[VA] SRC #012a - Then and Now: Probability
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10-17-2022, 06:29 PM
Post: #61
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 06:01 PM)Valentin Albillo Wrote:Dave Britten Wrote:Sharp PC-1403H version of Valentin's 71B program (I didn't really have to change much, aside from minor syntactic/keyword differences) [...] This model takes about 4 hours to run for the 30, 60 case [...] The results are in: it took around 4 hours to run the 30, 60 scenario on the pure-BASIC 1403H program. But it looks like I can speed this up by using the ROM-based matrix routines to handle copying/swapping/zeroing the matrices. Current estimates with smaller parameters suggests I might trim 1/3 off the runtime. We'll see! It's only been going about 20 minutes now. I'll have to take a look at Albert's program and see if that might be usable (and possibly faster) here. |
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10-17-2022, 08:16 PM
Post: #62
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 06:29 PM)Dave Britten Wrote: I'll have to take a look at Albert's program and see if that might be usable (and possibly faster) here. My flattened array code use little memory, and fast (fastest so far, without using symmetry) The code use MAT Q=P, but it is not necessary. All it need is to swap the name of 2 arrays. Sadly, VARSWAP P, Q does not work. Here is a version that simulate swapping of array name. Array P of x ≡ A(P, x) Array Q of x ≡ A(Q, X) Note: P, Q are now numbers 0 or 1, P+Q=1, not the array itself. 10 DESTROY ALL @ INPUT "[VA]SRC012A R,S= ";R,S @ SETTIME 0 20 OPTION BASE 0 @ REAL A(1,(R+1)*(R+4)/2) @ P=0 30 A(P,2)=1 @ M=2 40 FOR K=1 TO S 50 Q=P @ P=1-P @ A(Q,2)=A(Q,2)*3 @ T=3 ! BUILD Q 60 FOR I=2 TO M-(M=R) @ X=T+1 @ A(Q,X)=A(Q,X)*1.5 @ X=T+I @ A(Q,X)=A(Q,X)*1.5 @ T=X+1 @ NEXT I 70 IF M<>R THEN 100 80 FOR X=T+2 TO T+R-1 @ A(Q,X)=A(Q,X)*1.5 @ NEXT X 90 T=T+1 @ A(Q,T)=A(Q,T)*3 @ A(Q,X)=A(Q,X)*3 100 T=1 @ FOR I=1 TO M @ FOR X=T+1 TO T+I ! BUILD P 110 A(P,X)=A(Q,X-I-1)+A(Q,X-I)+A(Q,X-1)+A(Q,X+1)+A(Q,X+I+1)+A(Q,X+I+2) 120 NEXT X @ T=X @ NEXT I 130 M=M+(M<R) 140 DISP K;TIME 150 NEXT K 160 T=0 @ K=R*(R+1)/2 @ FOR X=K+1 TO K+R @ T=T+A(P,X) @ NEXT X 170 DISP TIME;R;S;T/6^S >RUN [VA]SRC012A R,S= 30,60 ... 91.38 30 60 9.51234350205E-6 Not as good as original flattened array version (83.1 sec), but not too bad. |
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10-17-2022, 08:38 PM
Post: #63
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name [...] Just one question: the quoted time (91.38 seconds) applies when your program is run on what machine ? A physical HP-71B ? If not, what's the time for a physical HP-71B ? Thanks and regards. V All My Articles & other Materials here: Valentin Albillo's HP Collection |
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10-17-2022, 09:19 PM
Post: #64
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 08:38 PM)Valentin Albillo Wrote:(10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name [...] It was Emu71/DOS, running under DOSBOX, at cycles = max 50%, on my laptop Running [VA] code on same condition, it clocked at 126.92 seconds. Fastest so far is my flattened array code, clocked at 83.10 seconds. All 3 codes can handle non-symmetrical starting conditions. |
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10-17-2022, 09:36 PM
Post: #65
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RE: [VA] SRC #012a - Then and Now: Probability
When I time MAT P=ZER vs. MAT P=(0), I see no difference.
