Questions tagged [cc.complexity-theory]
P versus NP and other resource-bounded computation.
2,798
questions
1
vote
1answer
33 views
Graph classes where giving a q-clique edge cover makes testing for q-colouring easy
A $q$-clique of a graph is a complete subgraph on $q$ vertices.
A $q$-clique edge cover of $G$ is a set of subgraphs of $G$ such that each subgraph is a $q$-clique and each edge of G is contained in ...
4
votes
0answers
101 views
An NP-hard Hidden Subgroup Problem
I've encountered a model which can be thought of as a version of the Hidden Subgroup Problem (https://en.wikipedia.org/wiki/Hidden_subgroup_problem), but that doesn't quite meet the standard problem's ...
-3
votes
0answers
117 views
BPP version of a problem related to #P completeness
Given a $CIRCUITSAT$ instance $\varphi(n)$ in $n$ variables and a fixed $k>1$ the problem of deciding if the number of satisfying witnesses is $2^n\big(1-\frac1k\big)$ or $\frac{2^n}k$ is $PP$ ...
2
votes
1answer
118 views
Minimum cut with size bounds $k\leq |S| \leq |V|-k$
It is known by the max flow min cut theorem that the minimum cut problem is in $P$.
I am interested in knowing what is known on the complexity of the minimum cut with size $k\leq |S| \leq , |V|- k$. ...
-3
votes
0answers
64 views
Would this type of circular reference problem be in P or NP?
The system of equations below is a circular reference problem.
$$\vec{a}_m(n)={\Large{\sum_{m=1}^t}}\sum_{n=1}^sf\left(\vec{x}_m(n),\vec{v}_m(n)\right)$$
$$\vec{v}_m(n+1)=h\left(\vec{a}_m(n),\vec{v}_m(...
2
votes
0answers
77 views
Result showing that DTIME[T] is strictly contained in random-access NTIME[T]
I recall seeing a result showing that multi-tape DTIME[T] is strictly contained in random-access NTIME[T] for reasonably large T (so not the PPST proof with the $\log^\star$ sort of factors), but I ...
-1
votes
0answers
31 views
Simple Reduction from ILP to slightly modified Integer Minimisation Problems?
I was introduced to the spectral bisection problem through numerical analysis today, and that it can be reduced to almost what seems like an ILP with some constraints that can be expressed the same ...
1
vote
0answers
70 views
Parametrization of context-sensitive language in polynomial time
Let $\Sigma$ be a finite alphabet. Let $L\subset \Sigma^*$ be a context-sensitive language containing a word of every length.
Can we always find $f:\Sigma^*\to L$ computable in polynomial time in ...
5
votes
0answers
216 views
$\#$P hardness of computing weighted sum of degree $2$ polynomials
Consider polynomials $f: \{0, 1\}^{n} \rightarrow \{0, 1\}$ over $\mathbb{F}_2$ (addition and multiplication are taken modulo $2$.) Consider integers $x \in \{0,1\}^{n}$, written in binary. Let $\...
2
votes
3answers
110 views
Cost of Numerically Solving a System of P polynomials, each of V variables, and degree D to a Specific Accuracy
Let there be a set of $P$ polynomial equations $f_j(x_1,x_2...x_V)=0$ where $1\leq j\leq P$. For each $f_j$ the coefficients are real and every variable goes up to degree $D$. It is also guaranteed ...
6
votes
1answer
270 views
Hardness of maximizing $x^TAy$ with $\{-1,1\}$ entries
My question concerns the NP-hardness of the following discrete optimization problem:
Given a matrix $A \in \{ \pm 1 \}^{m\times n}$,
$$\begin{array}{ll} \underset{x \in \{ \pm 1 \}^m ,\, y \in \{ \pm ...
-2
votes
1answer
49 views
Is time-slot matchmaking NP-hard?
I have the following problem, which I intuitively expect to be NP-hard but cannot see how to write a reduction for:
Givens: There is a fixed set of time slots, e.g. {9-10, 10-11, 11-12, 12-1, etc.}. ...
7
votes
0answers
220 views
How is a “low-degree polynomial” precisely defined in Algebrization?
I'm going through papers which present algebrization as a barrier and I'm trying to understand how "low-degree" polynomials are precisely defined, i.e. are they low with respect to the ...
3
votes
0answers
102 views
Complete problems for $(NP\cap CoNP)/poly$ class and universal representations
It is conjectured that $NP\cap CoNP$ does not have a complete problem with respect to the polynomial-time many-to-one reductions. I would like to know the current knowledge about the nonuniform ...
3
votes
1answer
210 views
Are there two definitions of Cobham's thesis?
In wikipedia, Cobham's thesis (or Cobham-Edmonds thesis) states:
computational problems can be feasibly computed on some computational device only if they can be computed in polynomial time
So ...
4
votes
0answers
179 views
What does width $4$ permutation branching program correspond to?
