Computability theory a.k.a. recursion theory.

learn more… | top users | synonyms (2)

7
votes
0answers
63 views

A word anticorrespondence problem

A problem instance is a finite list of 4-tuples $(\alpha_1, u_1, v_1, \beta_1), ..., (\alpha_N, u_N, v_N, \beta_N)$, where $\alpha_i, \beta_i \in X$ come from a finite set, and each $u_i,v_i \in A^*$ ...
11
votes
1answer
253 views

Is there a result in computability theory that does not relativize?

I was reading Andrej Bauer's paper First Steps in Synthetic Computability Theory. In the conclusion he notes that Our axiomatization has its limit: it cannot prove any results in computability ...
0
votes
2answers
112 views

Are there any open problems concerning decidability? [duplicate]

I am learning computability theory. I am just interested to know some famous problems (Formally languages) whose decidability is in question.
5
votes
2answers
268 views

Are there any propositional proof systems which are not Cook-Reckhow proof systems?

An abstract proof system is a polynomial time function $f$ whose range is equal to the set of tautologies. If $\tau$ is a tautology, then an $f$-proof of $\tau$ is any value $\pi$ such that ...
2
votes
0answers
88 views

A variant of the tiling problem

A classic tiling problem with Wang tiles has the form: Given $n$ tiles $T=\{t_1,...,t_n\}$ and some constraints $H,V\subseteq T\times T$, is there a way to tile a $w\times h$ rectangular grid with ...
6
votes
0answers
134 views

Applications of “Seemingly Impossible Functional Programs”

What are some practical applications (existing or potential) for Martin Escardo's "Seemingly Impossible Functional Programs"? For starters, here are a few from: Alex Simpson’s Lazy functional ...
2
votes
1answer
48 views

Proof software for Primitive Recursive Arithmetic

Primitive Recursive Arithmetic is a critical foundational system in mathematics at large, and all the more so in areas studying constructive reasoning and/or computability such as Theoretical Computer ...
1
vote
1answer
49 views

Can interaction combinators implement any interaction net efficiently?

It is widely known that interaction combinators can implement any interaction net. My question is, can they do so efficiently? I.e., is it possible to prove that there is no interaction net system ...
1
vote
1answer
81 views

Polynomial-time reductions between undecidable languages

The Turing degree $\mathbf{0}'$ is defined as all languages Turing-equivalent to the halting problem. In fact any recursively enumerable language is polynomial-time reducible to the halting problem. ...
1
vote
0answers
27 views

Proof for multiplicative dominance of universal probability distribution

I'm looking for the proof of the Leonid Levin theorem that states that the universal prior distribution function multiplicatively dominates all other functions of its type. The original article is ...
0
votes
1answer
85 views

Computing the DAG of a program given source code or AST

I've seen many papers on scheduling components or tasks once a DAG for the program is known, either by user-input or by domain restriction (i.e. all cross shaped 5-pt stencil codes have a known DAG). ...
7
votes
1answer
214 views

An example where smallest normal lambda term is not fastest

Let the $size$ of $\lambda$-terms be defined as follows: $size(x) = 1$, $size(λx.t) = size(t) + 1$, $size(t s) = size(t) + size(s) + 1$. Let the complexity of a $\lambda$-term $t$ be defined as ...
2
votes
0answers
38 views

Simple version of Wang's tessellation problem

I'm reading about Wang's tessellation problem and the text mentions a simpler version: If we consider a finite set of tiles $W_{n}=\{w_{1},...,w_{n}\}$ where $n$ is bounded then the claim is that now ...
10
votes
0answers
123 views

The halting problem in computational models weaker than Turing machines

What are the main results and/or literature on the (self) halting problem for other machines than Turing machines? Alternatively, what would be the right keywords or tags to search for it. I am ...
1
vote
2answers
174 views

Information-theoretic Diffie-Hellman

The following non-standard description of Diffie-Hellman is entirely my own, by which I mean that I came up with it having not read about it anywhere else beforehand. In Diffie-Hellman Alice and Bob ...
13
votes
2answers
400 views

Smallest possible universal combinator

I am looking for the smallest possible universal combinator, measured by the number of abstractions and applications required to specify such a combinator in the lambda calculus. Examples of universal ...
-2
votes
1answer
89 views

Undecidable Single Programs [closed]

So the halting problem basically states that there cannot exist any finite length algorithm for automatically verifying if other finite length algorithms terminate. But suppose I start listing out ...
9
votes
3answers
469 views

Is there algorithmic mathematical analysis?