Is it the same on an actual HP71B ? |
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10-17-2022, 10:49 PM
Post: #66
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RE: [VA] SRC #012a - Then and Now: Probability
In a physical HP-71B I got the following timing for AC's program in post #62
2464.74 30 60 9.51234350205E-6 Thus, a little over 41 minutes. |
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10-18-2022, 08:00 AM
Post: #67
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 06:29 PM)Dave Britten Wrote: The results are in: it took around 4 hours to run the 30, 60 scenario on the pure-BASIC 1403H program.What is the numeric result? I'm curious to compare the accuracy too, is the 1403H a 12-digit machine and does it manage the "round-to -even" rule? I gave a simple test to check it above. (10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name.I don't see the benefit of this version, you are still using the same amount of memory, and the access to the array A is slower which is not compensated by the gain of the MAT copy. (10-17-2022 09:36 PM)Albert Chan Wrote: When I time MAT P=ZER vs. MAT P=(0), I see no difference.There is a difference, MAT P=ZER is about 2x faster: 10 DIM A(4096) 20 T=TIME @ MAT A=ZER @ T=TIME-T @ DISP T 20 T=TIME @ MAT A=(0) @ T=TIME-T @ DISP T >RUN .38 .76 (physical HP-71B) However, if you target the smallest code, MAT A=(0) is one byte shorter :-) J-F |
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10-18-2022, 08:19 AM
Post: #68
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RE: [VA] SRC #012a - Then and Now: Probability
(10-18-2022 08:00 AM)J-F Garnier Wrote:(10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name.I don't see the benefit of this version, you are still using the same amount of memory, and the access to the array A is slower which is not compensated by the gain of the MAT copy. No, it uses only half the memory, roughly? Werner 41CV†,42S,48GX,49G,DM42,DM41X,17BII,15CE,DM15L,12C,16CE |
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10-18-2022, 09:08 AM
Post: #69
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RE: [VA] SRC #012a - Then and Now: Probability
(10-16-2022 05:52 PM)Valentin Albillo Wrote: So, this is my original solution, a 13-line, 683-byte program. (10-17-2022 08:38 PM)Valentin Albillo Wrote:(10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name [...] With the various machines and platforms running HP-71 code (Android, Windows, go71, Emu71/Win, Emu71/DOS w/ or w/o DOSBox), it's difficult to compare execution times. Downloading and running each code on a physical HP-71 is not convenient, and not everybody has the means to do it - although they should :-) So I propose the use Valentin's solution as the reference. Here are the results for my solution: VA's reference solution: 91" my solution : 63" = 0.69 in Valentin's units :-) Note I used the symmetry of the problem. J-F |
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10-18-2022, 11:16 AM
Post: #70
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RE: [VA] SRC #012a - Then and Now: Probability
