Sujet : Re: Overview of proof that the input to HHH(DDD) specifies non-halting behavior
De : richard (at) *nospam* damon-family.org (Richard Damon)
Groupes : comp.theoryDate : 14. Aug 2024, 03:31:06
Autres entêtes
Organisation : i2pn2 (i2pn.org)
Message-ID : <c5fc8856fb9b70f1fa1617a5852059be83a7e521@i2pn2.org>
References : 1 2
User-Agent : Mozilla Thunderbird
On 8/13/24 11:36 AM, olcott wrote:
On 8/12/2024 8:43 PM, olcott wrote:
We prove that the simulation is correct.
Then we prove that this simulation cannot possibly
reach its final halt state / ever stop running without being aborted.
The semantics of the x86 language conclusive proves this is true.
>
Thus when we measure the behavior specified by this finite
string by DDD correctly simulated/emulated by HHH it specifies
non-halting behavior.
>
https://www.researchgate.net/ publication/369971402_Simulating_Termination_Analyzer_H_is_Not_Fooled_by_Pathological_Input_D
>
*ESSENCE OF PROOF OF KEY POINTS*
A simulation of N instructions of DDD by HHH according to
the semantics of the x86 language is stipulated to be correct.
Not a valid stipulation, you can not stipulate something to be "correct".
If you mean to stipulate a MEANING for corect, then you just locked your self out of using "correct" in the normal meaning, and thus locked you self out of proving anything.
Using your "stipulation" of correct, to mean that you are stipulating what will be considered to be a "Correct Simulation" for your previous statement, that make that statement FALSE, because ANY DDD that calls an HHH that will simulate for just N instructions and then return will be HALTING by simple inspection.
Yes, the simulation doesn't reach the final state, but partial simulation don't show what happens as a final state of the machine (or if it reaches on).
You keep repeating this error, proving that you seem to have a learning disability that prevents you from understanding the true meaning of words.
If you want to change your statement to be an actruism, then you need to say something like: "It is true that no partial or complete correct simulaiton of DDD by HHH will ever reach the return instruction of DDD".
The key is you need simulation, not DDD to be the subject of the verb reach, so that is what you are actually talking about, and what reaches (or not) the final state.
A correct simulation of N instructions of DDD by HHH is
sufficient to correctly predict the behavior of an unlimited
simulation.
Nope, shown elsewhere.
Termination analyzers / halt deciders are only required
to correctly predict the behavior of their inputs.
Termination analyzers / halt deciders are only required
to correctly predict the behavior of their inputs, thus
the behavior of non-inputs is outside of their domain.
And that behavior is, BY DEFINITION, the behavior of the program that the input represents, or your decider is NOT a halt decider.
Again, DEFINITIONS
Something you don't seem to understand, probably because you INTENTIONALLY made your self ignornt of the field because of your fear that the facts would brainwash you, so you brainwashed yourself to believe your lies.