$L$ can be computed by a family of programs over $S_3$
of polynomial length if and only if $L$ can be computed by a family of $MOD3 ◦ MOD2$ circuits of
polynomial size.
$L$ can be computed by a family ...
2
votes
0answers
187 views
Simultaneous evidence for $L\neq NL$ and $P\neq NP$
We believe $L\neq NL$ and $P\neq NP$.
Is there any evidence which simultaneously imply $L\neq NL$ and $P\neq NP$?
3
votes
0answers
69 views
Useful notion of ambiguous growing context-sensitive language
As far as I understand there is no useful notion of ambiguous context-sensitive language.
For example for any inherently ambiguous context-free language there is a context-sensitive grammar generating ...
2
votes
0answers
385 views
The implication of $ S(SAT)=2^{\Omega{(n)}} $ Conjecture (5.7 in Wigderson Book)
I started to read Avi Wigderson book Math and Computation, which get me excited about the following:
Conjecture 5.7. $
S(SAT)=2^{\Omega{(n)}}
$,
where $S$ denotes the size of the smallest Boolean ...
2
votes
1answer
49 views
Relative error estimation of a special type of GapP function
Consider the functions included in the complexity class GapP.
We know that approximating a function from GapP, in the worst case, to inverse polynomial multiplicative error, is #P-hard. Even correctly ...
3
votes
1answer
99 views
Hardness when restricted to an infinite number of far apart instance sizes
Is there a result that rules out (under common complexity theoretic assumptions) that one can solve an NP-hard problem in polynomial time for an infinite number of possibly very far apart instance ...
0
votes
0answers
78 views
Existence of $\{0,1\}$-solution to a system of linear equations with coefficients in $\{0,1\}$
Crossposted at MathOverflow
A problem I study reduces to a system of linear equations $A\mathbf{x}=\mathbf{1}$ where $A$ is an $m\times n$ matrix with each entry $a_{ij}\in\{0,1\}$. $\mathbf{1}$ is ...
1
vote
0answers
194 views
An $O(n^2\log^c{n})$ algorithm for matrix multiplication in this paper?
In the newest version of this paper by Yijie Han, the author claims that matrix multiplication can be solved by an $\tilde{O}(n^2)$ algorithm. It should be a big result, but it is still in arxiv and ...
3
votes
1answer
248 views
Proof and computational complexity
I couldn't find documents elaborating on this: if the Curry Howard correspondence is to be interpreted as establishing a strong relation between proofs and programs, should there not be a strong ...
4
votes
1answer
205 views
Complexity of relaxed edge colouring
A (proper) $k$-edge colouring of a graph $G(V,E)$ is a function $f:E\to\{1,2,\dots,k\}$ such that adjacent vertices are mapped to different colours; that is, $f(e)\neq f(e')$ if $e$ and $e'$ are ...
1
vote
1answer
145 views
KRW Conjecture: separation of NC^1 and P
More than a real question this is a recap of something I have been studying. I hope someone will help me getting things straight, so any correction or thought about the following reasoning is more ...
0
votes
1answer
70 views
Given a partition and an element, find the subset that includes this element
I am interested in the following simple problem: Let $X$ be a set and $X_1\cup X_2\cup\cdots\cup X_k$ be a finite partition of $X$. Given $x\in X$, find the subset $X_i$ for which $x\in X_i$. I am ...
1
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0answers
203 views
anything hinting that EXPTIME $\subseteqq$ PSPACE?
Anything or evidence hinting that $$EXPTIME \subseteqq PSPACE$$?
3
votes
0answers
95 views
Monomial Sparsity of Boolean Functions
Suppose you have some boolean function $f: \{-1,1\}^n \rightarrow \{-1,1\}$ with rational coefficients such that all degree 1 monomials of $f$ have a nonzero coefficient and the degree $n$ monomial ...
0
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0answers
48 views
Complexity of finding typing derivation trees
In type theories where type checking is decidable do we have estimates for how much time/space it takes to find a typing derivation tree of a valid typing judgment? Do any published references do this ...
4
votes
1answer
303 views
Can we efficiently convert from NFA to smallest equivalent DFA?
Definitions
For any automaton $X$, let $L(X)$ denote the language recognized by $X$.
For any language $L$, let $sc(L)$ denote the number of states in the smallest DFA $X$ such that $L = L(X)$.
...
4
votes
3answers
146 views
The complexity of LH with constant gap
Kitaev's quantum equivalent of the Cook-Levin Theorem, provides a polynomial time classical reduction from a QMA verification circuit to a sum $H$ of local hamiltonians, such that the least eigenvalue ...
1
vote
0answers
63 views
Additive error approximations of GapP functions
Consider a GapP function $g(x)$ for $x \in \{0, 1\}^{*}$. Consider an approximation $\tilde g(x)$ such that
\begin{equation}
\left|g(x) - \tilde g(x)\right| \leq \epsilon.
\end{equation}
Consider a ...
