We define realizability semantics for Light Affine Logic (LAL) which has the property that denotations of functions are polynomial time computable by construction of the model. This gives a new proof of polytime-soundness of LAL which is considerably simpler than the standard proof based on proof nets and is entirely semantical in nature. The model construction uses a new instance of a resource monoid, a general method for interpreting systems based on Linear Logic introduced earlier by the authors
AbstractLight, elementary and soft linear logics are formal systems derived from Linear Logic, enjoy...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...
We define realizability semantics for Light Affine Logic (LAL) which has the property that denotatio...
Light Affine Logic is a variant of Linear Logic with a polynomial cut-elimination procedure. We stud...
In [7], a naive set theory is introduced based on a polynomial time logical system, Light Linear Log...
New, simple, proofs of soundness (every representable function lies in a given complexity class) for...
AbstractNew, simple, proofs of soundness (every representable function lies in a given complexity cl...
This paper is a structured introduction to Intuitionistic Light Affine Logic (ILAL). ILAL has a poly...
Much effort has been recently devoted to the study of polytime formal (and especially logical) syste...
) Kazushige Terui 3 Abstract Light Linear Logic (LLL) of [Gir95] characterizes the polytime functi...
We propose a new type system for lambda-calculus en-suring that well-typed programs can be executed ...
We present a polymorphic type system for lambda calculus ensuring that well-typed programs can be ex...
AbstractWe present a polymorphic type system for lambda calculus ensuring that well-typed programs c...
Light, elementary and soft linear logics are formal systems derived from Linear Logic, enjoying rema...
AbstractLight, elementary and soft linear logics are formal systems derived from Linear Logic, enjoy...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...
We define realizability semantics for Light Affine Logic (LAL) which has the property that denotatio...
Light Affine Logic is a variant of Linear Logic with a polynomial cut-elimination procedure. We stud...
In [7], a naive set theory is introduced based on a polynomial time logical system, Light Linear Log...
New, simple, proofs of soundness (every representable function lies in a given complexity class) for...
AbstractNew, simple, proofs of soundness (every representable function lies in a given complexity cl...
This paper is a structured introduction to Intuitionistic Light Affine Logic (ILAL). ILAL has a poly...
Much effort has been recently devoted to the study of polytime formal (and especially logical) syste...
) Kazushige Terui 3 Abstract Light Linear Logic (LLL) of [Gir95] characterizes the polytime functi...
We propose a new type system for lambda-calculus en-suring that well-typed programs can be executed ...
We present a polymorphic type system for lambda calculus ensuring that well-typed programs can be ex...
AbstractWe present a polymorphic type system for lambda calculus ensuring that well-typed programs c...
Light, elementary and soft linear logics are formal systems derived from Linear Logic, enjoying rema...
AbstractLight, elementary and soft linear logics are formal systems derived from Linear Logic, enjoy...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...
Typing of lambda-terms in Elementary and Light Affine Logic (EAL, LAL resp.) has been studied for tw...