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  • Linux Kernel Development
    Linux Kernel Development

    Linux Kernel Development details the design and implementation of the Linux kernel, presenting the content in a manner that is beneficial to those writing and developing kernel code, as well as to programmers seeking to better understand the operating system and become more efficient and productive in their coding. The book details the major subsystems and features of the Linux kernel, including its design, implementation, and interfaces.It covers the Linux kernel with both a practical and theoretical eye, which should appeal to readers with a variety of interests and needs. The author, a core kernel developer, shares valuable knowledge and experience on the 2.6 Linux kernel.Specific topics covered include process management, scheduling, time management and timers, the system call interface, memory addressing, memory management, the page cache, the VFS, kernel synchronization, portability concerns, and debugging techniques.This book covers the most interesting features of the Linux 2.6 kernel, including the CFS scheduler, preemptive kernel, block I/O layer, and I/O schedulers. The third edition of Linux Kernel Development includes new and updated material throughout the book: An all-new chapter on kernel data structuresDetails on interrupt handlers and bottom halvesExtended coverage of virtual memory and memory allocationTips on debugging the Linux kernelIn-depth coverage of kernel synchronization and lockingUseful insight into submitting kernel patches and working with the Linux kernel community

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  • Learning eBPF : Programming the Linux Kernel for Enhanced Observability, Networking, and Security
    Learning eBPF : Programming the Linux Kernel for Enhanced Observability, Networking, and Security

    What is eBPF? With this revolutionary technology, you can write custom code that dynamically changes the way the kernel behaves.It's an extraordinary platform for building a whole new generation of security, observability, and networking tools. This practical book is ideal for developers, system administrators, operators, and students who are curious about eBPF and want to know how it works.Author Liz Rice, chief open source officer with cloud native networking and security specialists Isovalent, also provides a foundation for those who want to explore writing eBPF programs themselves. With this book, you will:Learn why eBPF has become so important in the past couple of yearsWrite basic eBPF code, and manipulate eBPF programs and attach them to eventsExplore how eBPF components interact with Linux to dynamically change the operating system's behaviorLearn how tools based on eBPF can instrument applications without changes to the apps or their configurationDiscover how this technology enables new tools for observability, security, and networking

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  • Learning eBPF: Programming the Linux Kernel for Enhanced Observability, Networking, and Security
    Learning eBPF: Programming the Linux Kernel for Enhanced Observability, Networking, and Security

    Learning eBPF: Programming the Linux Kernel for Enhanced Observability, Networking, and Security

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  • Understanding the Linux Kernel
    Understanding the Linux Kernel

    In order to thoroughly understand what makes Linux tick and why it works so well on a wide variety of systems, you need to delve deep into the heart of the kernel.The kernel handles all interactions between the CPU and the external world, and determines which programs will share processor time, in what order.It manages limited memory so well that hundreds of processes can share the system efficiently, and expertly organizes data transfers so that the CPU isn't kept waiting any longer than necessary for the relatively slow disks.The third edition of Understanding the Linux Kernel takes you on a guided tour of the most significant data structures, algorithms, and programming tricks used in the kernel.Probing beyond superficial features, the authors offer valuable insights to people who want to know how things really work inside their machine. Important Intel-specific features are discussed. Relevant segments of code are dissected line by line.But the book covers more than just the functioning of the code; it explains the theoretical underpinnings of why Linux does things the way it does.This edition of the book covers Version 2.6, which has seen significant changes to nearly every kernel subsystem, particularly in the areas of memory management and block devices.The book focuses on the following topics: * Memory management, including file buffering, process swapping, and Direct memory Access (DMA) * The Virtual Filesystem layer and the Second and Third Extended Filesystems * Process creation and scheduling * Signals, interrupts, and the essential interfaces to device drivers * Timing * Synchronization within the kernel * Interprocess Communication (IPC) * Program execution Understanding the Linux Kernel will acquaint you with all the inner workings of Linux, but it's more than just an academic exercise.You'll learn what conditions bring out Linux's best performance, and you'll see how it meets the challenge of providing good system response during process scheduling, file access, and memory management in a wide variety of environments.This book will help you make the most of your Linux system.

