Questions tagged [circuit-complexity]

Circuit complexity is the study of resource-bounded circuits and the functions computed by such circuits.

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1 answer
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doubt in the proof of reducing any arithmetic circuit to log(d) depth, where d is the degree of the polynomial it is computing

In the survey see section 5.3.2 : Depth reduction for arithmetic circuits for notations. I follow the proof of the following two identities : $[u]=\Sigma_{w\in \cal{F}_m}[u:w].[w]$ where $deg(u)\geq ...
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Construction of a collection of subsets of $\{1,2,\ldots,n\}$ with certain properties

Let $n$ be a large positive integer. Given a collection $\mathfrak S$ of subsets of $[n] := \{1,2,\ldots,n\}$, and a vector $z=(z_1,\ldots,z_n)\in \{\pm 1\}^n$, define $$ f_{\mathfrak S}(z) := \sum_{\...
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3 votes
2 answers
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Worst-case complexity of computing a certain non-standard dot product + algorithms realizing this complexity

Let $n$ be a large positive integer. Give a nonempty collection $\mathcal S$ of subsets of $[n] := \{1,2,\ldots,n\}$, define an inner-product on $\mathbb R^n$ by \begin{eqnarray} \langle x,y\rangle_{\...
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6 votes
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Are exponential lower bounds known against $MOD_6 \circ MOD_3$ circuits computing $OR$?

Background What is currently known for depth-2 $CC^0$ circuits with restricted gate types: In [1] it is shown that $(MOD_p)^k \circ MOD_m$ circuits (that is, $k$ layers of $MOD_p$ gates at the output)...
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1 vote
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Are there polynomial time computable polynomials with circuits of size $s$ but no circuits of size $s-1$?

So I was wondering whether you could always have a multivariate polynomial $P$ over $\mathbb{Z}$ that ... can be represented by arithmetic circuits of size $s$ has polynomial degree and exponentially ...
4 votes
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What are the implications if you could derandomize constant depth polynomial identity testing over $\mathbb{Z}$?

As far as it goes, I read that derandomizing depth-4-$PIT$ over finite fields is already a great achievement since it would mean a subexponential deterministic time algorithm for the general case and ...
3 votes
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Quantum circuits vs quantum circuits w/ only local interactions?

If we restrict a quantum circuit to only have interactions between "nearby" qubits (for some connection topology that defines "nearby", as is the case in several actual quantum ...
4 votes
1 answer
96 views

NC0 randomnes vs. non-uniformity

In Ajtai and Ben-Or. A theorem on probabilistic constant depth Computations. STOC '84, 1984 Ajtai and Ben-Or show a non-uniform derandomization of BPAC0. Is there a similar relation known for ...
0 votes
1 answer
143 views

What is the simplest one-way function (in terms of boolean circuit complexity)?

What is the simplest known one-way function? By simplest, I mean, when implemented as boolean logic, the number of AND/OR/NOT gates needed is minimal (smallest circuit complexity). (I'm trying to find ...
8 votes
1 answer
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Is it $NP$-hard to check whether a given algebraic circuit computes permanent?

Given are a natural number $n\in\mathbb{N}$ and a polynomial $P$ in the form of an arithmetic circuit $C$ over $\mathbb{Z}$ (a circuit which only uses $+$ and $\times$ gates and integer constants as ...
2 votes
1 answer
170 views

Value of studying boolean function complexity through circuits complexity nowadays

Apparently boolean function complexity analysis through circuit complexity has a limit (as they are natural proofs), and this means it is not possible to proof $P \not= NP$ unless there are no one-way ...
1 vote
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Boolean formula complexity of arithmetic expressions

This is a followup question to this other question, where I was told that multiplication is in $NC^1$ so can be computed with a circuit of polynomial size and logarithmic depth, hence also with a ...
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5 votes
1 answer
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Formula complexity of arithmetic multiplication

I'd need some bounds on the size of Boolean formulas (over $\land$, $\lor$ and $\neg$) computing the multiplication of two integers. I'm not an expert in circuit complexity and I'm crawling through ...
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Do uniformity lower than DLOGTIME rlead to same result?

Maybe an answer to this Here input of length and position is binary rather than unary, so traditional "DLOGTIME-uniform" is now "O(n)-uniform". (If traditional "DLOGTIME-...
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2 votes
1 answer
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Counting argument for LTF circuits

In Boolean circuit complexity, Shanon's counting argument shows that a random Boolean function on $n$-input bits requires a circuit of size $\Omega(2^n/n)$ to be computed by a circuit made of AND, OR ...
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Reductions and projections in circuit complexity

I'm struggling to find a good reference that defines the difference between projection and monotone projection in the context of Boolean functions and circuit complexity. My understanding is that a ...
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Non-uniformity assumptions in circuit complexity

I recently came accross the following standard inclusion of complexity classes: $$\textbf{NC}^0 \subseteq \textbf{AC}^0 \subseteq \textbf{NC}^1 \subseteq \textbf{L} \subseteq \textbf{NL} \subseteq \...
5 votes
1 answer
138 views

Can a sum of polynomially many determinants be expressed as a single determinant of a poly-size matrix?

