Number of divisors of a number - in NP?












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$begingroup$


I'm trying to show that the language ${(m,n) | m space text{has exactly} space n space text{divisors}}$ is in NP.



The input $(m,n)$ is in binary.



The non-deterministic Turing machine for the language would be:



1) Guess the prime factors of $m.$



2) Verify that $prod i(di+1) = n.$



The problem is that I can't find a way to factorize in polynomial time (in the input) the number $m.$



If stage $1$ takes m steps then it would be $m = 2^{log (m)}$ and the whole algorithm would run in exponential time.



How can I factorize a number in binary in polynomial time (polynomial in the input)?










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$endgroup$












  • $begingroup$
    As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
    $endgroup$
    – Peter
    Dec 15 '18 at 8:24










  • $begingroup$
    en.wikipedia.org/wiki/…
    $endgroup$
    – David Peterson
    Dec 15 '18 at 8:25






  • 1




    $begingroup$
    The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:29










  • $begingroup$
    @spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
    $endgroup$
    – caffein
    Dec 15 '18 at 8:31








  • 2




    $begingroup$
    The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:53


















0












$begingroup$


I'm trying to show that the language ${(m,n) | m space text{has exactly} space n space text{divisors}}$ is in NP.



The input $(m,n)$ is in binary.



The non-deterministic Turing machine for the language would be:



1) Guess the prime factors of $m.$



2) Verify that $prod i(di+1) = n.$



The problem is that I can't find a way to factorize in polynomial time (in the input) the number $m.$



If stage $1$ takes m steps then it would be $m = 2^{log (m)}$ and the whole algorithm would run in exponential time.



How can I factorize a number in binary in polynomial time (polynomial in the input)?










share|cite|improve this question











$endgroup$












  • $begingroup$
    As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
    $endgroup$
    – Peter
    Dec 15 '18 at 8:24










  • $begingroup$
    en.wikipedia.org/wiki/…
    $endgroup$
    – David Peterson
    Dec 15 '18 at 8:25






  • 1




    $begingroup$
    The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:29










  • $begingroup$
    @spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
    $endgroup$
    – caffein
    Dec 15 '18 at 8:31








  • 2




    $begingroup$
    The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:53
















0












0








0





$begingroup$


I'm trying to show that the language ${(m,n) | m space text{has exactly} space n space text{divisors}}$ is in NP.



The input $(m,n)$ is in binary.



The non-deterministic Turing machine for the language would be:



1) Guess the prime factors of $m.$



2) Verify that $prod i(di+1) = n.$



The problem is that I can't find a way to factorize in polynomial time (in the input) the number $m.$



If stage $1$ takes m steps then it would be $m = 2^{log (m)}$ and the whole algorithm would run in exponential time.



How can I factorize a number in binary in polynomial time (polynomial in the input)?










share|cite|improve this question











$endgroup$




I'm trying to show that the language ${(m,n) | m space text{has exactly} space n space text{divisors}}$ is in NP.



The input $(m,n)$ is in binary.



The non-deterministic Turing machine for the language would be:



1) Guess the prime factors of $m.$



2) Verify that $prod i(di+1) = n.$



The problem is that I can't find a way to factorize in polynomial time (in the input) the number $m.$



If stage $1$ takes m steps then it would be $m = 2^{log (m)}$ and the whole algorithm would run in exponential time.



How can I factorize a number in binary in polynomial time (polynomial in the input)?







turing-machines np-complete






share|cite|improve this question















share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited Dec 15 '18 at 8:39









Gaby Alfonso

1,2071418




1,2071418










asked Dec 15 '18 at 8:18









caffeincaffein

113




113












  • $begingroup$
    As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
    $endgroup$
    – Peter
    Dec 15 '18 at 8:24










  • $begingroup$
    en.wikipedia.org/wiki/…
    $endgroup$
    – David Peterson
    Dec 15 '18 at 8:25






  • 1




    $begingroup$
    The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:29










  • $begingroup$
    @spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
    $endgroup$
    – caffein
    Dec 15 '18 at 8:31








  • 2




    $begingroup$
    The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:53




















  • $begingroup$
    As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
    $endgroup$
    – Peter
    Dec 15 '18 at 8:24










  • $begingroup$
    en.wikipedia.org/wiki/…
    $endgroup$
    – David Peterson
    Dec 15 '18 at 8:25






  • 1




    $begingroup$
    The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:29










  • $begingroup$
    @spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
    $endgroup$
    – caffein
    Dec 15 '18 at 8:31








  • 2




    $begingroup$
    The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
    $endgroup$
    – spaceisdarkgreen
    Dec 15 '18 at 8:53


















$begingroup$
As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
$endgroup$
– Peter
Dec 15 '18 at 8:24




$begingroup$
As far as I know, it is an open problem whether integer factorization is in $P$ or not. No efficient (that is polynomial in time) method is currently known.
$endgroup$
– Peter
Dec 15 '18 at 8:24












$begingroup$
en.wikipedia.org/wiki/…
$endgroup$
– David Peterson
Dec 15 '18 at 8:25




$begingroup$
en.wikipedia.org/wiki/…
$endgroup$
– David Peterson
Dec 15 '18 at 8:25




1




1




$begingroup$
The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
$endgroup$
– spaceisdarkgreen
Dec 15 '18 at 8:29




$begingroup$
The whole point is that on a non-deterministic turing machine you can guess the correct solution non-deterministically in a single step... you only need to verify it in polynomial time.
$endgroup$
– spaceisdarkgreen
Dec 15 '18 at 8:29












$begingroup$
@spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
$endgroup$
– caffein
Dec 15 '18 at 8:31






$begingroup$
@spaceisdarkgreen But the problem is that the amount of numbers i need to guess for the correct answer might be polynomial in the size of the binary input. If i have log(m) bits and we have m factors that would be m = 2 ^ (logm) --> exponential
$endgroup$
– caffein
Dec 15 '18 at 8:31






2




2




$begingroup$
The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
$endgroup$
– spaceisdarkgreen
Dec 15 '18 at 8:53






$begingroup$
The number of prime factors of $m$ is logarithmic in $m.$ And in any event this has nothing to do with 'factorizing a number in polynomial time', just 'listing the (known) factors in polynomial time'. (Though if the latter were impossible, the former would be trivially impossible, rather than probably impossible, but a hard open question.)
$endgroup$
– spaceisdarkgreen
Dec 15 '18 at 8:53












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