bsnes-libretro/nall
Tim Allen c50723ef61 Update to v100r15 release.
byuu wrote:

Aforementioned scheduler changes added. Longer explanation of why here:
http://hastebin.com/raw/toxedenece

Again, we really need to test this as thoroughly as possible for
regressions :/
This is a really major change that affects absolutely everything: all
emulation cores, all coprocessors, etc.

Also added ADDX and SUB to the 68K core, which brings us just barely
above 50% of the instruction encoding space completed.

[Editor's note: The "aformentioned scheduler changes" were described in
a previous forum post:

    Unfortunately, 64-bits just wasn't enough precision (we were
    getting misalignments ~230 times a second on 21/24MHz clocks), so
    I had to move to 128-bit counters. This of course doesn't exist on
    32-bit architectures (and probably not on all 64-bit ones either),
    so for now ... higan's only going to compile on 64-bit machines
    until we figure something out. Maybe we offer a "lower precision"
    fallback for machines that lack uint128_t or something. Using the
    booth algorithm would be way too slow.

    Anyway, the precision is now 2^-96, which is roughly 10^-29. That
    puts us far beyond the yoctosecond. Suck it, MAME :P I'm jokingly
    referring to it as the byuusecond. The other 32-bits of precision
    allows a 1Hz clock to run up to one full second before all clocks
    need to be normalized to prevent overflow.

    I fixed a serious wobbling issue where I was using clock > other.clock
    for synchronization instead of clock >= other.clock; and also another
    aliasing issue when two threads share a common frequency, but don't
    run in lock-step. The latter I don't even fully understand, but I
    did observe it in testing.

    nall/serialization.hpp has been extended to support 128-bit integers,
    but without explicitly naming them (yay generic code), so nall will
    still compile on 32-bit platforms for all other applications.

    Speed is basically a wash now. FC's a bit slower, SFC's a bit faster.

The "longer explanation" in the linked hastebin is:

    Okay, so the idea is that we can have an arbitrary number of
    oscillators. Take the SNES:

    - CPU/PPU clock = 21477272.727272hz
    - SMP/DSP clock = 24576000hz
    - Cartridge DSP1 clock = 8000000hz
    - Cartridge MSU1 clock = 44100hz
    - Controller Port 1 modem controller clock = 57600hz
    - Controller Port 2 barcode battler clock = 115200hz
    - Expansion Port exercise bike clock = 192000hz

    Is this a pathological case? Of course it is, but it's possible. The
    first four do exist in the wild already: see Rockman X2 MSU1
    patch. Manifest files with higan let you specify any frequency you
    want for any component.

    The old trick higan used was to hold an int64 counter for each
    thread:thread synchronization, and adjust it like so:

    - if thread A steps X clocks; then clock += X * threadB.frequency
      - if clock >= 0; switch to threadB
    - if thread B steps X clocks; then clock -= X * threadA.frequency
      - if clock <  0; switch to threadA

    But there are also system configurations where one processor has to
    synchronize with more than one other processor. Take the Genesis:

    - the 68K has to sync with the Z80 and PSG and YM2612 and VDP
    - the Z80 has to sync with the 68K and PSG and YM2612
    - the PSG has to sync with the 68K and Z80 and YM2612

    Now I could do this by having an int64 clock value for every
    association. But these clock values would have to be outside the
    individual Thread class objects, and we would have to update every
    relationship's clock value. So the 68K would have to update the Z80,
    PSG, YM2612 and VDP clocks. That's four expensive 64-bit multiply-adds
    per clock step event instead of one.

    As such, we have to account for both possibilities. The only way to
    do this is with a single time base. We do this like so:

    - setup: scalar = timeBase / frequency
    - step: clock += scalar * clocks

    Once per second, we look at every thread, find the smallest clock
    value. Then subtract that value from all threads. This prevents the
    clock counters from overflowing.

    Unfortunately, these oscillator values are psychotic, unpredictable,
    and often times repeating fractions. Even with a timeBase of
    1,000,000,000,000,000,000 (one attosecond); we get rounding errors
    every ~16,300 synchronizations. Specifically, this happens with a CPU
    running at 21477273hz (rounded) and SMP running at 24576000hz. That
    may be good enough for most emulators, but ... you know how I am.

    Plus, even at the attosecond level, we're really pushing against the
    limits of 64-bit integers. Given the reciprocal inverse, a frequency
    of 1Hz (which does exist in higan!) would have a scalar that consumes
    1/18th of the entire range of a uint64 on every single step. Yes, I
    could raise the frequency, and then step by that amount, I know. But
    I don't want to have weird gotchas like that in the scheduler core.

