Add to ORKGWe give a quantitative analysis of Gödel's functional interpretation and its monotone variant. The two have been used for the extraction of programs and numerical bounds as well as for conservation results. They apply both to (semi-)intuitionistic as well as (combined with negative translation) classical proofs. The proofs may be formalized in systems ranging from weak base systems to arithmetic and analysis (and numerous fragments of these). We give upper bounds in basic proof data on the depth, size, maximal type degree and maximal type arity of the extracted terms as well as on the depth of the verifying proof. In all cases terms of size linear in the size of the proof at input can be extracted and the corresponding extraction algorithms...
This thesis presents a new optimization of Gödel’s Dialectica interpretation for the extraction of m...
International audience—We show an effective cut-free variant of Glivenko's theorem extended to formu...
In this paper the numerical strength of fragments of arithmeticalcomprehension, choice and general u...
AbstractWe give a quantitative analysis of Gödel's functional interpretation and its monotone varian...
This thesis presents a new optimization of Gödel's Dialectica interpretation for the extraction of m...
The present thesis compares two computational interpretations of non-constructive proofs: refined A-...
International audienceWe show that time complexity analysis of higher-order functional programs can ...
Key words Program extraction from proofs, uniform quantifiers, monotone functional interpretation In...
We study versions of second-order bounded arithmetic where induction and comprehension formulae are ...
Over the past few years, the traditional separation between automated theorem provers and computer a...
In this doctoral thesis, we will see how the bounded functional interpretation of Ferreira and Oliva...
International audienceWe show how the complexity of higher-order functional programs can be analysed...
none2noWe show that time complexity analysis of higher-order functional programs can be effectively ...
Since the work of Brouwer, Kolmogorov, Goedel, Kleene and many others we know that constructive proo...
AbstractThis paper describes the automated complexity analysis (ACA) system for automated higher-ord...
This thesis presents a new optimization of Gödel’s Dialectica interpretation for the extraction of m...
International audience—We show an effective cut-free variant of Glivenko's theorem extended to formu...
In this paper the numerical strength of fragments of arithmeticalcomprehension, choice and general u...
AbstractWe give a quantitative analysis of Gödel's functional interpretation and its monotone varian...
This thesis presents a new optimization of Gödel's Dialectica interpretation for the extraction of m...
The present thesis compares two computational interpretations of non-constructive proofs: refined A-...
International audienceWe show that time complexity analysis of higher-order functional programs can ...
Key words Program extraction from proofs, uniform quantifiers, monotone functional interpretation In...
We study versions of second-order bounded arithmetic where induction and comprehension formulae are ...
Over the past few years, the traditional separation between automated theorem provers and computer a...
In this doctoral thesis, we will see how the bounded functional interpretation of Ferreira and Oliva...
International audienceWe show how the complexity of higher-order functional programs can be analysed...
none2noWe show that time complexity analysis of higher-order functional programs can be effectively ...
Since the work of Brouwer, Kolmogorov, Goedel, Kleene and many others we know that constructive proo...
AbstractThis paper describes the automated complexity analysis (ACA) system for automated higher-ord...
This thesis presents a new optimization of Gödel’s Dialectica interpretation for the extraction of m...
International audience—We show an effective cut-free variant of Glivenko's theorem extended to formu...
In this paper the numerical strength of fragments of arithmeticalcomprehension, choice and general u...