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On 2024-05-14 14:10:47 +0000, olcott said:One can analyze whether a specific program will halt with a specific
On 5/14/2024 4:28 AM, Mikko wrote:The important difference is that a partial halting decider takesOn 2024-05-13 14:42:05 +0000, olcott said:>
>On 5/13/2024 4:06 AM, Mikko wrote:>On 2024-05-12 17:12:00 +0000, olcott said:>
>On 5/12/2024 10:27 AM, Mikko wrote:>On 2024-05-12 13:59:28 +0000, olcott said:>
>On 5/12/2024 3:45 AM, Mikko wrote:>On 2024-05-11 16:35:48 +0000, olcott said:>
>On 5/11/2024 4:39 AM, Mikko wrote:>On 2024-05-11 00:30:40 +0000, olcott said:>
>A termination analyzer is different than a halt decider in that it need>
not correctly determine the halt status of every input. For the purposes
of this paper a termination analyzer only needs to correctly determine
the halt status of one terminating input and one non-terminating input.
The computer science equivalent would be a halt decider with a limited
domain that includes at least one halting and one non-halting input.
From https://www.google.fi/search?q=termination+analysis and
https://en.wikipedia.org/wiki/Termination_analysis :
>
"In computer science, termination analysis is program analysis which attempts to determine whether the evaluation of a given program halts for each input. This means to determine whether the input program computes a total function."
>
So the term "termination analysis" is already defined. The derived term
"termination analyzer" means a performer of termination analysis. That
does not agree with the propsed defintion above so a differnt term
should be used.
>
That "termination analysis" is a know term that need not be defined
is demostrated e.g. by
>
https://arxiv.org/pdf/2101.09783
>
which simply assumes that readers know (at least approximately) what
the term means.
>
You are doing a great job performing an honest review!
So every time that Richard referred to a {termination analyzer} that
ignores its inputs *Richard was WRONG*
More important is that you are wrong whenever you use "termination
analyser" for something that by the conventional meaning isn't.
>
A conventional termination analyzer is free to use any algorithm
as long as it analyzes termination.
It is not sufficient to analyse something about termination. The
conventional meaning is that a termination analyser does not say
"yes" unless the analysed program terminates with every possible
input.
>
A specific program halts with every input is not at all the same
thing as correctly analyzing every program with every input.
If you can't find out whether a program halts with every input even
after analyzing it with every input your analysis is not really
good enough for the purpose.
>
Anyway, if an analyzer can never tell whether a program terminates
with every possible input then it is not a termination analyzer.
>
My simple termination analyzer easily determines whether or not
the limited class of programs that are in its domain halt on
every input. For example D() only has three classes of inputs
(a) Inputs that halt
(b) Inputs that do not halt
(c) itself.
If you can prove that it never gives a wrong "yes" answer
you can call it a "termination analyzer". Even better if
you can prove that it never gives a "yes" answer for an
invalid input.
>
However, it is not useful if it does not say "yes" about any useful
or interesting program.
>Because it is a termination analyzer it need not work for>
all programs. A partial halt decider with a limited domain
seems to be the equivalent theory of computation terminology.
A partial halt decider is not a termination analyzer. Their input
spaces are distinct.
>
It correctly determines the halt status YES or NO
for a specific limited set of programs and ALL of
the inputs to this limited infinite set of programs.
a pair (progam, input) for input but a halting analyzer takes
a singlet (program).
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