(copied from a mathoverflow question because I realized this may be more appropriate for it) Let $A_1,A_2,...,A_k$ be $N$-by-$N$ matrices, with indeterminate entries in some field (say real or complex ...
3 votes
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Sparsity Bounds for Probabilistic Polynomials

Has there been any research done on proving sparsity lower bounds for probabilistic polynomials (over the Reals) for Majority? A probabilistic polynomial is a distribution of polynomials $D$ such that ...
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Can NP-complete language be in $mP/poly$?

Can NP-complete language be in monotone $P/poly$?
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Pebble games and conversions to bounded width circuits

Questions: Are there references which mention the relation between pebble games and conversions to bounded width circuits? Here, "conversions to bounded width circuits" means that circuits ...
5 votes
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Complexity of approximating boolean functions with circuits

Let $f$ be a boolean function on $n$ variables - say we want to find the smallest circuit $C$ where $C(x)=f(x)$ for all but an $\epsilon$ fraction of inputs $x \in \{0,1\}^n$. What is known about the ...
2 votes
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63 views

Does advice reduce depth?

Specifically I'm thinking about NC$^1$/poly and NC$^1$/rpoly (randomized advice). Are there any statements like "If $\{C_n\}$ is a family of NC$^1$/(r)poly circuits with depth $C\log n$, then ...
3 votes
1 answer
106 views

$\mathrm{AC}^0$ upper bound for Hamming weight

Consider Theorem 11 of this paper (S. Aaronson, BQP and the Polynomial Hierarchy), which says: Any depth $d$ circuit that accepts all $n$ bit strings of Hamming weight $\frac{n}{2} + 1$ and rejects ...
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5 votes
1 answer
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$AC^0$[subexp] vs. NC

My question is about the possibility of trading size for depth in circuits. Under what conditions is it true (or, plausible) that $AC^0[2^{n^\delta}] \subseteq NC^i$ for some constants $\delta < 1, ...
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3 votes
1 answer
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Circuit uniformities more restrictive than $DLOGTIME$

Definitions: The "direct connection language" of a circuit family is the set of tuples $\langle t, a, b, y \rangle$, where $a$ and $b$ are node/gate numbers in the $n$th circuit in the ...
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8 votes
1 answer
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Construction of arbitrary functions with exponential-size $MODp \circ MODq$ circuits

It is mentioned in multiple papers [1], [2] that $MODp \circ MODq$ circuits for two distinct primes $p, q$ can compute arbitrary functions in exponential size. However, [1] provides no citation for ...
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Do random functions have synchronous, alternating circuits with non-injective first layers?

After discussing in the comments, I think a clearer definition of the question is as follows: for a random function $f : \{0, 1\}^n \rightarrow \{0, 1\}$, what is the probability that there exists a ...
2 votes
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Recovering the inputs to Boolean circuits after partial evaluation

This question discusses Boolean Circuits and Boolean functions from $n>1$ inputs to one Boolean output. Notation: $\textit{arity}(\mathcal{C})=n$ if $\mathcal{C}$ takes $n$ inputs, similarly for ...
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10 votes
1 answer
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Can exponential-size depth-2 $CC^0[m]$ circuits with generalized $MOD_m$ gates compute arbitrary functions from $Z/mZ$ to $Z/2Z$?

Terminology $CC^0[m]$ is the set of polynomial-sized, constant depth circuits consisting entirely of $MOD_m$ gates for some $m \geq 2$, where a $MOD_m$ gate outputs a 1 if and only if the sum of its ...
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-1 votes
1 answer
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Is finding the shortest consistent term to fill a missing line in a truth table still NP-hard?

I understand the logic minimization problem is NP-hard when given the onset, since the last step is equivalent to set cover optimization. If instead we are given a partial truth table, and we just ...
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Useful primitives CPUs could provide, from TC0 (or NC1)

I just listened to XYZ talking about "How Universal Is the Idea of Numbers?", and bashing the concept as an accidental historical artifact. He suggested that totally different computational ...
3 votes
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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 ...
4 votes
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204 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 ...
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8 votes
1 answer
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Monotone circuit representations of paths in a graph?

