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Qui sont ces « algorithmes » qui bouleversent notre quotidien ? Que se trouve-t-il de l’autre côté de l’iceberg mathématique ? « Algorithmes » : voilà un mot décrié, que beaucoup pensent comprendre, mais que peu savent manier. Il fallait bien une spécialiste du code et des équations pour nous guider à travers ce véritable voyage en terre inconnue de modélisation numérique. Pour l’éminente scientifique et entrepreneure Aurélie Jean, pourtant, rien de plus simple, de plus lisible qu’une ligne de code : la promesse de comprendre, par la virtualisation des phénomènes, la vie elle-même ; l’ensemble des phénomènes physiques, économiques ou sociétaux – de tout système, vivant ou inerte. Écrire un algorithme, c’est dessiner un chemin de résolution pour un problème donné, un moyen précis et fiable d’accéder à la réponse recherchée. Plonger dans le virtuel pour comprendre le réel : si la démarche semble paradoxale, c’est pour la chercheuse la méthode unique pour maîtriser notre monde, aux nombreux enjeux aujourd’hui encore insaisissables. Et c’est précisément ce moyen, cette machine algorithmique, qui sépare et relie à la fois ces deux univers, réel et virtuel. En comprendre le fonctionnement, c’est comprendre ce qui réconcilie ces deux mondes
Algorithms --- Computer algorithms --- Algorithmes. --- Algorithms.
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Algorithms --- History.
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Algorithms. --- Algorithms --- Algorism --- Algebra --- Arithmetic --- Foundations
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evolutionary algorithms --- Genetic Algorithms --- cellular automata --- Biology --- neural networks
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Cluster analysis. --- Fuzzy algorithms. --- Pattern perception.
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Algorithms. --- Astronomy --- Data processing. --- Problems, exercises, etc.
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REDUCE is one of the most widely available and simple to use computer algebra systems. It enables users to manipulate complex algebraic expressions and equations symbolically just as mathematicians and scientists do traditionally on paper, and its capabilities include differentiation and exact symbolic integration. This book provides a comprehensive introduction to REDUCE from starting to run it through to using some of the user-contributed REDUCE packages written for specific applications. The authors' aim is to enable all students using REDUCE for the first time to gain a familiarity with the full range of REDUCE commands while at the same time learning something of the internal workings of REDUCE. Throughout, numerous exercises are provided to illustrate themes covered in the text as well as to encourage "hands on" working with REDUCE. Both authors are expert users of REDUCE and the text is based on their many years of teaching the system to undergraduate and graduate students. As a result, all those coming to use REDUCE for the first time will find this an invaluable tutor and guide. For more advanced users, it covers a number of aspects not included in the REDUCE manual.
Algebra --- Data processing --- Congresses --- REDUCE --- Congresses. --- 512 --- -681.3*I12 --- Mathematics --- Mathematical analysis --- -Congresses --- Algorithms: algebraic algorithms; nonalgebraic algorithms; analysis of algorithms (Algebraic manipulation; computing methodologies) --- 681.3*I12 Algorithms: algebraic algorithms; nonalgebraic algorithms; analysis of algorithms (Algebraic manipulation; computing methodologies) --- 512 Algebra --- 681.3*I12 --- Data processing&delete& --- Algebra - Data processing - Congresses --- Informatique --- Algorithmes et programmes --- Computer algebra --- Colloque
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Computers --- Logic circuits --- Algorithms --- Ordinateurs --- Circuits logiques --- Algorithmes --- Circuits --- 510.5 --- #KVIV --- Algorithms. Computable functions --- 510.5 Algorithms. Computable functions --- Sequential Machine --- Machine Organization --- Vlsi --- Control Unit
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