Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩

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Sujet : Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩
De : polcott333 (at) *nospam* gmail.com (olcott)
Groupes : comp.theory sci.logic
Date : 28. May 2024, 03:04:37
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <v33aj7$9f3u$1@dont-email.me>
References : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34
User-Agent : Mozilla Thunderbird
On 5/27/2024 7:48 PM, Richard Damon wrote:
On 5/27/24 8:26 PM, olcott wrote:
On 5/27/2024 7:17 PM, Richard Damon wrote:
On 5/27/24 8:08 PM, olcott wrote:
On 5/27/2024 5:44 PM, Richard Damon wrote:
On 5/27/24 6:32 PM, olcott wrote:
On 5/27/2024 4:21 PM, Richard Damon wrote:
On 5/27/24 3:45 PM, olcott wrote:
On 5/27/2024 11:33 AM, Richard Damon wrote:
On 5/27/24 12:22 PM, olcott wrote:
On 5/27/2024 10:58 AM, Richard Damon wrote:
On 5/27/24 11:46 AM, olcott wrote:
On 5/27/2024 10:25 AM, Richard Damon wrote:
On 5/27/24 11:06 AM, olcott wrote:
>
>
typedef int (*ptr)();  // ptr is pointer to int function in C
00       int H(ptr p, ptr i);
01       int D(ptr p)
02       {
03         int Halt_Status = H(p, p);
04         if (Halt_Status)
05           HERE: goto HERE;
06         return Halt_Status;
07       }
08
09       int main()
10       {
11         H(D,D);
12         return 0;
13       }
>
The above template refers to an infinite set of H/D pairs where D is
correctly simulated by either pure simulator H or pure function H. This
was done because many reviewers used the shell game ploy to endlessly
switch which H/D pair was being referred to.
>
*Correct Simulation Defined*
    This is provided because many reviewers had a different notion of
    correct simulation that diverges from this notion.
>
    A simulator is an x86 emulator that correctly emulates 1 to N of the
    x86 instructions of D in the order specified by the x86 instructions
    of D. This may include M recursive emulations of H emulating itself
    emulating D.
>
And how do you apply that to a TEMPLATE that doesn't define what a call H means (as it could be any of the infinite set of Hs that you can instantiate the template on)?
>
>
*Somehow we got off track of the subject of this thread*
>
I note that YOU keep on switching between your C program and Turing Machines.
>
Note, per the implications that you implicitly agreed to (by not even trying to refute) the two systems are NOT equivalents of each other.
>
>
(1) I think you are wrong. I have not seen any of your
reasoning that was not anchored in false assumptions.
Your make fake rebuttal is to change the subject.
>
(2) It does not matter my proof is anchored in the Linz
proof and the H/D pairs are only used to have a 100% concrete
basis to perfectly anchor things such as the correct meaning
of D correctly simulated by H so that people cannot get away
with claiming that an incorrect simulation is correct.
>
int main() { D(D); } IS NOT THE BEHAVIOR OF D CORRECTLY SIMULATED BY H.
One cannot simply ignore the pathological relationship between H and D.
>
>
When Ĥ is applied to ⟨Ĥ⟩
Ĥ.q0 ⟨Ĥ⟩ ⊢* embedded_H ⟨Ĥ⟩ ⟨Ĥ⟩ ⊢* Ĥ.qy ∞
Ĥ.q0 ⟨Ĥ⟩ ⊢* embedded_H ⟨Ĥ⟩ ⟨Ĥ⟩ ⊢* Ĥ.qn
>
  Ĥ copies its own Turing machine description: ⟨Ĥ⟩
  then invokes embedded_H that simulates ⟨Ĥ⟩ with ⟨Ĥ⟩ as input.
>
For the purposes of the above analysis we hypothesize that
embedded_H is either a UTM or a UTM that has been adapted
to stop simulating after a finite number of steps of simulation.
>
And what you do mean by that?
>
Do you hypothesize that the original H was just a pure UTM,
>
The original proof does not consider the notion of a simulating
halt decider so I have to begin the proof at an earlier stage
than any definition of H.
>
The biggest problem is that the input to the Turing machine decider H is the description of a Turing Machine H^, which is a SPECIFIC machine,
>
When you say "specific machine" you don't mean anything like a
100% completely specified sequence of state transitions encoded
as a single unique finite string.
>
Mostly.
>
There doesn't need to be a unique finite string, but it is a 100% completely specified state transition/tape operation table.
>
>
When Ĥ is applied to ⟨Ĥ⟩
Ĥ.q0 ⟨Ĥ⟩ ⊢* embedded_H ⟨Ĥ⟩ ⟨Ĥ⟩ ⊢* Ĥ.qy ∞
Ĥ.q0 ⟨Ĥ⟩ ⊢* embedded_H ⟨Ĥ⟩ ⟨Ĥ⟩ ⊢* Ĥ.qn
>
In other words Linz did not prove that there are no set
of state transitions specified by ⊢* that derives the
correct halt status of ⟨Ĥ⟩ ⟨Ĥ⟩.
>
He only said there there is one specific machine that
gets the wrong answer.
>
>
He STARTS with a proof that one specific (but arbitrary) machine gets the wrong answer.
>
Then he shows that the same proof can be applied to ANY such machine (becaue the proof didn't depend on any specific details of the machine, just the general properties of that machine)
>
I guess you don't understand how to do categorical proofs.
>
>
I totally do. Can you please write down the
"completely specified state transition/tape operation table."
of this specific (thus uniquely identifiable) machine I would
really like to see it.
>
 But it was proven that no such machine exists!
 Remember, the proof starts with the hypothetical that such a machine exists. Such a machine WOULD HAVE a completely specified state transition/tape operation table.
 