(10-18-2022 08:00 AM)J-F Garnier Wrote:(10-17-2022 08:16 PM)Albert Chan Wrote: Here is a version that simulate swapping of array name.I don't see the benefit of this version, you are still using the same amount of memory, and the access to the array A is slower which is not compensated by the gain of the MAT copy. That's why it is called simulate swapping of array name. True variable name swapping should be almost cost free. It is a proof of concept, showing MAT Q=P is not needed. The code is useful for machine that use slow FOR-NEXT for MAT copy. Simulated array name swapping removed the slow FOR-NEXT loops. Perhaps add MAT SWAP to HP Article VA044 - HP-71B Math Pac 2 Comments and Proposals.pdf ? Flattened A array of 1 dimension, array access cost almost matched removal of MAT COPY However, for optimized code, it may be hard to deduce where A is pointing to. That's why I posted the slower A(P, x) version, instead of faster A(P + x) Anyway, this was my flattened A version. Note: we reduced array elements required by 1, but still safe. Note: Build Q part, to simplify code, T is triangular number minus one, plus Q 10 DESTROY ALL @ INPUT "[VA]SRC012A R,S= ";R,S @ SETTIME 0 20 OPTION BASE 0 @ P=0 @ Q=(R+1)*(R+4)/2 @ REAL A(2*Q) 30 A(2)=1 @ M=2 40 FOR K=1 TO S 50 VARSWAP P,Q @ T=Q+2 @ A(T)=A(T)*3 ! BUILD Q 60 FOR I=1 TO M-(M=R)-1 @ T=T+2 @ A(T)=A(T)*1.5 @ T=T+I @ A(T)=A(T)*1.5 @ NEXT I 70 IF M<>R THEN 100 80 FOR X=T+3 TO T+R @ A(X)=A(X)*1.5 @ NEXT X 90 T=T+2 @ A(T)=A(T)*3 @ A(X)=A(X)*3 100 T=Q+1 @ Y=P-Q @ FOR I=1 TO M @ FOR X=T+1 TO T+I ! BUILD P 110 A(X+Y)=A(X-I-1)+A(X-I)+A(X-1)+A(X+1)+A(X+I+1)+A(X+I+2) 120 NEXT X @ T=X @ NEXT I 130 M=M+(M<R) 140 DISP K;TIME 150 NEXT K 160 T=0 @ K=P+R*(R+1)/2 @ FOR X=K+1 TO K+R @ T=T+A(X) @ NEXT X 170 DISP TIME;R;S;T/6^S >RUN [VA]SRC012A R,S= 30,60 ... 84.49 30 60 9.51234350205E-6 Very close to fastest MAT Q=P version, clocked at 83.1 sec. |
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10-18-2022, 12:25 PM
Post: #71
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RE: [VA] SRC #012a - Then and Now: Probability
(10-18-2022 08:00 AM)J-F Garnier Wrote:(10-17-2022 06:29 PM)Dave Britten Wrote: The results are in: it took around 4 hours to run the 30, 60 scenario on the pure-BASIC 1403H program.What is the numeric result? I'm curious to compare the accuracy too, is the 1403H a 12-digit machine and does it manage the "round-to -even" rule? I gave a simple test to check it above. I get 9.512343561E-06 for the 30, 60 bottom-row case, and the full probability map sums up to 1.000 000 009. I believe most Sharps are 10-digit machines. Here's an amended version of the program that uses two of the ROM routines for matrix handling. Now it only takes a little over 3 hours to run the full 30, 60. :) 10 CLEAR:INPUT "ROWS?";M:INPUT "STEPS?";N:DIM Y(M,M):DIM X(M,M) 15 Y(1,1)=1:W=M-1:FOR I=1 TO N:X=0:CALL 26153 20 P=Y(1,1)/2:IF P LET X(2,1)=X(2,1)+P:X(2,2)=X(2,2)+P 25 P=Y(M,1)/2:IF P LET X(W,1)=X(W,1)+P:X(M,2)=X(M,2)+P 30 P=Y(M,M)/2:IF P LET X(W,W)=X(W,W)+P:X(M,W)=X(M,W)+P 35 FOR X=2 TO W:U=X-1:V=X+1:P=Y(X,1)/4:Q=Y(X,X)/4:R=Y(M,X)/4 40 IF P LET X(U,1)=X(U,1)+P:X(V,1)=X(V,1)+P:X(X,2)=X(X,2)+P:X(V,2)=X(V,2)+P 45 IF Q LET X(U,U)=X(U,U)+Q:X(V,V)=X(V,V)+Q:X(X,U)=X(X,U)+Q:X(V,X)=X(V,X)+Q 50 IF R LET X(M,U)=X(M,U)+R:X(M,V)=X(M,V)+R:X(W,U)=X(W,U)+R:X(W,X)=X(W,X)+R 55 NEXT X:FOR X=3 TO W:U=X-1:V=X+1:FOR Y=2 TO U:R=Y-1:S=Y+1:P=Y(X,Y)/6 60 IF P LET X(U,R)=X(U,R)+P:X(U,Y)=X(U,Y)+P:X(X,R)=X(X,R)+P 65 IF P LET X(X,S)=X(X,S)+P:X(V,Y)=X(V,Y)+P:X(V,S)=X(V,S)+P 70 NEXT Y:NEXT X:CALL 26163:NEXT I:P=0:FOR Y=1 TO M:P=P+Y(M,Y):NEXT Y:BEEP 3:PRINT P:END 300 "A"S=0:FOR I=1 TO M:FOR J=1 TO I:S=S+Y(I,J):NEXT J:NEXT I:PRINT S:END The list of matrix routine addresses can be found in message 51 of this thread. These are the two I used: 26153 - Multiply array X() by scalar variable X and store the result back in X() (in this case, I multiply by 0 to zero out the array) 26163 - Swap X() and Y() arrays |
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10-18-2022, 03:38 PM
(This post was last modified: 10-18-2022 03:55 PM by J-F Garnier.)
