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ChristopherJam
Registered: Aug 2004
Posts: 1409 |
Nucrunch 0.1
Continuing from the benchmarks WVL posted in Doynamite 1.x:
I dusted off my unfinished nucrunch in December to pack just enough of the second page of Reutastic to give me some workspace for some precalculations. Pity I didn't schedule enough time to pack the entire demo, else it would have been ~90 blocks instead of 190, but I digress. I've spent bits of the past month cleaning up the code, optimizing the packer (mostly by porting it from python to rust :P), and adding reverse direction support.
It's still no more than a component, with an commandline packer and asm decrunch subroutine, but no tools yet for generating an executable from a single commandline. It does at least now support multiple input segments that are unpacked to their destination addresses, and it's also now useable enough to for me to do some benchmarking.
In short, doynamite's ratio looks pretty unbeatable for anything lz based; my ratio's almost identical despite a somewhat different encoding.
Where I can win though is speed at that ratio; nucrunch is usually ten to twenty percent faster. The one exception in the test corpus is 6.bin, where it's 20% slower; not sure why yet.
I've added the times for pucrunch -ffast below for to complete the comparison. Last two columns are nucrunch, and nucrunch -r (the latter decodes in reverse; should be a more useful component for single filers)
If anyone wants to have a play at this stage, poke me and I'll upload some source. Failing that I'll hold off until I at least have something that can make onefilers without any faffing about with relocating the last couple of pages by hand.
filesizes
# bin rle wvl-f wvl-s tc bb pu-f doyna nucru rnucr
- ----- ----- ----- ----- ----- ----- ----- ----- ----- -----
1 11008 8020 4529 4151 4329 3383 3711 3265 3225 3230
2 4973 4314 3532 3309 3423 2648 3005 2512 2498 2490
3 3949 3498 2991 2617 2972 2187 2530 2108 2091 2093
4 7016 6456 4242 4085 4225 3681 3924 3617 3622 3614
5 34760 27647 25781 24895 25210 21306 21182 20405 20447 20516
6 31605 12511 11283 10923 11614 9194 9203 8904 8915 8894
7 20392 17295 12108 11285 11445 9627 9789 9289 9140 9144
8 5713 5407 4179 3916 3936 3251 3656 3132 3165 3187
9 8960 7986 6914 6896 6572 5586 6000 5430 5502 5486
filesize in %
# bin rle wvl-f wvl-s tc bb pu-f doyna nucru rnucr
- ----- ----- ----- ----- ----- ----- ----- ----- ----- -----
1 100 72.9 41.1 37.7 39.3 30.7 33.7 29.7 29.3 29.3
2 100 86.7 71.0 66.5 68.8 53.2 60.4 50.5 50.2 50.1
3 100 88.6 75.7 66.3 75.3 55.4 64.1 53.4 53.0 53.0
4 100 92.0 60.5 58.2 60.2 52.5 55.9 51.6 51.6 51.5
5 100 79.5 74.2 71.6 72.5 61.3 60.9 58.7 58.8 59.0
6 100 39.6 35.7 34.6 36.7 29.1 29.1 28.2 28.2 28.1
7 100 84.8 59.4 55.3 56.1 47.2 48.0 45.6 44.8 44.8
8 100 94.6 73.1 68.5 68.9 56.9 64.0 54.8 55.4 55.8
9 100 89.1 77.2 77.0 73.3 62.3 67.0 60.6 61.4 61.2
number of frames to depack
# bin rle wvl-f wvl-s tc bb pu-f doyna nucru rnucr
- ----- ----- ----- ----- ----- ----- ----- ----- ----- -----
1 0 11 13 14 15 58 54 27 22 22
2 0 5 7 7 9 38 39 17 14 14
3 0 4 6 6 7 28 31 12 10 10
4 0 8 9 9 10 43 51 20 17 18
5 0 36 39 42 59 300 298 119 104 107
6 0 20 25 25 37 126 152 49 59 59
7 0 22 25 26 32 138 139 60 51 52
8 0 6 8 8 10 43 47 18 16 17
9 0 9 12 12 16 73 81 32 28 29
kilobytes output per second
# bin rle wvl-f wvl-s tc bb pu-f doyna nucru rnucr
- ----- ----- ----- ----- ----- ----- ----- ----- ----- -----
1 49.0 41.4 38.5 35.9 9.3 10.0 20.0 24.5 24.5
2 48.7 34.8 34.8 27.0 6.4 6.2 14.3 17.4 17.4
3 48.3 32.2 32.2 27.6 6.9 6.2 16.1 19.3 19.3
4 42.9 38.2 38.2 34.3 8.0 6.7 17.2 20.2 19.1
5 47.3 43.6 40.5 28.8 5.7 5.7 14.3 16.4 15.9
6 77.4 61.9 61.9 41.8 12.3 10.2 31.6 26.2 26.2
7 45.4 39.9 38.4 31.2 7.2 7.2 16.6 19.6 19.2
8 46.6 35.0 35.0 28.0 6.5 6.0 15.5 17.5 16.5
9 48.7 36.5 36.5 27.4 6.0 5.4 13.7 15.7 15.1
cycles per byte consumed