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  • What is the difference between Microsoft Dynamics AX and Dynamics 365?

    Microsoft Dynamics AX is an enterprise resource planning (ERP) software that was rebranded as Dynamics 365 for Finance and Operations. Dynamics AX is an on-premises solution, while Dynamics 365 is a cloud-based solution that offers a suite of applications including CRM, ERP, and other business operations tools. Dynamics 365 is designed to be more flexible and scalable, allowing businesses to choose the specific applications they need and easily add more as their needs evolve.

  • What is population dynamics?

    Population dynamics is the study of how populations of organisms change over time. It involves analyzing factors such as birth rates, death rates, immigration, and emigration to understand how populations grow, shrink, or remain stable. By studying population dynamics, scientists can gain insights into the factors that influence population size and structure, as well as the interactions between different species within an ecosystem. This information is crucial for conservation efforts, resource management, and understanding the impacts of human activities on the environment.

  • What is dynamics in physics?

    Dynamics in physics refers to the branch of mechanics that deals with the motion of objects and the forces that cause them to move. It involves studying how objects interact with each other and how they respond to external forces. Dynamics helps us understand the relationship between motion, force, and energy, allowing us to predict and analyze the behavior of physical systems. By studying dynamics, we can explain the motion of objects, from the trajectory of a baseball to the orbit of planets around the sun.

  • Do extroverts disrupt group dynamics?

    Extroverts can sometimes disrupt group dynamics if they dominate conversations, interrupt others, or fail to listen to different perspectives. However, extroverts can also bring energy, enthusiasm, and new ideas to a group, which can be beneficial for overall dynamics. It ultimately depends on the individual and how they interact with the group. Effective communication and mutual respect among all group members are key to maintaining positive group dynamics.

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  • Zeroing Dynamics, Gradient Dynamics, and Newton Iterations
    Zeroing Dynamics, Gradient Dynamics, and Newton Iterations

    Neural networks and neural dynamics are powerful approaches for the online solution of mathematical problems arising in many areas of science, engineering, and business.Compared with conventional gradient neural networks that only deal with static problems of constant coefficient matrices and vectors, the authors’ new method called zeroing dynamics solves time-varying problems.Zeroing Dynamics, Gradient Dynamics, and Newton Iterations is the first book that shows how to accurately and efficiently solve time-varying problems in real-time or online using continuous- or discrete-time zeroing dynamics.The book brings together research in the developing fields of neural networks, neural dynamics, computer mathematics, numerical algorithms, time-varying computation and optimization, simulation and modeling, analog and digital hardware, and fractals. The authors provide a comprehensive treatment of the theory of both static and dynamic neural networks.Readers will discover how novel theoretical results have been successfully applied to many practical problems.The authors develop, analyze, model, simulate, and compare zeroing dynamics models for the online solution of numerous time-varying problems, such as root finding, nonlinear equation solving, matrix inversion, matrix square root finding, quadratic optimization, and inequality solving.

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  • Fluid Dynamics
    Fluid Dynamics

    This book presents a focused, readable account of the principal physical and mathematical ideas at the heart of fluid dynamics.Graduate students in engineering, applied math and physics taking their first graduate course in fluids will find this book invaluable in providing the background in physics and mathematics necessary to pursue advanced study.The exposition follows an arc through the subject building towards a detailed derivation of the Navier–Stokes and energy equations followed by many examples of their use in studying the dynamics of fluid flows.Modern tensor analysis is used to simplify the mathematical derivations thus allowing a clearer view of the physics.The motivation behind many fundamental concepts such as Bernoulli's equation and the stream function are included.Many exercises are designed with a view toward using MATLAB® or equivalent to simplify and extend the analysis of fluid motion including developing flow simulations based on techniques described in the book.

