Produkte zum Begriff Interpolation:
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Debugging Tasse
Debugging Tasse
Preis: 8.50 € | Versand*: 4.95 € -
DALI-Bus-USB-Schnittstelle, Debugging-Schnittstelle DALI-Debugging-Software
DALI-Bus-USB-Schnittstelle, Debugging-Schnittstelle DALI-Debugging-Software
Preis: 138.39 € | Versand*: 10.85 € -
Inside Windows Debugging
Use Windows debuggers throughout the development cycle—and build better software Rethink your use of Windows debugging and tracing tools—and learn how to make them a key part of test-driven software development. Led by a member of the Windows Fundamentals Team at Microsoft, you’ll apply expert debugging and tracing techniques—and sharpen your C++ and C# code analysis skills—through practical examples and common scenarios. Learn why experienced developers use debuggers in every step of the development process, and not just when bugs appear. Discover how to: Go behind the scenes to examine how powerful Windows debuggers work Catch bugs early in the development cycle with static and runtime analysis tools Gain practical strategies to tackle the most common code defects Apply expert tricks to handle user-mode and kernel-mode debugging tasks Implement postmortem techniques such as JIT and dump debugging Debug the concurrency and security aspects of your software Use debuggers to analyze interactions between your code and the operating system Analyze software behavior with Xperf and the Event Tracing for Windows (ETW) framework
Preis: 27.81 € | Versand*: 0 € -
Advanced Windows Debugging
&> -- Bob Wilton, Escalation Engineer, Critical Problem Resolution Team, Microsoft “An excellent reference for both intermediate and advanced debuggers: highly practical, and filled with tricks and strategies. This book stands out from all other Win32 debugging literature, thanks to its in-depth examples–including resolving intricate problems like stack and heap corruptions.” -- Kinshuman, Development Lead, Windows Core OS Division, Microsoft The First In-Depth, Real-World, Insider’s Guide to Powerful Windows Debugging For Windows developers, few tasks are more challenging than debugging–-or more crucial. Reliable and realistic information about Windows debugging has always been scarce. Now, with over 15 years of experience two of Microsoft’s system-level developers present a thorough and practical guide to Windows debugging ever written. Mario Hewardt and Daniel Pravat cover debugging throughout the entire application lifecycle and show how to make the most of the tools currently available–-including Microsoft’s powerful native debuggers and third-party solutions. To help you find real solutions fast, this book is organized around real-world debugging scenarios. Hewardt and Pravat use detailed code examples to illuminate the complex debugging challenges professional developers actually face. From core Windows operating system concepts to security, Windows® Vista™ and 64-bit debugging, they address emerging topics head-on–and nothing is ever oversimplified or glossed over! This book enables you to Master today’s most powerful Windows debugging tools, including NTSD, CDB, WinDbg, KD, and ADPlus Debug code that wasn’t designed or written for easy debugging Understand debuggers “under the hood,” and manage symbols and sources efficiently Debug complex memory corruptions related to stacks and heaps Resolve complex security problems Debug across processes: identity tracking, RPC debugger extensions, and tracking IPCs with Ethereal Find and fix resource leaks, such as memory and handle leaks. Debug common thread synchronization problems Learn when and how to write custom debugger extensions Perform “postmortem debugging” using crash dumps and Windows Error Reporting Automate debugging with DebugDiag and the Analyze Debugger command Whether you’re a system-level or application developer, Advanced Windows Debugging delivers the deep understanding of debugging that could save you weeks on your very next project. Part I Overview Chapter 1 Introduction to the Tools Chapter 2 Introduction to the Debuggers Chapter 3 Debugger Uncovered Chapter 4 Managing Symbol and Source Files Part II Applied Debugging Chapter 5 Memory Corruptions Part I – Stacks Chapter 6 Memory Corruptions Part I – Heaps Chapter 7 Security Chapter 8 Inter-process Communication Chapter 9 Resource Leaks Chapter 10 Synchronization Part III Advanced Topics Chapter 11 Writing Custom Debugger Extensions Chapter 12 64-bit Debugging Chapter 13 Postmortem Debugging Chapter 14 Power Tools Chapter 15 Windows Vista Fundamentals Appendix A Application Verifier Test Settings If you like Advanced Windows Debugging, keep an eye out for ADVANCED .NET DEBUGGING COMING IN NOV. 2009.
Preis: 39.58 € | Versand*: 0 €
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Wie funktioniert die Interpolation mit einer Funktion?
