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Bigloo: A Portable and Optimizing Compiler for Strict Functional Languages
, 1995
"... . We present Bigloo, a highly portable and optimizing compiler. Bigloo is the first compiler for strict functional languages that can efficiently compile several languages: Bigloo is the first compiler for full Scheme and full ML, and for these two languages, Bigloo is one of the most efficient comp ..."
Abstract

Cited by 41 (5 self)
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. We present Bigloo, a highly portable and optimizing compiler. Bigloo is the first compiler for strict functional languages that can efficiently compile several languages: Bigloo is the first compiler for full Scheme and full ML, and for these two languages, Bigloo is one of the most efficient compiler now available (Bigloo is available by anonymous ftp on ftp.inria.fr [192.93.2.54]). This high level of performance is achieved by numerous highlevel optimizations. Some of those are classical optimizations adapted to higherorder functional languages (e.g. inlining), other optimization schemes are specific to Bigloo (e.g. a new refined closure analysis, an original optimization of imperative variables, and intensive use of higherorder control flow analysis). All these optimizations share the same design guideline: the reduction of heap allocation. 1 Introduction Strict functional programming languages have many different variations, but they all belong to the same family, the socalle...
Implementation Of The AtkinGoldwasserKilian Primality Testing Algorithm
 Rapport de Recherche 911, INRIA, Octobre
, 1988
"... . We describe a primality testing algorithm, due essentially to Atkin, that uses elliptic curves over finite fields and the theory of complex multiplication. In particular, we explain how the use of class fields and genus fields can speed up certain phases of the algorithm. We sketch the actual impl ..."
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Cited by 9 (7 self)
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. We describe a primality testing algorithm, due essentially to Atkin, that uses elliptic curves over finite fields and the theory of complex multiplication. In particular, we explain how the use of class fields and genus fields can speed up certain phases of the algorithm. We sketch the actual implementation of this test and its use on testing large primes, the records being two numbers of more than 550 decimal digits. Finally, we give a precise answer to the question of the reliability of our computations, providing a certificate of primality for a prime number. IMPLEMENTATION DU TEST DE PRIMALITE D' ATKIN, GOLDWASSER, ET KILIAN R'esum'e. Nous d'ecrivons un algorithme de primalit'e, principalement du `a Atkin, qui utilise les propri'et'es des courbes elliptiques sur les corps finis et la th'eorie de la multiplication complexe. En particulier, nous expliquons comment l'utilisation du corps de classe et du corps de genre permet d'acc'el'erer les calculs. Nous esquissons l'impl'ementati...
Tribute to a Great MetaTechnologist —from Centaur to The MetaEnvironment—
, 2008
"... www.cwi.nl/˜paulk ..."