Post: #72
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RE: [VA] SRC #012a - Then and Now: Probability
(10-17-2022 10:49 PM)Fernando del Rey Wrote: In a physical HP-71B I got the following timing for AC's program in post #62 To restore a little the HP-75 prestige, the same post #62 program (with minor changes°) runs on the 75 as: 1353.469 30 60 9.51234350246E-6 About 23 minutes, or about 2x faster than the HP-71. Of course the price of the 75, at the time, was also in the prestige class. ° Changes: 5 OPTION BASE 0 @ REAL A(1,527) 10 INPUT "[VA]SRC012A R,S= "; R,S @ T0=TIME 20 REDIM A(1,(R+1)*(R+4)/2) @ P=0 25 MAT A=ZER ! init vars 170 DISP TIME-T0;R;S;T/6^S (I hate to change the clock setting with SETTIME) J-F |
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10-18-2022, 05:15 PM
Post: #73
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RE: [VA] SRC #012a - Then and Now: Probability
Hi, J-F, J-F Garnier Wrote:So I propose the use Valentin's solution as the reference [...] I don't get it. You say my "reference solution" runs in 91", but ... on which hardware/software !? As far as I can tell, so far my solution runs in these times:
27.46" on my 4-yo Samsung Galaxy Tab A 6 tablet (Android) ~ 3 hr on a Sharp PC-1403H (Dave Britten dixit) 126.92" on Emu71/DOS, running under DOSBOX, unknown hardware (A.Chan dixit) As an additional comment, I don't think that merely comparing runtimes among different solutions is meaningful even for the exact same hardware/software, because other factors also play a big role, among them the following come to mind:
As you can see, without taking those factors and others into accound the comparisons are mostly meaningless. Thanks for your continued interest in this problem and best regards. V. All My Articles & other Materials here: Valentin Albillo's HP Collection |
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10-19-2022, 09:55 PM
Post: #74
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RE: [VA] SRC #012a - Then and Now: Probability
(10-18-2022 11:16 AM)Albert Chan Wrote: Anyway, this was my flattened A version. We might as well reduce memory use to its absolute minimum, remove 1 more element. For consistency, Build P part also defined T as triangular number minus one, plus Q In other words, A(T) is triangle Q right edge, A(T+2) is Q left edge. 10 DESTROY ALL @ INPUT "[VA]SRC012A R,S= ";R,S @ SETTIME 0 20 OPTION BASE 0 @ P=0 @ Q=(R+1)*(R+4)/2-1 @ REAL A(2*Q+1) 30 A(2)=1 @ M=2 40 FOR K=1 TO S 50 VARSWAP P,Q @ T=Q+2 @ A(T)=A(T)*3 ! BUILD Q 60 FOR I=1 TO M-(M=R)-1 @ T=T+2 @ A(T)=A(T)*1.5 @ T=T+I @ A(T)=A(T)*1.5 @ NEXT I 70 IF M<>R THEN 100 80 FOR X=T+3 TO T+R @ A(X)=A(X)*1.5 @ NEXT X 90 T=T+2 @ A(T)=A(T)*3 @ A(X)=A(X)*3 100 T=Q @ Y=P-Q+1 @ FOR I=1 TO M @ FOR X=T+1 TO T+I ! BUILD P 110 A(X+Y)=A(X-I)+A(X-I+1)+A(X)+A(X+2)+A(X+I+2)+A(X+I+3) 120 NEXT X @ T=X @ NEXT I 130 M=M+(M<R) 140 DISP K;TIME 150 NEXT K 160 T=0 @ K=P+R*(R+1)/2 @ FOR X=K+1 TO K+R @ T=T+A(X) @ NEXT X 170 DISP TIME;R;S;T/6^S >RUN [VA]SRC012A R,S= 5,4 ... 82.79 30 60 9.51234350205E-6 This version is currently the fastest, but only by a hair. I like MAT Q=P version better; code is more clear. Quote:Flattened A array of 1 dimension, array access cost almost matched removal of MAT COPY |
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10-19-2022, 09:56 PM
(This post was last modified: 10-19-2022 10:05 PM by Albert Chan.)
Post: #75
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RE: [VA] SRC #012a - Then and Now: Probability
Running Emu71/Dos under DosBox is slow, with bad timing info.