Bei der Interpolation mit einer Funktion werden Punkte in einem gegebenen Intervall verwendet, um eine Funktion zu finden, die diese Punkte möglichst genau abbildet. Dabei wird eine Funktion gewählt, die durch die gegebenen Punkte verläuft und die gewünschten Eigenschaften erfüllt, wie beispielsweise die Differenzierbarkeit oder die Monotonie. Die genaue Methode der Interpolation hängt von der Art der Funktion und den gegebenen Punkten ab, es gibt jedoch verschiedene Ansätze wie beispielsweise die Lagrange-Interpolation oder die Newton-Interpolation.
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Wie funktioniert die kreuzweise Interpolation?
Die kreuzweise Interpolation ist eine Methode zur Schätzung fehlender Werte in einer Tabelle oder Matrix. Dabei werden die vorhandenen Werte in den Zeilen und Spalten verwendet, um die fehlenden Werte zu berechnen. Dies geschieht, indem die vorhandenen Werte in der gleichen Zeile oder Spalte gewichtet werden, um den fehlenden Wert zu schätzen. Die Methode kann in verschiedenen Bereichen wie der Bildverarbeitung, der Datenanalyse oder der numerischen Berechnung eingesetzt werden.
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Was ist eine Frage zur Interpolation?
Wie kann die Interpolation genutzt werden, um fehlende Daten in einer Datenreihe zu schätzen?
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Wie funktioniert die Spline-Interpolation mit kubischen Splines?
Die Spline-Interpolation mit kubischen Splines funktioniert, indem die zu interpolierenden Datenpunkte durch kubische Funktionen verbunden werden. Dabei werden die Funktionen so gewählt, dass sie an den Datenpunkten stetig sind und die Ableitungen an den Übergangsstellen ebenfalls stetig sind. Dies ermöglicht eine glatte und kontinuierliche Interpolation der Daten.
Ähnliche Suchbegriffe für Interpolation:
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Advanced .NET Debugging
Mario Hewardt's Advanced .NET Debugging is an excellent resource for both beginner and experienced developers working with .NET. The book is also packed with many debugging tips and discussions of CLR internals, which will benefit developers architecting software. Jeffrey Richter, consultant, trainer, and author at Wintellect Mario has done it again. His Advanced Windows Debugging (coauthored with Daniel Pravat) is an invaluable resource for native code debugging, and Advanced .NET Debugging achieves the same quality, clarity, and breadth to make it just as invaluable for .NET debugging. Mark Russinovich, Technical Fellow, Microsoft Corporation The Only Complete, Practical Guide to Fixing the Toughest .NET Bugs Advanced .NET Debugging is the first focused, pragmatic guide to tracking down today's most complex and challenging .NET application bugs. It is the only book to focus entirely on using powerful native debugging tools, including WinDBG, NTSD, and CDB, to debug .NET applications. Using these tools, author Mario Hewardt explains how to identify the real root causes of problemsfar more quickly than you ever could with other debuggers. Hewardt first introduces the key concepts needed to successfully use .NET's native debuggers. Next, he turns to sophisticated debugging techniques, using real-world examples that demonstrate many common C# programming errors. This book enables you to Make practical use of postmortem debugging, including PowerDBG and other power tools Understand the debugging details and implications of the new .NET CLR 4.0 Master and successfully use Debugging Tools for Windows, as well as SOS, SOSEX, CLR Profiler, and other powerful tools Gain a deeper, more practical understanding of CLR internals, such as examining thread-specific data, managed heap and garbage collector, interoperability layer, and .NET exceptions Solve difficult synchronization problems, managed heap problems, interoperability problems, and much more Generate and successfully analyze crash dumps
Preis: 36.37 € | Versand*: 0 € -
Advanced .NET Debugging
Mario Hewardt's Advanced .NET Debugging is an excellent resource for both beginner and experienced developers working with .NET. The book is also packed with many debugging tips and discussions of CLR internals, which will benefit developers architecting software. Jeffrey Richter, consultant, trainer, and author at Wintellect Mario has done it again. His Advanced Windows Debugging (coauthored with Daniel Pravat) is an invaluable resource for native code debugging, and Advanced .NET Debugging achieves the same quality, clarity, and breadth to make it just as invaluable for .NET debugging. Mark Russinovich, Technical Fellow, Microsoft Corporation The Only Complete, Practical Guide to Fixing the Toughest .NET Bugs Advanced .NET Debugging is the first focused, pragmatic guide to tracking down today's most complex and challenging .NET application bugs. It is the only book to focus entirely on using powerful native debugging tools, including WinDBG, NTSD, and CDB, to debug .NET applications. Using these tools, author Mario Hewardt explains how to identify the real root causes of problemsfar more quickly than you ever could with other debuggers. Hewardt first introduces the key concepts needed to successfully use .NET's native debuggers. Next, he turns to sophisticated debugging techniques, using real-world examples that demonstrate many common C# programming errors. This book enables you to Make practical use of postmortem debugging, including PowerDBG and other power tools Understand the debugging details and implications of the new .NET CLR 4.0 Master and successfully use Debugging Tools for Windows, as well as SOS, SOSEX, CLR Profiler, and other powerful tools Gain a deeper, more practical understanding of CLR internals, such as examining thread-specific data, managed heap and garbage collector, interoperability layer, and .NET exceptions Solve difficult synchronization problems, managed heap problems, interoperability problems, and much more Generate and successfully analyze crash dumps
Preis: 27.81 € | Versand*: 0 € -
Advanced Windows Debugging
The First In-Depth, Real-World, Insider’s Guide to Powerful Windows Debugging For Windows developers, few tasks are more challenging than debugging–-or more crucial. Reliable and realistic information about Windows debugging has always been scarce. Now, with over 15 years of experience two of Microsoft’s system-level developers present a thorough and practical guide to Windows debugging ever written. Mario Hewardt and Daniel Pravat cover debugging throughout the entire application lifecycle and show how to make the most of the tools currently available–-including Microsoft’s powerful native debuggers and third-party solutions. To help you find real solutions fast, this book is organized around real-world debugging scenarios. Hewardt and Pravat use detailed code examples to illuminate the complex debugging challenges professional developers actually face. From core Windows operating system concepts to security, Windows® Vista™ and 64-bit debugging, they address emerging topics head-on–and nothing is ever oversimplified or glossed over!
