[VA] HP-15C CE et al.: Some questions about INTEG
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08-16-2023, 06:20 PM
Post: #1
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[VA] HP-15C CE et al.: Some questions about INTEG
Hi, all, Re the HP-15C/LE/CE built-in Integration functionality (INTEG for short,) I've noticed that neither the Owner's Handbook nor the Advanced Functions Handbook ever says a word about what happens when INTEG can't achieve the user-specified accuracy. They say it uses a modified Romberg method which keeps on doubling the number of samples to try and achieve the user-specified accuracy, but how long does it keep doing this ? Up to 16,383 samples ? 32,767 ? 65,535 ? And what happens if it reaches that limit without ever achieving the user-specified accuracy ? How does it report failure to the caller ? Or can INTEG run indefinitely in that case ? The HP-71B's Math ROM's INTEGRAL keyword (which I understand uses essentially the same Romberg-based method taken from the HP-15C/34C,) goes up to 65,535 samples, then reports failure by making IBOUND negative upon returning to the caller, which means: "I'm sorry but I couldn't achieve the accuracy you specified." So, does the HP-15C/LE/CE's INTEG do the same ? If called from a program, does it skip the next step, as SOLVE does ? Nothing of this seems to be even mentioned (let alone discussed) in any HP-15C or HP-34C manuals. It also goes unmentioned in the HP-41C Advantage manual, or even in the classic HP Journal article (pp.23-32) about this functionality (then just newly introduced in the HP-34C,) which was written by Kahan himself. I've searched extensively but I've been unable to find any references, though I seem to remember I saw one such in the very distant past. Can any of you post some ? In the meantime I've conducted an experiment using my brand-new HP-15C CE, namely I've run this small program I wrote for the purpose, which tries to make INTEG actually reach its limit and if so, see what happens next, e.g.:
b) If it reaches a limit for the number of function evaluations, what's that limit ? How many evaluations max. ? c) And what does it do next if executed in a program ? Does it skip the next program step to indicate failure as SOLVE does ? Does it also make the computed uncertainty negative to alert the caller, as the Math ROM does with IBOUND ? 01 LBL A begin program 13 LBL E f(x) definition 02 0 14 DSE I increase neg.# of evals 03 STO I reset counter to 0 15 LBL 01 place-holder 04 FIX 9 specify max. accuracy 16 RAN# random value for f(x) 05 1 limits will be 0..1 17 RTN returns to caller (INTEG) 06 INTEG E compute the integral 07 GTO 0 "if successful", branch 08 PI if not, show Pi ... 09 RTN ... and end program 10 LBL 0 "if successful" ... 11 RCL I ... display neg.# of evals 12 RTN end program
. LBL E defines the function to be integrated, which obviously must execute as fast as possible because it'll be called many thousand times by INTEG, while also ensuring the integral's approximations don't converge to a final result meeting the (maximum) required accuracy. Both goals are met by using RAN# as the function's value regardless of the arguments passed to it. The HP-15C CE's INTEG instruction can evaluate this function 121 times per second. Unfortunately, upon running it with GSB A it went on flashing running at a very fast rate (at least 4-5 times per second !) for more than 15 min., when I stopped it by pressing a key. Recalling the value of register I, which kept count of the (negative) number of evaluations of f(x), it came out as -108,980, which is almost twice the max. number of evaluations INTEGRAL would do (65,535) so my conclusion is:
Furthermore, I'd offer a little bit of reasoned speculation: perhaps the overall lack of documentation for this case is due to the fact that computing such difficult (non-converging) integrals on the original devices (34C, 15C, Advantage) would've taken some 45 hours to do what the CE did in 15 min., yet still didn't converge. That many hours (at the very minimum, as this is such a simple, fast-to-evaluate function) would've probably flattened out the batteries before getting any result so it was likely considered quite impossible to reach and execute any ad-hoc microcode to deal with this case and, as ROM space was extremely scarce, none was put in place (unlike the 71B Math ROM, where they did put code to deal with cases deemed impossible to produce, but then they had 5 Kb to spare.) Just saying ... Well, that's all. If any of you are willing to let your LE/CE run for longer than 15 min. (say 30 min. or a full hour, which would be equivalent to ~one week on the original devices) to try and check if this program eventually stops by itself and if so, what the outcome is, I sure would appreciate it. On the other hand, if some of the renowned 15C gurus (Eric Smith, Jean-François Garnier, you know who you are) can have a look at the 15C ROM and find out for good what it does in this case, it would be the ultimate answer. Thanks in advance and regards. V. All My Articles & other Materials here: Valentin Albillo's HP Collection |
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08-16-2023, 07:55 PM
Post: #2
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RE: [VA] HP-15C CE et al.: Some questions about INTEG
I 2ould love to help, and I have figured out how some portions of the 15C microcode work, but unfortunately I haven't yet reached any understanding of the INTEGRATE code.
In my limited experience, trying to integrate an ill-behaved function on the 15C can just cause it to continue trying indefinitely. |
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08-16-2023, 08:51 PM
Post: #3
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RE: [VA] HP-15C CE et al.: Some questions about INTEG
Has been running 45 min on my beta 15C CE (which looks a lot like a 12c) without stopping so far.
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08-16-2023, 09:34 PM
Post: #4
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RE: [VA] HP-15C CE et al.: Some questions about INTEG
Ok I let it run for an hour and a half.
It never stopped. The value in I was -609,805. |
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08-16-2023, 09:37 PM
(This post was last modified: 08-16-2023 09:50 PM by Valentin Albillo.)
Post: #5
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RE: [VA] HP-15C CE et al.: Some questions about INTEG
(08-16-2023 08:51 PM)Gene Wrote: Has been running 45 min on my beta 15C CE (which looks a lot like a 12c) without stopping so far. Thanks, Gene, that's like running for almost 6 days straight on an original device. I suggest you stop it after 1 hour has elapsed lest you'll exhaust a perfectly good pair of batteries to no avail. Please do a RCL I to see the count reached, and post it and the timing. This probably is plausible evidence that my speculation above is correct and there's no code in the ROM to cater for non-convergence. Only examining what the ROM actually does will settle the question. Best regards. V Edit: our posts crossed, plus I corrected an error. All My Articles & other Materials here: Valentin Albillo's HP Collection |
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