That is not what you said.
 >>>>> There doesn't need to be a unique finite string, but it is a 100%
 >>>>> completely specified state transition/tape operation table.
"a 100% completely specified state transition/tape operation table"
of a non-existent machine.

(The fact you ask the question means you don't understand the method of proof).
 
Socratic questions resulted in you contradicting yourself, exactly as I
expected. That is how Socratic questions work. When someone contradicts
themselves they say whoops, lets try again.
A Troll would say: "I never contradicted myself you liar!"
Socratic questions expose Trolls for all to see.

Given the assumption of such a machine, we can show how to construct the H^ machine to test it with.
 We can then show that, whatever the actual behavior of the machine H, it will be wrong.
 
There is no "whatever the actual behavior" of a specific machine.
That only applies to a set of implementations of a machine.

Thus we proved that machine didn't meet the requirements.
 
No we actually proved that you were never really talking about
a single specific machine.

And, because we didn't use any specific details of that machine, we can show that we can do the same for ANY machine that might claim to be a halt decider.
 
A set of machines specified by a template have common properties.

Sort of like the proof that there doesn't exist a highest prime number, we first presume that there might be, and then show how that assumption proves itself wrong.
 
*Just like when we see that when we know that*
⟨Ĥ⟩ ⟨Ĥ⟩ correctly simulated by embedded_H cannot possibly reach its
own simulated final state of ⟨Ĥ.qn⟩ and halt in an infinite sequence of
correctly simulated steps we can see that this also applies to every
less than infinite (AKA finite) sequence.
Like mathematical induction in reverse.
--
Copyright 2024 Olcott "Talent hits a target no one else can hit; Genius
hits a target no one else can see." Arthur Schopenhauer