    Until I increase the accuracy to about 100 times greater than a
    yoctosecond, the rounding errors are too great. And since the only
    choice above 64-bit values is 128-bit values; we might as well use
    all the extra headroom. 2^-96 as a timebase gives me the ability to
    have both a 1Hz and 4GHz clock; and run them both for a full second;
    before an overflow event would occur.

Another hastebin includes demonstration code:

    #include <libco/libco.h>

    #include <nall/nall.hpp>
    using namespace nall;

    //

    cothread_t mainThread = nullptr;
    const uint iterations = 100'000'000;
    const uint cpuFreq = 21477272.727272 + 0.5;
    const uint smpFreq = 24576000.000000 + 0.5;
    const uint cpuStep = 4;
    const uint smpStep = 5;

    //

    struct ThreadA {
      cothread_t handle = nullptr;
      uint64 frequency = 0;
      int64 clock = 0;

      auto create(auto (*entrypoint)() -> void, uint frequency) {
        this->handle = co_create(65536, entrypoint);
        this->frequency = frequency;
        this->clock = 0;
      }
    };

    struct CPUA : ThreadA {
      static auto Enter() -> void;
      auto main() -> void;
      CPUA() { create(&CPUA::Enter, cpuFreq); }
    } cpuA;

    struct SMPA : ThreadA {
      static auto Enter() -> void;
      auto main() -> void;
      SMPA() { create(&SMPA::Enter, smpFreq); }
    } smpA;

    uint8 queueA[iterations];
    uint offsetA;
    cothread_t resumeA = cpuA.handle;

    auto EnterA() -> void {
      offsetA = 0;
      co_switch(resumeA);
    }

    auto QueueA(uint value) -> void {
      queueA[offsetA++] = value;
      if(offsetA >= iterations) {
        resumeA = co_active();
        co_switch(mainThread);
      }
    }

    auto CPUA::Enter() -> void { while(true) cpuA.main(); }

    auto CPUA::main() -> void {
      QueueA(1);
      smpA.clock -= cpuStep * smpA.frequency;
      if(smpA.clock < 0) co_switch(smpA.handle);
    }

    auto SMPA::Enter() -> void { while(true) smpA.main(); }

    auto SMPA::main() -> void {
      QueueA(2);
      smpA.clock += smpStep * cpuA.frequency;
      if(smpA.clock >= 0) co_switch(cpuA.handle);
    }

    //

    struct ThreadB {
      cothread_t handle = nullptr;
      uint128_t scalar = 0;
      uint128_t clock = 0;

      auto print128(uint128_t value) {
        string s;
        while(value) {
          s.append((char)('0' + value % 10));
          value /= 10;
        }
        s.reverse();
        print(s, "\n");
      }

      //femtosecond (10^15) =    16306
      //attosecond  (10^18) =   688838
      //zeptosecond (10^21) = 13712691
      //yoctosecond (10^24) = 13712691 (hitting a dead-end on a rounding error causing a wobble)
      //byuusecond? ( 2^96) = (perfect? 79,228 times more precise than a yoctosecond)

      auto create(auto (*entrypoint)() -> void, uint128_t frequency) {
        this->handle = co_create(65536, entrypoint);

        uint128_t unitOfTime = 1;
      //for(uint n : range(29)) unitOfTime *= 10;
        unitOfTime <<= 96;  //2^96 time units ...

        this->scalar = unitOfTime / frequency;
        print128(this->scalar);
        this->clock = 0;
      }

      auto step(uint128_t clocks) -> void { clock += clocks * scalar; }
      auto synchronize(ThreadB& thread) -> void { if(clock >= thread.clock) co_switch(thread.handle); }
    };

    struct CPUB : ThreadB {
      static auto Enter() -> void;
      auto main() -> void;
      CPUB() { create(&CPUB::Enter, cpuFreq); }
    } cpuB;

    struct SMPB : ThreadB {
      static auto Enter() -> void;
      auto main() -> void;
      SMPB() { create(&SMPB::Enter, smpFreq); clock = 1; }
    } smpB;

    auto correct() -> void {
      auto minimum = min(cpuB.clock, smpB.clock);
      cpuB.clock -= minimum;
      smpB.clock -= minimum;
    }

    uint8 queueB[iterations];
    uint offsetB;
    cothread_t resumeB = cpuB.handle;

    auto EnterB() -> void {
      correct();
      offsetB = 0;
      co_switch(resumeB);
    }

    auto QueueB(uint value) -> void {
      queueB[offsetB++] = value;
      if(offsetB >= iterations) {
        resumeB = co_active();
        co_switch(mainThread);
      }
    }

    auto CPUB::Enter() -> void { while(true) cpuB.main(); }

    auto CPUB::main() -> void {
      QueueB(1);
      step(cpuStep);
      synchronize(smpB);
    }

    auto SMPB::Enter() -> void { while(true) smpB.main(); }

    auto SMPB::main() -> void {
      QueueB(2);
      step(smpStep);
      synchronize(cpuB);
    }