Consider a directed graph $G = (V, E)$ with a source $s \in V$ and sink $t \in V$. From $G$, I can define a monotone Boolean function $\phi_G$ on the set of variables $E$, in the following way: every ...
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3 votes
1 answer
155 views

$ACC^0$ implementation of a boolean function

Consider the symmetric boolean function $$F(x_1,\dots,x_n)=1\iff\sum_{i=1}^nx_i\mbox{ is a square}.$$ It is implementable in $TC^0$. Is there an $ACC^0$ implementation? The reason I ask is there seems ...
5 votes
0 answers
132 views

Trading treewidth for depth in Boolean circuits

We know that languages defined by (poly-sized) Boolean formulae equals $\mathbf{NC}^1$: that Boolean formulae can be simulated in $\mathbf{NC}^1$ was shown by Brent/Spira [B,S], and the converse is ...
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Is anything known about NC$^1$ with NP oracle

A few things are known about the class $\textsf{L}$ provided with an $\textsf{NP}$ oracle ($\textsf{L}^\textsf{NP} = \Theta_2^\textsf{P}$ has attracted a bit of attention, for instance [1]) On the ...
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1 vote
1 answer
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Variable wire weights in DLOGTIME-uniform circuits

The definition of a $DLOGTIME$-uniform circuit family is based on a Turing machine that accepts the language $\langle t, a, b \rangle$, where gate $a$ is of type $t$ and has gate $b$ as a child, ...
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7 votes
2 answers
777 views

Why should we believe that $NEXP \not \subset P/poly$

I am sorry if this is not an advanced question. Most computer scientists believed that $NEXP \not \subset P/poly$ but they are not even close to this assumption. The main evidence that they are used ...
12 votes
2 answers
324 views

Circuit and Formula Lower Bounds for Separating Sparse Sets of Strings

We say that a pair $(P,N)$ of subsets of strings from $\{0,1\}^n$ is an $n$-pair if $|P|=|N|=n$. Intuitively, sucha a pair consists of a set $P$ with $n$ positive $n$-bit strings, and a set $N$ with $...
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1 vote
1 answer
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Composition theorem for randomized communication complexity

I am currently organizing the literature of composition theorem, and I found the paper by https://www.research.cs.rutgers.edu/~troyjlee/Composition.pdf, in their theorem 5, I find $$ R_{1/4} (f \circ ...
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9 votes
1 answer
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Proof of $DLOGTIME-CC^0 = MOD[<,bit]$

Let $CC^0[m]$ be the class of constant-depth, polynomial-sized circuits consisting entirely of $MOD_m$ gates, which put out $1$ iff the sum of their inputs $\equiv 0~(\textrm{mod}~m)$. In the same way ...
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4 votes
0 answers
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On solving Planar Circuit SAT

This enquiry is three-sided. Side 1 - State of the art Which is the best known algorithm for $\text{PLANAR-CIRCUIT-SAT}$? Which is the best known algorithm for $\text{PLANAR-CIRCUIT-SAT}$ assuming ...
1 vote
0 answers
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Multiplicative-depth 1 composition of arithmetic circuits

I am trying to find information about the following problem. Let $C_1$ and $C_2$ be any two poly-size arithmetic circuits on input vectors x₁ and x₂ correspondingly. Assume that a third arithmetic ...
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4 votes
1 answer
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What is FO(REGULAR)? (The descriptive complexity equivalent of NC1)

According to Immerman's Descriptive Complexity diagram, there is a logic called $\mathsf{FO(REGULAR)}$ which captures $\mathsf{NC}^1$. However, I can't find the reference where this logic is defined. ...
3 votes
0 answers
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Improving boolean circuits w.r.t. a probability distribution

This is a reference request. Consider the following problem on boolean circuits [ 1 ]: Given: Boolean circuit $B$ and probability distribution $\mathbb{P}$ on inputs to $B$. Task: Find one or more ...
14 votes
1 answer
382 views

Universal Boolean Formulas

Fix $n\in\mathbb{N}$. Consider a rooted binary tree $T$ in which every non-leaf node contains either AND-gate or OR-gate. Let me say that $T$ is an universal formula if for every $f\colon\{0,1\}^n\to\{...
5 votes
2 answers
379 views

Are there problems in $DTIME(n^k) - DTIME(n^{k-1})$ that are not hard for $DTIME(n^{k-1})$ under nearly linear time reductions?

Background It can be challenging to find computational problems that are solvable in $DTIME(n^k) - DTIME(n^{k-1})$ where $k \geq 2$. Although some natural problems are known to exist, many of them ...
2 votes
0 answers
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Matrix multiplication when one matrix is fixed

Let $A$ be a fixed positive entried integer matrix of size $a\times n$ with $\ell$ bits per entry One is allowed to pre-process this matrix as appropriate. Given another positive integer entried $B$...
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