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Analyze system crashes and freezes, navigate kernel and complete memory spaces, and diagnose patterns of abnormal software behavior using the WinDbg debugger.

Analyze crashes and freezes, navigate through user space and diagnose heap corruption, memory and handle leaks, CPU spikes, blocked threads, deadlocks, wait chains, and more using WinDbg debugger.

Solid C and C]+ knowledge is a must to fully understand Linux diagnostic artifacts such as core memory dumps and do diagnostic, forensic, and root cause analysis beyond listing backtraces. This full-color reference book is a part of the Accelerated C & C++ for Linux Diagnostics training course organized by Software Diagnostics Services. The text contains slides, brief notes highlighting particular points, and replicated source code fragments that are easy to copy into your favorite IDE. The book's detailed Table of Contents makes the usual Index redundant. We hope this reference is helpful for the following audiences: C and C++ developers who want to deepen their knowledgeSoftware engineers developing and maintaining products on Linux platformsTechnical support, escalation, DevSecOps, cloud and site reliability engineers dealing with complex software issuesQuality assurance engineers who test software on Linux platformsSecurity and vulnerability researchers, reverse engineers, malware and memory forensics analysts

Solid C and C++ knowledge is a must to fully understand Windows diagnostic artifacts such as memory dumps and do diagnostic, forensic, and root cause analysis beyond listing stack traces, DLL, and driver information. This full-color reference book is a part of the Accelerated C & C++ for Windows Diagnostics training course organized by Software Diagnostics Services. The text contains slides, brief notes highlighting particular points, and replicated source code fragments that are easy to copy into your favorite IDE. The book's detailed Table of Contents makes the usual Index redundant. We hope this reference is helpful for the following audiences: C and C++ developers who want to deepen their knowledgeSoftware engineers developing and maintaining products on Windows platformsTechnical support, escalation, DevSecOps, cloud and site reliability engineers dealing with complex software issuesQuality assurance engineers who test software on Windows platformsSecurity and vulnerability researchers, reverse engineers, malware and memory forensics analysts

A pattern language to cover from a small debugging trace to a distributed log with billions of messages from hundreds of computers, thousands of components, threads, and processes.

The book contains the full transcript of Software Diagnostics Services training with 16 hands-on exercises on various topics related to Linux API. Knowledge of Linux API is necessary for:DevelopmentMalware analysisVulnerability analysis and exploitationReversingDiagnosticsDebuggingMemory forensicsCrash and hang analysisSecure codingStatic code analysisTrace and log analysisThe training uses a unique and innovative pattern-oriented analysis approach and provides:OverviewClassificationPatternsInternalsDevelopment examplesAnalysis examplesComparison with Windows API

This machine learning book series aims at providing real hands-on training from general concepts and architecture to low-level details and mathematics. The first epoch covers the simplest linear associative network, proposes a brick notation for algebraic expressions, shows required calculus derivations, and illustrates gradient descent. Subsequent epochs also include necessary computer science foundations, statistics, data science topics, algorithms, and data structures.

Contains articles from 13 volumes of Memory Dump Analysis Anthology related to pattern-oriented software diagnostics with comments showing the historical development of this autonomous and distinctive discipline over the last 14 years.

The first increment covers memory, memory addresses, pointers, program loading, kernel and user spaces, virtual process space, memory isolation, virtual and physical memory, memory paging, memory dump types.

This series aims at learning organic chemistry from the ground up by utilizing an innovative approach of using LEGO(R) baseplates and blocks to model various chemical structures and their reactivity.