"
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version. And off course to even get started on this rubyx will need the
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compare and swap primitives that underly the lock free approach.
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But all in due time.
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%p
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The actual concurrency i am envisioning as two os-threads per core. One for kernel
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interaction and one for normal operation. Kernel calls
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would never be executed on the second, but always queued on dedicated kernel
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threads. The non kernel threads would be used to run fibers.
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If we insert some little check into the calling, switching could happen very often
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and because of the linked list approach would be very very fast. And because of
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the offloading of kennel calls would never stall (completely). This way one can
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achieve the sort of millions of fibers erlang is known for.
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%h3 House keeping and garbage collection
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%p
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Often, in systems that are designed to be collected, the base object has some
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field to support this. This was deliberately left out. RubyX only has objects,
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so the field would have to be an Object, which is too much overhead.
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Or there would have to be dedicated instruction to deal with a raw data word
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which is too much overhead in another way.
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%p
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Gc will be a completely external gem, so experimenting will be easy and
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encouraged. Gc implementers will just have to use their own structures to keep
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track of the state that they need. Judy style digital trees can do this by actually
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using less memory than a field would use, but handcrafted bitfields will also be good.
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%p
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The actual marking phase should be relatively easy, as the world is known completely.
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There are no grey stack areas where one has to guess, as all objects are typed
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and the type determines which slots are objects. Not even registers are grey
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area, as we switch cooperatively; only the Message register is ever valid.
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%p
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In fact, all this makes even moving objects relatively easy. Though there is off
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course the effort of going through the world to find all backlinks. But if that
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done during a mark, it comes at relatively low cost.
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%p
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All in all a very interesting topic, and surely someone will come up with some
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great idea. And off course we there will have e to be the most rudimentary from
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the start, just enough to work and give someone motivation to improve it.
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