Preis: 29.95 € | Versand*: 0 € -
Inside Windows Debugging
Use Windows debuggers throughout the development cycle—and build better software Rethink your use of Windows debugging and tracing tools—and learn how to make them a key part of test-driven software development. Led by a member of the Windows Fundamentals Team at Microsoft, you’ll apply expert debugging and tracing techniques—and sharpen your C++ and C# code analysis skills—through practical examples and common scenarios. Learn why experienced developers use debuggers in every step of the development process, and not just when bugs appear. Discover how to: Go behind the scenes to examine how powerful Windows debuggers work Catch bugs early in the development cycle with static and runtime analysis tools Gain practical strategies to tackle the most common code defects Apply expert tricks to handle user-mode and kernel-mode debugging tasks Implement postmortem techniques such as JIT and dump debugging Debug the concurrency and security aspects of your software Use debuggers to analyze interactions between your code and the operating system Analyze software behavior with Xperf and the Event Tracing for Windows (ETW) framework
Preis: 20.32 € | Versand*: 0 €
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Wie funktioniert die lineare Interpolation zwischen zwei Winkeln?
Bei der linearen Interpolation zwischen zwei Winkeln wird der Unterschied zwischen den beiden Winkeln gleichmäßig aufgeteilt. Das bedeutet, dass der Winkel zwischen den beiden interpolierten Werten in jedem Schritt um den gleichen Betrag erhöht oder verringert wird. Durch diese Methode entsteht eine gleichmäßige Veränderung des Winkels zwischen den beiden Ausgangswerten.
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Was ist der Unterschied zwischen Interpolation und Extrapolation?
Interpolation bezieht sich auf die Schätzung von Werten innerhalb des bekannten Bereichs einer Datenreihe oder Funktion, während Extrapolation die Schätzung von Werten außerhalb dieses Bereichs bezeichnet. Bei der Interpolation werden vorhandene Daten verwendet, um fehlende Werte zu schätzen, während bei der Extrapolation versucht wird, Vorhersagen über zukünftige oder unbekannte Werte zu treffen. Extrapolation ist jedoch mit höheren Unsicherheiten verbunden, da sie auf Annahmen basiert, die über den bekannten Bereich hinausgehen.
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Was ist der Unterschied zwischen Interpolation, Extrapolation und Regression?
Interpolation bezieht sich auf die Schätzung von Werten innerhalb des bekannten Bereichs einer Datenreihe. Extrapolation hingegen bezieht sich auf die Schätzung von Werten außerhalb des bekannten Bereichs einer Datenreihe. Regression ist eine statistische Methode zur Schätzung der Beziehung zwischen einer abhängigen Variablen und einer oder mehreren unabhängigen Variablen, um Vorhersagen zu treffen oder Zusammenhänge zu analysieren.
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Wie führt man eine lineare Interpolation in Excel durch?
Um eine lineare Interpolation in Excel durchzuführen, benötigt man die Funktion "LINEST". Zuerst müssen die bekannten x- und y-Werte in zwei Spalten eingetragen werden. Dann kann man die Funktion "LINEST" verwenden, um die Steigung und den y-Achsenabschnitt der linearen Funktion zu berechnen. Schließlich kann man die berechneten Werte verwenden, um den fehlenden y-Wert für einen gegebenen x-Wert zu interpolieren.
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