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200 10$aF# high performance $ebuild powerful and fast applications with F# /$fEriawan Kusumawardhono
205   $a1st edition
210  1$aBirmingham, [England] ;$aMumbai, [India] :$cPackt,$d2017.
210  4$dİ2017
215   $a1 online resource (331 pages)
300   $aIncludes index.
311   $a1-78646-807-7 
330   $aBuild powerful and fast applications with F# About This Book Explore the advanced concurrency support in F# and .NET TPL Covers major optimization techniques in F# to improve the performance of applications Use Struct, Class and Record model, Interop with C# and VB without sacrificing performance. Who This Book Is For This book is for F# developers who want to build high-performance applications. Knowledge of functional programming would be helpful. What You Will Learn Understand how the execution of functions in F# works Identify common performance bottlenecks Implement best practices to optimize performance Use the available tooling to help measure performance Combine the best practice of asynchronous and synchronous Optimize further using various F# language constructs In Detail F# is a functional programming language and is used in enterprise applications that demand high performance. It has its own unique trait: it is a functional programming language and has OOP support at the same time. This book will help you make F# applications run faster with examples you can easily break down and take into your own work. You will be able to assess the performance of the program and identify bottlenecks. Beginning with a gentle overview of concurrency features in F#, you will get to know the advanced topics of concurrency optimizations in F#, such as F# message passing agent of MailboxProcessor and further interoperation with .NET TPL. Based on this knowledge, you will be able to enhance the performance optimizations when implementing and using other F# language features. The book also covers optimization techniques by using F# best practices and F# libraries. You will learn how the concepts of concurrency and parallel programming will help in improving the performance. With this, you would be able to take advantage of multi-core processors and track memory leaks, root causes, and CPU issues. Finally, you will be able to test their applications to achieve scalability. Style and approach This easy-to-follow guide is full of hands-on examples of real-world multithreading tasks. Each topic is explained and placed in context, and for the more inquisitive, there are also more in-depth details of the concepts used.
606   $aF (Computer program language)
606   $aApplication software$xDevelopment
606   $aFunctional programming (Computer science)
615  0$aF (Computer program language)
615  0$aApplication software$xDevelopment.
615  0$aFunctional programming (Computer science)
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200 10$aGeneralized potentiometric-surface map and groundwater flow directions in the Madison aquifer near Jewel Cave National Monument, South Dakota /$fTodd M. Anderson [and three others]
210  1$aReston, Virginia :$cU.S. Department of the Interior, U.S. Geological Survey,$d2019.
215   $a1 online resource (vi, 16 pages) $ccolor illustrations, color maps
225 1 $aScientific investigations report,$x2328-0328 ;$v2019-5098
300   $a"Prepared in cooperation with the National Park Service."
320   $aIncludes bibliographical references (pages 15-16).
606   $aGroundwater flow$zMadison Aquifer
606   $aGroundwater flow$zSouth Dakota$zJewel Cave National Monument
606   $aGroundwater recharge$zMadison Aquifer
606   $aGroundwater recharge$zSouth Dakota$zJewel Cave National Monument
606   $aHydrogeology$zMadison Aquifer
606   $aHydrogeology$zSouth Dakota$zJewel Cave National Monument
606   $aPotentiometry
615  0$aGroundwater flow
615  0$aGroundwater flow
615  0$aGroundwater recharge
615  0$aGroundwater recharge
615  0$aHydrogeology
615  0$aHydrogeology
615  0$aPotentiometry.
700   $aAnderson$b Todd M.$0283362
712 02$aGeological Survey (U.S.),
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