Gå direkte til innholdet

Sommersalg på pocket fra 79,- »

Til startsiden
Søk etter din neste leseopplevelse
Graph Algorithms in the Language of Linear Algebra
Spar

Graph Algorithms in the Language of Linear Algebra

1 866,-
Sendes innen 5-16 virkedager
Graphs are among the most important abstract data types in computer science, and the algorithms that operate on them are critical to modern life. Graphs have been shown to be powerful tools for modeling complex problems because of their simplicity and generality. Graph algorithms are one of the pillars of mathematics, informing research in such diverse areas as combinatorial optimization, complexity theory, and topology. Algorithms on graphs are applied in many ways in today's world - from Web rankings to metabolic networks, from finite element meshes to semantic graphs. The current exponential growth in graph data has forced a shift to parallel computing for executing graph algorithms. Implementing parallel graph algorithms and achieving good parallel performance have proven difficult. This book addresses these challenges by exploiting the well-known duality between a canonical representation of graphs as abstract collections of vertices and edges and a sparse adjacency matrix representation. This linear algebraic approach is widely accessible to scientists and engineers who may not be formally trained in computer science.The authors show how to leverage existing parallel matrix computation techniques and the large amount of software infrastructure that exists for these computations to implement efficient and scalable parallel graph algorithms. The benefits of this approach are reduced algorithmic complexity, ease of implementation, and improved performance. Graph Algorithms in the Language of Linear Algebra is the first book to cover graph algorithms accessible to engineers and scientists not trained in computer science but having a strong linear algebra background, enabling them to quickly understand and apply graph algorithms.It also covers array-based graph algorithms, showing readers how to express canonical graph algorithms using a highly elegant and efficient array notation and how to tap into the large range of tools and techniques that have been built for matrices and tensors; parallel array-based algorithms, demonstrating with examples how to easily implement parallel graph algorithms using array-based approaches, which enables readers to address much larger graph problems; and array-based theory for analyzing graphs, providing a template for using array-based constructs to develop new theoretical approaches for graph analysis.

Mer om Adlibris

Om Adlibris

Vi er Nordens største nettbokhandel, og tilbyr over 13 millioner boktitler og det meste av det beste innen spill, leker, hobby og garn. Vår misjon er å være en moderne bokhandel for alle bokelskere: et innbydende sted for lesing, læring og skaping. Det er hva som driver oss, hver dag. Adlibris er en del av Bonnier Group.

  • Alltid gode priser

  • Fri frakt over 299,-

  • Nordens største bokhandel

Meld deg på nyhetsbrev

Motta våre beste boktips, nyheter og gode tilbud. Registrer deg nå, og få 10% rabatt på det første kjøpet ditt. Tilbudet gjelder kun nye abonnenter og privatkunder. Rabatten gjelder ikke norske bøker utgitt 2024, fag- og studielitteratur, digitale bøker og gavekort.