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200 00$aCreativity$b[electronic resource] $efostering, measuring and contexts /$fAlessandra M. Corrigan, editor
210   $aNew York $cNova Science Publishers, Inc.$dc2010
215   $a1 online resource (170 p.)
225 1 $aPsychology of emotions, motivations and actions
300   $aDescription based upon print version of record.
311   $a1-61668-807-6 
320   $aIncludes bibliographical references and index.
327   $aAlong the continua : mentally ill artists uninterrupted / Olivia Sagan -- Creativity and perceived truths : the journey motif in expressionist works / Linda Ardito -- Science classroom cultures and practices that foster creativity / Mavis Haigh -- Enhancing creativity through design technology : opportunities for developing children's creative thinking / Coral Campbell, Beverley Jane -- Creativity as cognitive design : the case of mesoscopic variables in meta-structures / Ignazio Licata -- Creativity in the video game industry / Peter Zackariasson, Timothy L. Wilson -- Creativity as a predictor of course effectiveness in a university setting / Yuliya Rinberg, Gayle Dow, Jonathan Plucker -- The theory of knowledge and industrial production / Gunnar H. Sohlenius -- Strengthening creativity through interdisciplinary connection making / Don Ambrose.
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300   $axii, 279 p. ;$c24 cm.
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200 00$aParallel computing for bioinformatics and computational biology$b[electronic resource] $emodels, enabling technologies, and case studies /$fedited by Albert Y. Zomaya
210   $aHoboken, N.J. $cWiley-Interscience$dc2006
215   $a1 online resource (814 p.)
225 1 $aWiley series on parallel and distributed computing
300   $aDescription based upon print version of record.
311   $a0-471-71848-3 
320   $aIncludes bibliographical references and index.
327   $aPARALLEL COMPUTING FOR BIOINFORMATICS AND COMPUTATIONAL BIOLOGY; CONTENTS; Preface; Contributors; Acknowledgments; PART I ALGORITHMS AND MODELS; 1 Parallel and Evolutionary Approaches to Computational Biology; 1.1 Introduction; 1.2 Bioinformatics; 1.3 Evolutionary Computation Applied to Computational Biology; 1.4 Conclusions; References; 2 Parallel Monte Carlo Simulation of HIV Molecular Evolution in Response to Immune Surveillance; 2.1 Introduction; 2.2 The Problem; 2.3 The Model; 2.4 Parallelization with MPI; 2.5 Parallel Random Number Generation; 2.6 Preliminary Simulation Results
327   $a2.7 Future DirectionsReferences; 3 Differential Evolutionary Algorithms for In Vivo Dynamic Analysis of Glycolysis and Pentose Phosphate Pathway in Escherichia coli; 3.1 Introduction; 3.2 Mathematical Model; 3.3 Estimation of the Parameters of the Model; 3.4 Kinetic Parameter Estimation by DE; 3.5 Simulation and Results; 3.6 Stability Analysis; 3.7 Control Characteristic; 3.8 Conclusions; References; 4 Compute-Intensive Simulations for Cellular Models; 4.1 Introduction; 4.2 Simulation Methods for Stochastic Chemical Kinetics; 4.3 Aspects of Biology - Genetic Regulation
327   $a4.4 Parallel Computing for Biological Systems4.5 Parallel Simulations; 4.6 Spatial Modeling of Cellular Systems; 4.7 Modeling Colonies of Cells; References; 5 Parallel Computation in Simulating Diffusion and Deformation in Human Brain; 5.1 Introduction; 5.2 Anisotropic Diffusion Simulation in White Matter Tractography; 5.3 Brain Deformation Simulation in Image-Guided Neurosurgery; 5.4 Summary; References; PART II SEQUENCE ANALYSIS AND MICROARRAYS; 6 Computational Molecular Biology; 6.1 Introduction; 6.2 Basic Concepts in Molecular Biology; 6.3 Global and Local Biological Sequence Alignment
327   $a6.4 Heuristic Approaches for Biological Sequence Comparison6.5 Parallel and Distributed Sequence Comparison; 6.6 Conclusions; References; 7 Special-Purpose Computing for Biological Sequence Analysis; 7.1 Introduction; 7.2 Hybrid Parallel Computer; 7.3 Dynamic Programming Communication Pattern; 7.4 Performance Evaluation; 7.5 Future Work and Open Problems; 7.6 Tutorial; References; 8 Multiple Sequence Alignment in Parallel on a Cluster of Workstations; 8.1 Introduction; 8.2 CLUSTAL W; 8.3 Implementation; 8.4 Results; 8.5 Conclusion; References
327   $a9 Searching Sequence Databases Using High-Performance BLASTs9.1 Introduction; 9.2 Basic Blast Algorithm; 9.3 Blast Usage and Performance Factors; 9.4 High Performance BLASTs; 9.5 Comparing BLAST Performance; 9.6 UMD-BLAST; 9.7 Future Directions; 9.8 Related Work; 9.9 Summary; References; 10 Parallel Implementations of Local Sequence Alignment: Hardware and Software; 10.1 Introduction; 10.2 Sequence Alignment Primer; 10.3 Smith-Waterman Algorithm; 10.4 FASTA; 10.5 BLAST; 10.6 HMMER - Hidden Markov Models; 10.7 ClustalW; 10.8 Specialized Hardware: FPGA; 10.9 Conclusion; References
327   $a11 Parallel Computing in the Analysis of Gene Expression Relationships
330   $aDiscover how to streamline complex bioinformatics applications with parallel computingThis publication enables readers to handle more complex bioinformatics applications and larger and richer data sets. As the editor clearly shows, using powerful parallel computing tools can lead to significant breakthroughs in deciphering genomes, understanding genetic disease, designing customized drug therapies, and understanding evolution.A broad range of bioinformatics applications is covered with demonstrations on how each one can be parallelized to improve performance and gain faster
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606   $aBioinformatics
606   $aComputational biology
606   $aParallel processing (Electronic computers)
615  0$aBioinformatics.
615  0$aComputational biology.
615  0$aParallel processing (Electronic computers)
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