Running it in WinXP is faster, with more consistent timing. This despite my Toshiba laptop is supposed to be 10x faster than my 22 years old Dell ... go figures. HP71B codes so far, running in Dell Optiplex GX110 866MHz, with 512M Ram All codes adjusted to return only P(R=30,S=60), and time needed. Timings from best of 3 Symmetry of Yes meant starting condition must be symmetric. Post Member Time(s) Symmetry Array elements 21 Fernando del Rey 34.29 No 2*R^2 22 J-F Garnier 12.91 Yes 2*R^2 33 C.Ret 34.94 Yes 3*R^2 35 Albert Chan 9.79 Yes 2*R^2 40 Albert Chan 26.09 Yes 3*R^2 42 Albert Chan 9.79 Yes 2*R^2 + (R+2)*(ceil(R/2)+2) 48 C.Ret 9.79 Yes 2*R^2 + (R+2)*(ceil(R/2)+2) 49 Albert Chan 6.72 Yes 2*(R+2)*(ceil(R/2)+2) 50 Valentin Albillo 17.82 No 2*R^2 51 Albert Chan 12.14 No 2*(R+2)^2 56 Albert Chan 11.42 No (R+2)*(R+3) 62 Albert Chan 12.79 No (R+2)*(R+3) 70 Albert Chan 11.86 No (R+2)*(R+3) - 1 74 Albert Chan 11.32 No (R+2)*(R+3) - 2 |
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10-20-2022, 06:57 PM
Post: #76
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RE: [VA] SRC #012a - Then and Now: Probability
(10-13-2022 12:04 PM)Fernando del Rey Wrote: And you could also consider the symmetry of the solution if the man is starting at cell (1,1), calculating only half of the grid. But then the algorithm would not be valid for a starting position which is not located in the central column of the grid, which is therefore not symmetrical. If the goal is row probability, symmetric solution can still work. Say, D is starting distribution, D' is its mirror image, Pi is i-th row probability Note: sum of probability distribution = 1.0 Symmetry: Pi(D) = Pi(D') = Pi(D + D') Example, below 3 initial conditions produce same row probability. A(1,1)=1/2 @ A(3,2)=1/6 @ A(3,1)=1/3 ! asymmetric distribution A(1,1)=1/2 @ A(3,2)=1/6 @ A(3,3)=1/3 ! mirror image A(1,1)=1/2 @ A(3,2)=1/6 @ A(3,1)=1/6 @ A(3,3)=1/6 ! symmetric distribution For row probability, we can transform to symmetric distribution, then process only half the grid. |
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10-20-2022, 09:39 PM
Post: #77
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RE: [VA] SRC #012a - Then and Now: Probability
This has been a very interesting thread.
This is a sys-rpl version for HP50g of CReth SRC12a. On an actual HP50g the calculation time for the 30 60 problem is 5 min 21sec. p= 9.51234350207E-6 " !RPL !NO CODE !JAZZ :: CK2NOLASTWD CK&DISPATCH2 #11 :: COERCE2 ' CODE GOSBVL POP2# RSTK=C SAVE B=A.A A*A.A A-B.A ASRB.A C=RSTK A+C.A GOSBVL PUSH#ALOOP ENDCODE 3PICK DUP 3PICK EVAL SWAP 2 SWAPOVER {{ r s d m Tind ii }} r #1+_ONE_DO (i) INDEX @ #1+_ONE_DO (j) 3 DUP INDEX@ #1<> ?SKIP #1- JINDEX@ INDEX@ #<> ?SKIP #1- JINDEX@ r #<> ?SKIP #1- UNCOERCE %/ LOOP (j) LOOP (i) d UNCOERCE ONE{}N FPTR2 ^XEQ>ARRY DUP %0 xCON %1 BINT1 PUTREALEL s #1+_ONE_DO (k) INDEX@ #>$ BIGDISPROW1 2DUP m m 2GETEVAL DUP4UNROLL TOTEMPOB (n) #1+_ONE_DO (q) SWAP INDEX@ PULLREALEL ROT INDEX@ PULLREALEL ROT %* 4UNROLL LOOP (q) 2DROP UNCOERCE ONE{}N x>ARRY m #1+_ONE_DO (i) INDEX@ #2 #/ #+ #1+_ONE_DO (j) JINDEX@ INDEX@ 2GETEVAL PULLREALEL %CHS JINDEX@ TOTEMPOB !ii 1 JINDEX@ #1- #MAX JINDEX@ #1+ m #MIN #1+ SWAP DO (a) 1 JINDEX@ INDEX@ ii #> ?SKIP #1- MAX JINDEX@ ii INDEX@ #> ?SKIP #1+ INDEX@ MIN #1+SWAP DO (b) SWAP JINDEX@ INDEX@ 2GETEVAL PULLREALEL ROT %+ LOOP (b) LOOP (a) ROT JINDEX@ INDEX@ 2GETEVAL 3PICKSWAP PUTREALEL JINDEX@ #1+ INDEX@ #- 2GETEVAL ROTSWAP PUTREALEL SWAP LOOP (j) LOOP (i) DROP m DUP r #>=_ ?SKIP #1+ !m LOOP (k) SWAP %0 xCON r 1 2GETEVAL UNCOERCE xDO %1 xPUTI xUNTIL % -64 xFS? xENDDO xDROP xDOT %6 s UNCOERCE x^ x/ ABND ; ; @ " I hope I got it without typing errors. The small code object "Tind" reduces calculation time with 29%, from about 450sec to 321. I lost the userRPL version, but it was many times slower. br Gjermund |
