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On 8/5/2024 10:50 PM, Richard Damon wrote:Which means you are not allowed to abort it, as the x86 processor doesn't stop. (unless you hit what you define as a terminal instruction for the program, in which chase the program is "Halting")On 8/5/24 11:21 PM, olcott wrote:I say correctly emulated according to the semantics of the x86On 8/5/2024 10:12 PM, Mike Terry wrote:>On 06/08/2024 03:25, olcott wrote:>On 8/5/2024 8:32 PM, Richard Damon wrote:>On 8/5/24 8:07 PM, olcott wrote:>On 8/5/2024 5:59 PM, Richard Damon wrote:>On 8/5/24 9:49 AM, olcott wrote:>On 8/5/2024 2:39 AM, Mikko wrote:>On 2024-08-04 18:59:03 +0000, olcott said:>
>On 8/4/2024 1:51 PM, Richard Damon wrote:>On 8/4/24 9:53 AM, olcott wrote:>On 8/4/2024 1:22 AM, Fred. Zwarts wrote:>Op 03.aug.2024 om 18:35 schreef olcott:>>>> ∞ instructions of DDD correctly emulated by HHH[∞] never>reach their own "return" instruction final state.>
>
So you are saying that the infinite one does?
>
Dreaming again of HHH that does not abort? Dreams are no substitute for facts.
The HHH that aborts and halts, halts. A tautology.
void DDD()
{
HHH(DDD);
return;
}
>
That is the right answer to the wrong question.
I am asking whether or not DDD emulated by HHH
reaches its "return" instruction.
But the "DDD emulated by HHH" is the program DDD above,
When I say DDD emulated by HHH I mean at any level of
emulation and not and direct execution.
If you mean anything other than what the words mean you wihout
a definition in the beginning of the same message then it is
not reasonable to expect anyone to understand what you mean.
Instead people may think that you mean what you say or that
you don't know what you are saying.
>
If you don't understand what the word "emulate" means look it up.
>
DDD (above) cannot possibly reach its own "return" instruction halt
state when its machine code is correctly emulated by HHH.
>
Only because an HHH that does so never returns to anybody.
>
Do you really not understand that recursive emulation <is>
isomorphic to infinite recursion?
>
Not when the emulation is conditional.
>
Infinite_Recursion() meets the exact same condition that DDD
emulated by HHH makes and you know this. Since you are so
persistently trying to get away contradicting the semantics
of the x86 language the time is coming where there is zero
doubt that this is an honest mistake.
>
Ben does correctly understand that the first half of the Sipser
approved criteria is met. Even Mike finally admitted this.
I don't recall doing that. Please provide a reference for this.
>
On 8/2/2024 8:19 PM, Mike Terry wrote:
> It's easy enough to say "PO has his own criterion for
> halting, which is materially different from the HP condition,
> and so we all agree PO is correct by his own criterion...
>(Of course, everything depends on what you take Sipser's quote to be saying. I choose to interpret it as I'm pretty confident that Sipser intended, under which the first half is mpst certainly NOT met!)>
>
>
Mike.
>
>
<MIT Professor Sipser agreed to ONLY these verbatim words 10/13/2022>
If simulating halt decider H correctly simulates its input D
until H correctly determines that its simulated D would never
stop running unless aborted then
>
H can abort its simulation of D and correctly report that D
specifies a non-halting sequence of configurations.
</MIT Professor Sipser agreed to ONLY these verbatim words 10/13/2022>
>
void DDD()
{
HHH(DDD);
return;
}
>
It is certainly the case that DDD correctly simulated by any
HHH cannot possibly stop running unless aborted.
>
I don't see how any expert in the C language can deny that
with a straight face. Four have affirmed it. Two of these
four have masters degrees in computer science.
>
The problem is that this only works with the correct definition of "Correctly Simulated" but not YOUR definition of Correctly Simulated.
>
language yet no one besides me understand that.
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