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Questions tagged [complexity-theory]

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Questions related to the (computational) complexity of solving problems

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Can this special case of Set Cover problem be solved in polynomial time?

Let $U$ be the set of elements and $S$ be the subset collections. There exists a tree $T$ that each node is corresponding to an element in $U$. And for every subset $s$ in $S$, $V(T) \bigcap s $ is a ...
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Reducing one problem to another

I know this is sort of a basic question, but I don't completely understand the following. Let $A$ and $B$ be two problems. If I take one instance $a$ of $A$ and one instance $b$ of $B$, and show the ...
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Complexity of still life extentions in Game of Life

The game of life is one of the most famous cellular automata in 2D. It has a variety of objects, some of them are moving like gliders, some have an oscillating behavior and others do not change at all,...
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Strategy to reduce between decision problems

I'm very new to complexity theory, please help me fill in the gaps in whatever knowledge I have acquired till now. A decision problem is a problem $X(D)$ that outputs for each input instance $I$, a ...
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Independent set problem with given black box

I'm very new to P and NP complexity classes and reductions. I'm trying to solve this problem and I want to verify my solution and if it is wrong, understand why. Suppose that I'm given a polynomial ...
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From binary to unary and EXPTIME

I read in [Razborov, "An equivalence between...", p.248] that It is well recognized in Theoretical Computer Science that when we change the representation of integers from binary to unary, ...
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Is there complexity hierarchy of worlds/environments that are used for simulation or reinforcement learning in AI?

Is there complexity hierarchy of worlds/environments (i.e. state space * action space) that are used for simulation or reinforcement learning in AI? Hierarchy like ...
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FO-Logic: Two theories in the same complexity class can always be reduced to each other in polynomial space and time

I am currently studying CS and came across a question in my lecture. Question: Two theories in the same complexity class can always be reduced to each other in polynomial space and time. This is part ...
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How to determine if a tree $T = (V, E)$ has a perfect matching in $O(|V| + |E|)$ time

This is a problem I've come across while studying on my own; it's from Algorithms by Papadimitriou, Dasgupta and Vazirani. Specifically, the problem statement is: Give a linear-time algorithm that ...
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Maximal edge weight clique of given size

Let $G$ be an undirected fully connected weighted graph with $N=|V|$ vertices. Given $M<N$ we wish to choose $M$ vertices such that the sum of weights between the chosen vertices is maximal, i.e. ...
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How it's possible decide CNF by having a turing machine that decide SAT?

Suppose we have a Turing machine $M$ as black box that decide $SAT$ problem. Now suppse we have a $CNF$ formula $\phi$ with $n$ variables. How it possible checking satisfiblity of $\phi$ and then ...
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Understanding P, NP with an example decision problem

I was reading the definitions of p vs np in [this post] (What is the definition of P, NP, NP-complete and NP-hard?) and I was wondering about how to classify the example decision problem where you ...
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Need the time complexity of this conditional statement method

My idea of the program is : Input = n sets objective function ObjFn equals to O(n^3) Output = the order of n sets Steps: Applying ObjFn to all n sets Choose the n of the Minimum ObjFn to be ordered ...
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Calculate complexity of game of life(cellular automata) [duplicate]

I want to calculate the kolmogorov complexity of n evolution of a game of game of life(game of life is a kind of cellular automata). I’m not searching for the complexity of a certain pattern of cells ...
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Reduction techniques in complexity

I am learning computational complexity and parameter complexity. In order to proof that a problem is np-hard, we should reduction one which is np-hard to the problem. However, I don't have any idea ...
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Proving correctness of Polynomial reduction

Given a problem A is NP-Hard and A ≤𝑝 B, is there a way to prove that B is also NP-Hard?
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Is there any problems with equating Turing Machines with Algorithms and Language with Problems?