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10-21-2022, 05:27 AM
Post: #78
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RE: [VA] SRC #012a - Then and Now: Probability
(10-16-2022 05:29 PM)Albert Chan Wrote: (*) I don't really need a copy, swapping name of array (P,Q) is enough.As far as I know (which is not a lot, admittedly), VARSWAP swaps the *values* of the variables, not their names. Cheers, Werner 41CV†,42S,48GX,49G,DM42,DM41X,17BII,15CE,DM15L,12C,16CE |
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10-21-2022, 04:10 PM
Post: #79
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RE: [VA] SRC #012a - Then and Now: Probability
(10-12-2022 12:10 PM)PeterP Wrote: My code does deliver the correct result for R = 5, but I dont have a good way (especially right now on a plane and my work computer has no simulators installed…) to check if it is correct for R = 30, S=29. (It comes out to 1.311095094 e-13). For S = R-1, we can treat triangle as without bottom edge (and the 2 corners). First step from top corner, it gives equal probability to left or right side. We can thus skip first iteration, simplified the problem without top corner. Problem now is relatively simple, with only inside (6 ways) and edge (4 ways) Only edge probability can "leak" to the inside; inside probabilities never "gets out". Work out the geometric progression (not shown), with p=1/6, q=1/4, we have: P(R, S=R-1) = ((2p)^(R-3) - q^(R-3)) / (2*p-q) * (2*p*q) + 2*q^(R-2) (2*p*q) / (2*p-q) = 1 / (1/q-1/(2*p)) = 1 / (4-3) = 1. It simplified to: P(R, S=R-1) = 3^(3-R) - 2^(5-2*R) Example: P(1,0) = 9 - 8 = 1 P(2,1) = 3 - 2 = 1 P(3,2) = 1 - 1/2 = 1/2 P(4,3) = 1/3 - 1/8 = 5/24 P(5,4) = 1/9 - 1/32 = 23/288 P(6,5) = 1/27 - 1/128 = 101/3456 ... P(30,29) = 1/3^27 - 1/2^55 ≈ 1.31109509664e-13 |
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10-21-2022, 05:38 PM
Post: #80
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RE: [VA] SRC #012a - Then and Now: Probability
(10-19-2022 09:56 PM)Albert Chan Wrote: This despite my Toshiba laptop is supposed to be 10x faster than my 22 years old Dell ... go figures. semi-OT. Because emulating a system may be done in a not too efficient way and a lot is lost on the way. For example Saturn code is emulated in the 50g, but if you take the emulation away and you write code with tools that are more optimized for the machine (newRPL for example), the speed difference is impressive. So yes one could execute things on very powerful systems that are simply wasting a lot due to inefficiencies. Good to know that the Dos emulator is not that great. Would be interesting if you try compatibility options offered by windows itself or virtual machines via microsoft virtual PC. Anyway as valentin said, in the big picture execution time is only partially meanigful. Wikis are great, Contribute :) |
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