# bin rle wvl-f wvl-s tc bb pu-f doyna nucru rnucr
- ----- ----- ----- ----- ----- ----- ----- ----- ----- -----
1 0 27 56 66 68 337 286 163 134 134
2 0 23 39 42 52 282 255 133 110 111
3 0 22 39 45 46 252 241 112 94 94
4 0 24 42 43 47 230 255 109 92 98
5 0 26 30 33 46 277 277 115 100 103
6 0 31 44 45 63 269 325 108 130 130
7 0 25 41 45 55 282 279 127 110 112
8 0 22 38 40 50 260 253 113 99 105
9 0 22 34 34 48 257 265 116 100 104
decrunch time for nucrunch/rnucrunch relative to doynamite
1: 81.5% (-18.5%) 81.5% (-18.5%)
2: 82.4% (-17.6%) 82.4% (-17.6%)
3: 83.3% (-16.7%) 83.3% (-16.7%)
4: 85.0% (-15.0%) 90.0% (-10.0%)
5: 87.4% (-12.6%) 89.9% (-10.1%)
6: 120.4% ( 20.4%) 120.4% ( 20.4%)
7: 85.0% (-15.0%) 86.7% (-13.3%)
8: 88.9% (-11.1%) 94.4% ( -5.6%)
9: 87.5% (-12.5%) 90.6% ( -9.4%)
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ChristopherJam
Registered: Aug 2004
Posts: 1409 |
Quoting Oswaldjust stumbled over this:
"Exactly what's required for half-cell Koalas, or there wouldn't be enough CPU time to update 37 bytes of d800 values every four lines :)"
you have 4 rasterlines to update d800, because it is only read on bad lines.
Well, yes. 4 raster lines less the 40-43 cycles of DMA, 4 cycles to update d011, and 4 cycles to flip d018. That leaves at best 63*4-40-4-4=204 cycles, or 5.51 cycles per byte of d800, and that's assuming you've magically got useful values for d011 and d018 to hand. |
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Oswald
Registered: Apr 2002
Posts: 5095 |
true. its harder than I thought. (as always)
anyhow 16 values vs 37 writes its should fit easily with register reuse (ok that was what you said, alright:). also eod wasnt doing nowhere near 30 bytes when it was dynamic. now we know why :) |
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algorithm
Registered: May 2002
Posts: 705 |
Just doing the lda #$00 sta dxxx sta xxxx.... lda #$01 sta dxxx dxxx.. should give max cycle usage of (4*37 for the writes and (2*16) for the register preload = 180 cycles (and that is in the worst case scenario - if there are 16 different colors per line. Should still be ample time to update d800. |
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algorithm
Registered: May 2002
Posts: 705 |
To reduce it further. can do the delta writes in the second half of the 4 rasterlines.. only change colors that are different in the same position as directly above.. |
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algorithm
Registered: May 2002
Posts: 705 |
Actually should be able to do a delta every 4 lines..
Set up d800-d827 before the first badline..
1
when the badline occurs, do the delta update for the next 4 lines
force second badline 4 pixels down. at this stage, the updates to d800-d827 will occur
then write the delta to change back the values to how they were originally at d828-d84f
repeat from 1 |
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Bitbreaker
Registered: Oct 2002
Posts: 508 |
If x is preloaded for a whole frame one can easily write 16 values with only 8 register loads:
ldx #$0e
lda #$01
sax $d800
sta $d801
lda #$03
sax $d802
sta $d803
lda #$05
sax $d804
sta $d805
...
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JackAsser
Registered: Jun 2002
Posts: 2014 |
Quote: just stumbled over this:
"Exactly what's required for half-cell Koalas, or there wouldn't be enough CPU time to update 37 bytes of d800 values every four lines :)"
you have 4 rasterlines to update d800, because it is only read on bad lines.
Really interesting, but why on earth contaminate THIS thread? :D |
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Bitbreaker
Registered: Oct 2002
Posts: 508 |
Because he can :-D |
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JackAsser
Registered: Jun 2002
Posts: 2014 |
Quote: Because he can :-D
I'm OK with that! :) |
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HCL
Registered: Feb 2003
Posts: 728 |
Is this thread just being hijacked!? |
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