The algebraic lambda calculus and the linear algebraic lambda calculus are
two extensions of the classical lambda calculus with linear combinations of
terms. They arise independently in distinct contexts: the former is a fragment
of the differential lambda calculus, the latter is a candidate lambda calculus
for quantum computation. They differ in the handling of application arguments
and algebraic rules. The two languages can simulate each other using an
algebraic extension of the well-known call-by-value and call-by-name CPS
translations. These simulations are sound, in that they preserve reductions. In
this paper, we prove that the simulations are actually complete, strengthening
the connection between the two languages.Comment: In Proceedings DCM 2011, arXiv:1207.682

Ali Assaf

Amr Sabry

Benoît Valiron

Elham Kashefi

Eugenio Moggi

Femke van Raamsdonk

Gordon D. Plotkin

Jean Krivine

John Hatcliff

Lionel Vaux

Pablo Arrighi

Peter Selinger

Simon Perdrix

Thomas Ehrhard

Thorsten Altenkirch

William K. Wootters

Electronic Proceedings in Theoretical Computer Science

English

arXiv

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Completeness of algebraic CPS simulations

The algebraic lambda calculus and the linear algebraic lambda calculus are two extensions of the classical lambda calculus with linear combinations of terms. They arise independently in distinct contexts: the former is a fragment of the differential lambda calculus, the latter is a candidate lambda calculus for quantum computation. They differ in the handling of application arguments and algebraic rules. The two languages can simulate each other using an algebraic extension of the well-known call-by-value and call-by-name CPS translations. These simulations are sound, in that they preserve reductions. In this paper, we prove that the simulations are actually complete, strengthening the connection between the two languages

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Main conference: http://icalp11.inf.ethz.ch/workshops (International Colloquium on Automata, Languages and Programming)International audienceThe algebraic lambda calculus and the linear algebraic lambda calculus are two extensions of the classical lambda calculus with linear combinations of terms. They arise independently in distinct contexts: the former is a fragment of the differential lambda calculus, the latter is a candidate lambda calculus for quantum computation. They differ in the handling of application arguments and algebraic rules. The two languages can simulate each other using an algebraic extension of the well-known call-by-value and call-by-name CPS translations. These simulations are sound, in that they preserve reductions. In this paper, we prove that the simulations are actually complete, strengthening the connection between the two languages

Assaf, Ali

Perdrix, Simon

Hal - Université Grenoble Alpes

Completeness of algebraic CPS simulations

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Hal - Université Grenoble Alpes