Date Sujet#  Auteur
23 May 24 * Can you see that D correctly simulated by H remains stuck in recursive simulation?186olcott
24 May 24 +* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?23Richard Damon
24 May 24 i+* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?10olcott
24 May 24 ii`* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?9Richard Damon
24 May 24 ii `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?8olcott
24 May 24 ii  `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?7Richard Damon
24 May 24 ii   `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?6olcott
24 May 24 ii    `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?5Richard Damon
24 May 24 ii     `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?4olcott
24 May 24 ii      `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?3Richard Damon
24 May 24 ii       `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?2olcott
25 May 24 ii        `- Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?1Richard Damon
24 May 24 i`* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?12Fred. Zwarts
24 May 24 i +* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?5Richard Damon
24 May 24 i i`* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?4olcott
24 May 24 i i `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?3Richard Damon
24 May 24 i i  `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?2olcott
25 May 24 i i   `- Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?1Richard Damon
24 May 24 i `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?6olcott
24 May 24 i  `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?5Richard Damon
24 May 24 i   `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?4olcott
24 May 24 i    `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?3Richard Damon
24 May 24 i     `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?2olcott
25 May 24 i      `- Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?1Richard Damon
24 May 24 +* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?154Fred. Zwarts
24 May 24 i`* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?153olcott
24 May 24 i `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?152Richard Damon
24 May 24 i  `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?151olcott
24 May 24 i   `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?150Richard Damon
24 May 24 i    `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?149olcott
25 May 24 i     +- Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?1Richard Damon
25 May 24 i     `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?147olcott
25 May 24 i      `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?146Richard Damon
25 May 24 i       `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?145olcott
25 May 24 i        `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?144Richard Damon
25 May 24 i         `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?143olcott
25 May 24 i          +* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?140Richard Damon
25 May 24 i          i`* D correctly simulated by pure function H cannot possibly reach its, own line 06139olcott
25 May 24 i          i `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06138Richard Damon
25 May 24 i          i  `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06137olcott
25 May 24 i          i   +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06134Richard Damon
25 May 24 i          i   i`* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06133olcott
25 May 24 i          i   i `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06132Richard Damon
25 May 24 i          i   i  `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06131olcott
25 May 24 i          i   i   `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06130Richard Damon
25 May 24 i          i   i    `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06129olcott
25 May 24 i          i   i     `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06128Richard Damon
26 May 24 i          i   i      +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 066olcott
26 May 24 i          i   i      i`* Re: D correctly simulated by pure function H cannot possibly reach its, own line 065Richard Damon
26 May 24 i          i   i      i `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 064olcott
26 May 24 i          i   i      i  `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 063Richard Damon
26 May 24 i          i   i      i   `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 062olcott
26 May 24 i          i   i      i    `- Re: D correctly simulated by pure function H cannot possibly reach its, own line 061Richard Damon
26 May 24 i          i   i      `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06121olcott
26 May 24 i          i   i       `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06120Richard Damon
26 May 24 i          i   i        `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06119olcott
26 May 24 i          i   i         `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06118Richard Damon
26 May 24 i          i   i          `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06117olcott
26 May 24 i          i   i           `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06116Richard Damon
26 May 24 i          i   i            `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06115olcott
26 May 24 i          i   i             `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06114Richard Damon
26 May 24 i          i   i              `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06113olcott
26 May 24 i          i   i               `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06112Richard Damon
26 May 24 i          i   i                +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 062olcott
26 May 24 i          i   i                i`- Re: D correctly simulated by pure function H cannot possibly reach its, own line 061Richard Damon
26 May 24 i          i   i                `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06109olcott
26 May 24 i          i   i                 `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06108Richard Damon
26 May 24 i          i   i                  +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 066olcott
26 May 24 i          i   i                  i`* Re: D correctly simulated by pure function H cannot possibly reach its, own line 065Richard Damon
26 May 24 i          i   i                  i +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 062olcott
26 May 24 i          i   i                  i i`- Re: D correctly simulated by pure function H cannot possibly reach its, own line 061Richard Damon
26 May 24 i          i   i                  i `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 062olcott
26 May 24 i          i   i                  i  `- Re: D correctly simulated by pure function H cannot possibly reach its, own line 061Richard Damon
26 May 24 i          i   i                  `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?101olcott
26 May 24 i          i   i                   `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?100Richard Damon
26 May 24 i          i   i                    `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?99olcott
26 May 24 i          i   i                     `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?98Richard Damon
26 May 24 i          i   i                      `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?97olcott
26 May 24 i          i   i                       `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Dishonest?96Richard Damon
26 May 24 i          i   i                        `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 ---95olcott
26 May 24 i          i   i                         `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 ---94Richard Damon
26 May 24 i          i   i                          `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 ---93olcott
26 May 24 i          i   i                           `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 ---92Richard Damon
26 May 24 i          i   i                            +* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz proof4olcott
26 May 24 i          i   i                            i`* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz proof3Richard Damon
26 May 24 i          i   i                            i `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz proof2olcott
26 May 24 i          i   i                            i  `- Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz proof1Richard Damon
26 May 24 i          i   i                            `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz87olcott
26 May 24 i          i   i                             `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 06 --- Linz86Richard Damon
27 May 24 i          i   i                              `* A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩85olcott
27 May 24 i          i   i                               `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩84Richard Damon
27 May 24 i          i   i                                `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩83olcott
27 May 24 i          i   i                                 `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩82Richard Damon
27 May 24 i          i   i                                  +* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩4olcott
27 May 24 i          i   i                                  i`* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩3Richard Damon
27 May 24 i          i   i                                  i `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩2olcott
27 May 24 i          i   i                                  i  `- Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩1Richard Damon
27 May 24 i          i   i                                  `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩77olcott
27 May 24 i          i   i                                   +* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩3Richard Damon
27 May 24 i          i   i                                   i`* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩2olcott
27 May 24 i          i   i                                   i `- Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩1Richard Damon
27 May 24 i          i   i                                   `* Re: A simulating halt decider applied to the The Peter Linz Turing Machine description ⟨Ĥ⟩73olcott
25 May 24 i          i   `* Re: D correctly simulated by pure function H cannot possibly reach its, own line 062Alan Mackenzie
26 May 24 i          `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?2Fred. Zwarts
24 May 24 `* Re: Can you see that D correctly simulated by H remains stuck in recursive simulation?8Mikko

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