2
votes
1answer
138 views
DFSA and NFSA intersection problem
Given $k$ deterministic FSAs of $n$ states the intersection of their languages is empty is decidable in $n^{o(k)}$ time is an open problem.
For unbounded $k$ it is known the problem is $PSPACE$ ...
3
votes
0answers
82 views
Improving the approximation in Stockmeyer's counting theorem
Given a $\#P$ function $f(x)$, we can use Stockmeyer's counting theorem to get an approximation $g(x)$ such that
\begin{equation}
\left(1 - \frac{1}{\text{poly}(n)} \right) f(x) \le g(x) \le \left(...
1
vote
1answer
53 views
Amortized time and worst case (non-amortized) separation
Assume a reasonable computation model (thinking about pointer machine or RAM model), is there a problem where there is a clear separation between amortized and worst case complexity? Say, if ...
0
votes
0answers
194 views
$CH=UL$ and partial breaking of transitive closure bottleneck problem and Savitch's theorem?
Let $L^t=DSPACE[O(\log n)^t]$, $NL^t=NSPACE[O(\log n)^t]$ and $UL^t=USPACE[O(\log n)^t$.
Savitch provides $NL\subseteq L^{2}$.
If $CH=UL$ we clearly got rid of the transitive closure bottleneck ...
1
vote
0answers
44 views
A proved computationally-irreductible function
In arXiv:1111.4121 and arXiv:1304.5247, Hervé Zwirn and Jean-Paul Delahaye propose a formal definition of computational irreducibility. Is there a (possibly artificial) function that can be proved to ...
3
votes
1answer
124 views
What is the best simulation of majority utilizing $\bmod\{2,3,\dots,p\}$ gates?
It is known $AC^0[2]$ cannot get majority function.
Is there a literature on simulation of $MAJ$ function utilizing $AC^0[2,3,\dots,p]$ gates for a finite fixed set of primes $2$ to $p=O(1)$?
What is ...
4
votes
1answer
167 views
Is $GCT$ necessarily a negative result program?
$GCT$ is a candidate program to separate permanent and determinant through symmetries. If indeed permanent and determinant can be handled in similar complexity class would $GCT$ be a program which can ...
1
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0answers
90 views
Algorithms for finding unique solutions of NP-complete problems
The complexity of algorithms that find unique solution for an NP-complete problem (the input is guaranteed to have a unique solution) seems to shed light on the hardness character of different NP ...
1
vote
1answer
171 views
Pursuing Theoretical Computer Science after CS major
So I am currently a sophomore majoring in Computer Science. In the Data Structures course that I am currently studying, I studied the basics of complexity of a program and big O-notation, etc. That ...
9
votes
1answer
190 views
Is the Triangle Finding decision problem in $coNTIME(\tilde{O}(n^2))$?
The Triangle Finding decision problem asks whether there exists a triangle in a graph $G$ containing $n$ vertices. A triangle is a triple of vertices $(a, b, c)$ such that $a$ is adjacent to $b$, $b$ ...
4
votes
0answers
151 views
The graph of problem reductions
A classical approach to study the complexity of a problem $P$ is to efficiently reduce a well known problem $P'$ to $P$, thus showing that $P$ is at least as difficult as $P'$. The TCS literature ...
3
votes
0answers
117 views
PSPACE-complete under NP reduction
Is there some example of a PSPACE problem that we can show PSPACE-hard under NP reduction, but we do not know a proof of PSPACE-hardness under P reduction ?
To be more precise, the NP reduction I am ...
0
votes
1answer
137 views
Comparing SAT to MCSP reduction class separations and faster SAT class separations?
Assume $SAT$ is in $QuasiP$. We immediately infer $NQuasiP=QuasiP$ and $EXP=NEXP$. From https://people.csail.mit.edu/rrw/easy-witness-nqp.pdf we infer $NQuasiP$ is not in $P/poly$ which implies $...
0
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0answers
73 views
What is the best reduction we know from flavors of $SAT$ to $MCSP$?
Consider $\mathcal P(n,m)$ to be a class from the set $\{k\mbox{-}\mathsf{SAT}(n,m),\mathsf{CIRCUITSAT}(n,m)\}$ where $k$ is fixed, $n$ is number of variables and $m$ is number of clauses.
Denote $\...
1
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0answers
23 views
Clauses structure as quenched random matrix for random $k$-SAT problems
In the Section III of Statistical mechanics of the random K-SAT model, the clauses structure of random $k$-SAT problems are expressed as $M \times N$ quenched random matrix where the numbers of ...
0
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0answers
33 views
Which algorithm for linear programming is suitable for the context of quantum computing?
There are two major types of algorithms for linear programming : extreme point based, interior point based.
Which will be suitable for quantum computing?
4
votes
0answers
94 views
Relationship between SC and NL
It is a major open problem whether $NL \subseteq SC$, or equivalently, whether directed reachability can be solved (simultaneously) in poly-logarithmic space and polynomial time. What is known ...