    //

    #include <nall/main.hpp>
    auto nall::main(string_vector) -> void {
      mainThread = co_active();

      uint masterCounter = 0;
      while(true) {
        print(masterCounter++, " ...\n");

        auto A = clock();
        EnterA();
        auto B = clock();
        print((double)(B - A) / CLOCKS_PER_SEC, "s\n");

        auto C = clock();
        EnterB();
        auto D = clock();
        print((double)(D - C) / CLOCKS_PER_SEC, "s\n");

        for(uint n : range(iterations)) {
          if(queueA[n] != queueB[n]) return print("fail at ", n, "\n");
        }
      }
    }

...and that's everything.]
2016-07-31 12:11:20 +10:00
..
beat Update to v099r15 release. 2016-07-04 21:48:17 +10:00
database Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
decode Update to v097r14 release. 2016-02-16 20:11:58 +11:00
dsp Update to v098r15 release. 2016-06-05 14:52:43 +10:00
emulation Update to v099r15 release. 2016-07-04 21:48:17 +10:00
encode Update to v098r10 release. 2016-05-16 19:51:12 +10:00
hash Update to v098r10 release. 2016-05-16 19:51:12 +10:00
http Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
image Update to v098r10 release. 2016-05-16 19:51:12 +10:00
mosaic Update to v099r15 release. 2016-07-04 21:48:17 +10:00
posix Update to v099r14 release. 2016-07-01 21:50:32 +10:00
string Update to v100r14 release. 2016-07-30 13:56:12 +10:00
vector Update to v098r10 release. 2016-05-16 19:51:12 +10:00
vfs Update to v099r14 release. 2016-07-01 21:50:32 +10:00
windows Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
xorg Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
algorithm.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
any.hpp Update to v098r10 release. 2016-05-16 19:51:12 +10:00
atoi.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
bit-field.hpp Update to v099r15 release. 2016-07-04 21:48:17 +10:00
bit-vector.hpp Update to v098r19 release. 2016-06-09 08:26:35 +10:00
bit.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
config.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
directory.hpp Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
dl.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
endian.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
file.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
filemap.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
function.hpp Update to v100r08 release. 2016-07-18 08:11:29 +10:00
GNUmakefile Update to v097r02 release. 2016-01-25 22:27:18 +11:00
hashset.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
hid.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
image.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
inode.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
interpolation.hpp Update to v098r14 release. 2016-06-01 21:23:22 +10:00
intrinsics.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
location.hpp Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
main.hpp Update to v099r15 release. 2016-07-04 21:48:17 +10:00
map.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
matrix.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
maybe.hpp Update to v099r11 release. 2016-06-27 23:07:57 +10:00
memory.hpp Update to v099r01 release. 2016-06-14 20:51:54 +10:00
mosaic.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
nall.hpp Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
path.hpp Update to v099r16 release (public beta). 2016-07-04 21:53:24 +10:00
platform.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
primitives.hpp Update to v100r14 release. 2016-07-30 13:56:12 +10:00
property.hpp Update to v099r09 release. 2016-06-25 18:53:11 +10:00
queue.hpp Update to v098r13 release. 2016-06-01 08:29:36 +10:00
random.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
range.hpp Update to v098r08 release. 2016-05-02 19:57:04 +10:00
run.hpp Update to v099r15 release. 2016-07-04 21:48:17 +10:00
serial.hpp Update to v098r08 release. 2016-05-02 19:57:04 +10:00
serializer.hpp Update to v100r15 release. 2016-07-31 12:11:20 +10:00
service.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
set.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
shared-memory.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
shared-pointer.hpp Update to v098r10 release. 2016-05-16 19:51:12 +10:00
smtp.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
sort.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
stdint.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
string.hpp Update to v100r14 release. 2016-07-30 13:56:12 +10:00
thread.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
traits.hpp Update to 20160106 OS X Preview for Developers release. 2016-01-07 19:17:15 +11:00
unique-pointer.hpp Update to v097r02 release. 2016-01-25 22:27:18 +11:00
utility.hpp Update to v098r11 release. 2016-05-25 21:13:02 +10:00
varint.hpp Update to v099r14 release. 2016-07-01 21:50:32 +10:00
vector.hpp Update to v098r10 release. 2016-05-16 19:51:12 +10:00
vfs.hpp Update to v099r05 release. 2016-06-20 21:00:32 +10:00