In a lot of the online explanation of complexity theory, the author proposes the following. "The definition associated with complexity theory (e.g., definition of NP) is phrased in terms of ...
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Prove $\text{CorrectSuccintSolver} \in \mathbf{coNP}$

Define the following languages: $$ \text{SUCC-CVAL}=\{(S,x,i) : \substack{S \text{ is a succint representation for circuit } C \\ \text{ and } C_i(x)=1 \text{ where } C_i \text{ is the i'th gate in }...
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Is there a complexity measure on regular grammars connected to the descriptional complexity of the DFAs?

This question is directed at DFAs/NFAs and regular languages and regular grammars. Define the "descriptional complexity" of a language as the size complexity of the family of DFAs that ...
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Data structure for fast insertion and fast random element removal

I'm looking for a data structure that supports the following operations: add(elem) - Add an element to the data structure. remove_random() - Remove and return a random element. The best I got so far ...
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1answer
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A different way of reducing subset sum to partition

For brevity, let $s(D) = \sum_{d\in D} d$ denote the sum of the elements in $D$. Given a set $A = \{a_1, \dots, a_n\}$ of positive integers, and a target value $K$, the subset sum problem is to ...
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Is Knapsack-optimization problem NP-hard while Knapsack-search problem NP-complete?

I am learning Computational Complexity. Is Knapsack-optimization problem (find an arrangement to maximize the value) known to be NP-hard, while Knapsack-search problem (find an arrangement so that ...
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Let Σ = {a} be a one-element alphabet and L ⊆ Σ^* be an arbitrary language over Σ = {a}. Show that L^* is regular [duplicate]

I have a computer science question: Let Σ = {a} be a one-element alphabet and L ⊆ Σ^* be an arbitrary language over Σ = {a}. Show that L^* is regular These are all the facts I have been able to gather ...
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Prove finding a spanning tree with no more than 50 leaves is NP-hard

This is a homework question. Consider the problem of finding if an undirected graph $G$ can have a spanning tree with no more than 50 leaves. Is this problem NP-hard? I think it is and I'm trying to ...
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How do I use the definition of the "Big-Oh" notation to prove the following statements? [closed]

I need help figuring out how to prove the following statement using the definition of "Big-Oh" notation which says that ...
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What is the difference between NP hard and NP complete?

What is the definition of P, NP, NP-complete and NP-hard? here is a good answer but it really doesn't answer mym question. np-hard-: a problem A is NP hard if for all B$\in$NP, B is polynomial time ...
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Adversary argument and proving a lower bound of an algorithm. How does it work?

I need to understand how adversary argument works to prove the lower bound of an algorithm. For now, I am looking to prove that a "certain" algorithm that takes in input array requires omega(...
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Are there any FNP-complete problems with a unique solution?

Are there any FNP-complete problems where there's only one possible solution? For example, the travelling salesman problem can have multiple routes all shorter than $X$. There's only one shortest ...
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If $\Sigma_i^P = \Sigma_{i+1}^P$ then for all $k \ge i$ holds $\Sigma_k^P = \Sigma_{k+1}^P$

I am struggling with the following remark from lecture: Suppose the Polynomial Hierarchy collapses at the $i$-th level, i.e. $\Sigma_i^P = \Sigma_{i+1}^P$. Then for all $k \ge i$ holds $\Sigma_k^P = \...
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What happens if we change $\mathcal{BQP}$ to allow quantum bits, but not quantum gates?

In the definition of the class $\mathcal{BQP}$ found in textbooks we (as the circuit builders) have access to an unlimited number of deterministic zero-initialized qubits and to a finite set of ...
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Simple example of LogSpace reduction

In general, how can I verify that my many-one reduction is a LogSpace reduction? E.g. I was looking at the proof of HORN-SAT is P-complete via logspace reduction. It would be ok even if someone makes ...
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Computing tr(ABCD...)

Suppose we have $k$ $n\times n$ matrices $A,B,C,\ldots$. Is there a way to compute/approximate the trace of their product much faster than computing/approximating the full matrix product? IE, ...
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Why can't I use a polynomial-time reduction for proving P-completeness?

