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200 10$aProfessional parallel programming with C#$b[electronic resource] $emaster parallel extensions with .net 4 /$fGasto?n C. Hillar
205   $a1st ed.
210   $aIndianapolis, Ind. $cWiley Pub., Inc.$d2011
215   $a1 online resource (577 p.)
225 0 $aWrox programmer to programmer
300   $aIncludes index.
311   $a1-118-54603-2 
311   $a0-470-49599-5 
327   $aMachine generated contents note: ch. 1 Task-Based Programming -- ch. 2 Imperative Data Parallelism -- ch. 3 Imperative Task Parallelism -- ch. 4 Concurrent Collections -- ch. 5 Coordination Data Structures -- ch. 6 PLINQ: Declarative Data Parallelism -- ch. 7 Visual Studio 2010 Task Debugging Capabilities -- ch. 8 Thread Pools -- ch. 9 Asynchronous Programming Model -- ch. 10 Parallel Testing and Tuning -- ch. 11 Vectorization, SIMD Instructions, and Additional Parallel Libraries.
330   $aAre you maximizing the processing power in your multi-core computer systems? With this resource, you discover how to do exactly that, while gaining insight into concurrent programming with tasks to create professional parallel applications using C# 4, .Net 4, and Visual Studio 2010. You learn other parallel programming techniques, including modern single instruction, multiple data instructions and vectorization. Plus, you explore the possibilities offered by modern parallel libraries and advanced Intel tools with C#. Use the new lightweight coordination structures to tackle the most complex concurrent programming problems and develop your own customized solutions. --Book Jacket.
606   $aC# (Computer program language)
606   $aParallel programming (Computer science)
608   $aElectronic books.
615  0$aC# (Computer program language)
615  0$aParallel programming (Computer science)
676   $a005.275
676   $a006.7882
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200 10$aSimulation of the sea surface for remote sensing /$fAlexander Zapevalov, Konstantin Pokazeev, Tatiana Chaplina
205   $a1st ed. 2021.
210  1$aCham, Switzerland :$cSpringer,$d[2020]
210  4$dİ2020
215   $a1 online resource (XIV, 222 p. 105 illus., 1 illus. in color.) 
225 1 $aSpringer oceanography
311   $a3-030-58751-7 
320   $aIncludes bibliographical references.
327   $aChapter 1. The surface elevation probability distribution of nonlinear random waves -- Chapter 2. Statistical distribution sea surface slopes -- Chapter 3. On the dispersion relation of sea waves -- Chapter 4. Modeling the shape of the pulse reflected from the sea surface -- Chapter 5. Effect of long surface waves on the Bregg scattering of microwave -- Chapter 6. Impact of physical and chemical characteristics of the sea water on Bregg scattering of the radio waves -- Chapter 7. Measurements of statistical moments of sea surface slopes based on satellite sensing data -- Chapter 8. Contrast of optical images at the slick-ripple interface -- Chapter 9. Variability of the ocean-atmosphere interface as a light reflecting surface -- Chapter 10. Physical limitations on the accuracy of remote detection of wind speed over the sea.
330   $aThis book considers the formation of the signal reflected from the sea surface when sensing in the radio and optical range. Currently, remote sensing from space is the main source of information about the processes taking place in the atmosphere and ocean. The correct interpretation of remote sensing data requires detailed information about the rough surface that forms the reflected signal. The first three chapters describe the statistical and spatial-temporal characteristics of the sea surface, focusing on the effects associated with the nonlinearity of sea surface waves. The analysis makes extensive use of data obtained by the authors on a stationary oceanographic platform located on the Black sea. In the next seven chapters, the authors analyze how the nonlinearity of waves affects the formation of a signal reflected from the sea surface. This book is geared for advanced level research in the general subject area of remote sensing and modeling as they apply to the coastal marine environment. It is of value to scientists and engineers involved in the development of methods and instruments of remote sensing, analysis and interpretation of data. It is useful for students who have decided to devote themselves to the study of the oceans.
410  0$aSpringer oceanography.
606   $aSurface waves (Oceanography)$xMathematical models
606   $aOceanography$xRemote sensing
615  0$aSurface waves (Oceanography)$xMathematical models.
615  0$aOceanography$xRemote sensing.
676   $a620.106
700   $aZapevalov$b Alexander$01076516
702   $aPokazeev$b Konstantin
702   $aChaplina$b Tatiana
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