There are algorithmic graph theory/number theory/combinatorics/information theory/game theory. Is there algorithmic mathematical analysis? According to wiki, mathematical analysis includes the ...
7
votes
1answer
129 views

Formalized priority argument

A priority argument, an important proof technique in recursion theory, was introduced by Friedberg and Muchnik, to solve Post's Problem, i.e., the existence of two r.e. sets that do not Turing reduce ...
0
votes
0answers
76 views

Is there any research on approximation of reals with computable numbers

I was wondering if there is any research in the field of Diophantine Approximation using the computable numbers. It seems to be a good fit, a dense countable set with a variety of different potential ...
2
votes
1answer
83 views

Turing degree of Solomonoff semi-measure

We define the Solomonoff semi-measure $m$ on finite strings $x$ by $$m(x) = \sum_{p: U(p) = x} 2^{-l(p)},$$ where $U$ is a universal prefix Turing machine, $U(p) = x$ means $U$ outputs $x$ on input ...
6
votes
2answers
360 views

Proof for Kolmogorov complexity is uncomputable using reductions

I am looking for a proof that Kolmogorov complexity is uncomputable using a reduction from another uncomputable problem. The common proof is a formalization of Berry's paradox rather than a reduction, ...
7
votes
0answers
116 views

What can you do with a moving knife besides cutting a cake?

In the fair cake-cutting, two different computational models are used: A discrete model, in which the algorithm issues queries to the players and proceeds according to their replies; A continuous ...
3
votes
1answer
77 views

Results about computability power or limitations of shared read/write registers

I want to know more results about the computability power or limitations of shared $\texttt{read/write}$ registers/objects in distributed/concurrent computing theory. Two typical examples are: [1]. ...
-1
votes
1answer
241 views

Why study type theory?

After reading the literature on type theory (especially the constructive kind - CTT) I'm left wondering "why" should one study type theory, specifically within the confines of "computing" in general? ...
10
votes
1answer
185 views

Can differential equations be classed into their own complexity classes?

Problems have been, as a whole, classified, thanks to Computational Complexity. But, in differential equations, is it possible to classify differential equations depending on their computational ...
18
votes
2answers
864 views

What functions can System F not compute?

In this wikipedia article on Turing Completeness it states that: The untyped lambda calculus is Turing complete, but many typed lambda calculi, including System F, are not. The value of typed ...
8
votes
2answers
595 views

How exactly does lambda calculus capture the intuitive notion of computability?

I've been trying to wrap my head around the what, why and how of $\lambda$-calculus but I'm unable to come to grips with "why does it work"? "Intuitively" I get the computability model of Turing ...
7
votes
1answer
252 views

Was bombe machine turing complete?

In the recent movie called The Imitation Game, there is a affirmation that Turing was building his theoretical machine. That machine is the Bombe Machine. Is this machine really equivalent to a Turing ...
4
votes
1answer
104 views

Representation as sum of unit fractions: primitive recursive?

Consider the following ternary relation $R\subseteq\mathbb{N}^3$: $(p,q,m)\in R$ iff $p,q>0$ and there is a set $S\subseteq \{\frac{1}{n}:n\in\mathbb{N}, n\geq 1\}$ such that $|S|=m$ and ...
0
votes
2answers
107 views

Where can I find the proof of the theorem and what is the computational complexity of the computably isomorphic map?

"any two representations of reals which are acceptable are actually computably isomorphic",please see here for reference where may proof of this theorem be found, and what is the the computational ...
4
votes
1answer
167 views

Is it decidable that a computable analytic function over $\mathbb{R,C} ,$ equals $0$

Is it decidable whether a computable analytic function $f(x_1,x_2,\dots,x_n)$ over $\mathbb{R}$, $\mathbb{C}$ in a semi-algebraic or semi-analytic domain is identically zero? Is there any algorithm? ...
11
votes
2answers
245 views

How to judge the definition of computational complexity of reals is natural or suitable?