According to the Wikipedia page on P-complete, a decision problem is P-complete (complete for the complexity class P) if it is in P and every problem in P can be reduced to it by an appropriate ...
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P vs NP Clarification

A problem is solvable in polynomial by a deterministic turing machine, and no solution exists which benefits from parallelism. Will it be P or P-Complete or NP or NP-Complete?
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For 3CNF unsatisfiable boolean formulas, does it take exponential time to transform them into disjunctive form?

From the link Solving SAT by converting to disjunctive normal form, I learnt that the algorithm to transform any boolean formula to disjunctive form takes exponential time in worst case. But I have a ...
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Polytime Mapping Reduction from Language A to Language A (identity)

How would I create a polytime mapping reduction to prove A ≤p A for any language A. I was thinking to assume A is in P to start. For every 𝑥: 𝑥∈𝐴 iff 𝑓(𝑥)∈𝐴. But I am not sure what to do from ...
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NP-Completeness of SAT with given hamming weight k [duplicate]

I think that the following problem is NP-Complete but I don't have any idea of how doing the reduction. Input: A propositional formula $\varphi$ and a number $k$. Output: Yes if exists an valuation $\...
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Time Complexity Sigma Notation

Consider the following pseudo-code: counter = 0 for (k = 16; k > 0; k /= 2) for (j = 0; j < k; j++) counter++ I get that the time complexity is $...
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A query regarding the paper/statement: P=BPP unless E has sub-exponential circuits

I was going thorough this paper: (P=BPP unless E has sub-exponential circuits: https://www.math.ias.edu/~avi/PUBLICATIONS/MYPAPERS/IW97/proc.pdf) and I am somewhat struggling with some basics from the ...
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Complexity difference of Vertex cover and Vertex coloring regarding parametrized algorithms

I stumbled upon some problem in my understanding of the complexity classes FPT and XP. According to Wikipedia (and the Book "Parameterized Algorithms") we know the following about the Vertex ...
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Books to read after Computational Complexity: A Modern Approach?

To be honest, I have not yet read this book, but it's fun to plan ahead. If I am able to read through the entirety of this book and solve all the problems, are there books to dive deeper into the ...
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If a TM accepts a non-regular language, its space complexity is $\Omega(\log \log n)$

I have been given an assignment that I'm having a very hard time understanding. The assignment is to prove that if an algorithm accepts a non-regular language, the complexity is $\Omega(\log \log n)$ (...
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Is there a link between the "padding argument" and the "padding lemma"?

In computability theory here is what the padding lemma says : Every partial recursive function $\phi_x$ has $\beth_0$ indices and for each $x$ we can find effectively an infinite set $C_x$ of indices ...
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Is Max 3-SAT W[1]-hard?

Is Max 3-SAT a W[1] hard problem, parmeterized by some parmeterize? I can't find the relevant literature.
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Regarding the definitions of time-constructible functions on Wikipedia

I am reading the Wikipedia article on time-constructible functions and got confused by its definitions, given as follows: There are two different definitions of a time-constructible function. In the ...
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A query regarding Complexity class BPP and NP

It is known that: $\Sigma_2^P \subseteq \Delta_3^P$ i.e. $NP^{NP} \subseteq \Delta_3^P$. $BPP^{NP} \subseteq \Delta_3^P$ If $\Sigma_2^P = PSPACE => BPP^{NP} \subseteq NP^{NP}$ Doesn't that imply: ...
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Prove by induction $T(n) = T(\lfloor\frac{n}{2}\rfloor)+n^2 \in \Theta (\log_2 n)$

Text of the problem: Solve the following recurrence equation and prove it by applying the principle of induction: $T(n) = \begin{cases} 3, \ n \le 2 \\ T(\lfloor\frac{n}{2}\rfloor)+n^2, \ n \ge 3 \...
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Subset Sum With Interval Integer Target

Define the subset sum with interval integer target problem (SSIITP) as follows: SSIITP Input: A multiset $S = \{a_1, …, a_p\}$ of positive integers $a_i$. An integer $T$. SSIITP Output: True, if ...

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