As we know, definition of computational complexity of algorithm is almost without controversy, but the definition of computational complexity of reals or the computation models over reals is not in ...
15
votes
2answers
539 views

Fixed points in computability and logic

This question has also been posted on Math.SE, http://math.stackexchange.com/questions/1002540/fixed-points-in-computability-nd-logic I hope it is ok to also post it here. If not, or if it is too ...
7
votes
3answers
230 views

How high are the higher types that appear in practice?

This is admittedly a rather naively put and vague question, and I'm not sure how much more specific I want or can make it, but I'll try. By "practice" I mean surely in actual programming practice (of ...
16
votes
2answers
494 views

For a random oracle R, does BPP equal the set of computable languages in P^R?

Well, the title pretty much says it all. The interesting question above was asked by commenter Jay on my blog (see here and here). I'm guessing both that the answer is yes and that there's a ...
0
votes
1answer
77 views

Conflicting definitions regarding TM and Recursively Enumerable languages

In Lewis's and Papadimitriou's book "Elements of the Theory of Computation" the transition table is a function $\delta: Q \setminus F \times \Gamma \rightarrow Q \times (\Gamma \cup \{L,R\})$. ...
2
votes
1answer
123 views

Computability of infinite-dimensional vector space

So there is a talk about infinite-dimensional vector space being computable. But then I find it hard to understand. Apparently, dimension is infinite, so how would the operations of the space be ...
1
vote
1answer
96 views

What is necessary and/or sufficient requirement for a subring of a field to be computable? [closed]

As title asks, what is necessary and/or sufficient requirement for a subring of a field to be a computable ring? Conditions on either field or subring are fine.
16
votes
1answer
577 views

To what extent can the mathematics of Reals be applied to Computable Reals?

Is there a general theorem that would state, with proper sanitization, that most known results regarding the use of real numbers can actually be used when considering only computable reals? Or is ...
-1
votes
1answer
89 views

Consistency and completeness of any arbitrary 3-valued logic? [closed]

Based on the explanations here [1] I know that 3-valued first order logic has many different versions, which differ in the definition of their operations (e.g. implication). All of these (as far as I ...
3
votes
1answer
102 views

Decidability of first-order theory of real closed fields with functions

By a famous theorem of Tarski, the first-order theory of real closed fields is decidable, as it admits quantifier elimination. Can this result be extended so that propositions can be quantified over ...
4
votes
2answers
173 views

Primitive Recursive Definition : Binary numbers

Usually primitive recursive functions are define from Zero, Identity and Successor, projectors, composition and recursion. But you obtain algorithms that works with unary numbers. For example, the ...
-1
votes
1answer
155 views

How can you prove that all halting probabilites are normal real numbers?

Wikipedia claims that any halting probability (Chaitin's constant) is a normal number. Since Chaitin's constant is uncomputble, how is a proof the the normalcy of the number possible? Computable ...
1
vote
1answer
178 views

Does hyper-computational power of infinite time Turing machines also require infinite memory?

Can a infinite time Turing machine perform hyper-computation like checking the consistency of the set theory ZF without using infinite memory?
6
votes
1answer
114 views

A function is lambda-2-definable iff it is HG computable and provably type correct in lambda-PRED2

I'm having a problem regarding Theorem 5.4.40.3 of Barendregt's Lambda calculi with types (1992), a chapter in Handbook in logic in computer science. (I'm referring to the PostScript version available ...
4
votes
1answer
102 views

Jumping (Busy) Beaver variant

Is the following Busy Beaver variant known? A Universal Turing machine $J$, feeded with a description of a deterministic Turing machine $M_i$, starts simulating $M_i$ on inputs $x_j = 1,2,3,...$ for ...
7
votes
0answers
103 views

What is known about reduction by “$P_1$ interprets $P_2$” for generalized programming languages?

Inspired by this answer, let's say that a programming language is given by the data $L=(P,ev)$ where $P$ (the set of "valid programs") is a computable subset of $\Sigma^*$ and $ev$ (the "evaluator") ...
8
votes
2answers
1k views

A total language that only a Turing complete language can interpret

Any language which is not Turing complete can not write an interpreter for it self. I have no clue where I read that but I have seen it used a number of times. It seems like this gives rise to a kind ...
3
votes
1answer
92 views

Is it possible to determine if a reduction is correct?

Suppose we have an arbitrary term, x, in Lambda Calculus, or in an equivalent turing-complete system. Suppose we ask an oracle what is the normal form of that term, ...