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  • Microsystems Dynamics
    Microsystems Dynamics

    In recent years microelectromechanical systems (MEMS) have emerged as a new technology with enormous application potential.MEMS manufacturing techniques are essentially the same as those used in the semiconductor industry, therefore they can be produced in large quantities at low cost.The added benefits of lightweight, miniature size and low energy consumption make MEMS commercialization very attractive. Modeling and simulation is an indispensable tool in the process of studying these new dynamic phenomena, development of new microdevices and improvement of the existing designs.MEMS technology is inherently multidisciplinary since operation of microdevices involves interaction of several energy domains of different physical nature, for example, mechanical, fluidic and electric forces.Dynamic behavior of contact-type electrostatic microactuators, such as a microswitches, is determined by nonlinear fluidic-structural, electrostatic-structural and vibro-impact interactions.The latter is particularly important: Therefore it is crucial to develop accurate computational models for numerical analysis of the aforementioned interactions in order to better understand coupled-field effects, study important system dynamic characteristics and thereby formulate guidelines for the development of more reliable microdevices with enhanced performance, reliability and functionality.

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  • Structural Dynamics
    Structural Dynamics

    Dynamics is increasingly being identified by consulting engineers as one of the key skills which needs to be taught in civil engineering degree programs.This is driven by the trend towards lighter, more vibration-prone structures, the growth of business in earthquake regions, the identification of new threats such as terrorist attack and the increased availability of sophisticated dynamic analysis tools. Martin Williams presents this short, accessible introduction to the area of structural dynamics.He begins by describing dynamic systems and their representation for analytical purposes.The two main chapters deal with linear analysis of single (SDOF) and multi-degree-of-freedom (MDOF) systems, under free vibration and in response to a variety of forcing functions.Hand analysis of continuous systems is covered briefly to illustrate the key principles.Methods of calculation of non-linear dynamic response is also discussed.Lastly, the key principles of random vibration analysis are presented – this approach is crucial for wind engineering and is increasingly important for other load cases.An appendix briefly summarizes relevant mathematical techniques.Extensive use is made of worked examples, mostly drawn from civil engineering (though not exclusively – there is considerable benefit to be gained from emphasizing the commonality with other branches of engineering).This introductory dynamics textbook is aimed at upper level civil engineering undergraduates and those starting an M.Sc. course in the area.

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  • What is kinematics and dynamics?

    Kinematics is the branch of physics that deals with the motion of objects without considering the forces that cause the motion. It focuses on describing the position, velocity, and acceleration of objects as they move through space and time. On the other hand, dynamics is the branch of physics that deals with the forces and torques that cause motion. It involves studying how forces and torques affect the motion of objects, including how they cause changes in velocity and acceleration. In summary, kinematics describes the motion of objects, while dynamics explains the forces and torques that cause that motion.

  • What is inelastic collision dynamics?

    In an inelastic collision, kinetic energy is not conserved, and some of the initial kinetic energy is transformed into other forms of energy, such as thermal or sound energy. This results in the objects sticking together after the collision, or deforming and losing some of their initial kinetic energy. Inelastic collisions are characterized by a decrease in kinetic energy and the objects involved experiencing a change in shape or structure. The dynamics of inelastic collisions can be described using the principles of conservation of momentum and conservation of kinetic energy.

  • What do you understand by dynamics?

    Dynamics refers to the forces or factors that contribute to the overall behavior or change within a system. It involves the interactions and relationships between different elements that influence the system's behavior over time. Dynamics can encompass a wide range of elements, such as movement, energy, growth, and change, and can be observed in various systems, including physical, biological, social, and economic systems. Understanding dynamics is essential for predicting and managing the behavior of complex systems.

  • What is the dynamics in physics?

    Dynamics in physics refers to the branch of mechanics that deals with the study of motion and the forces that cause it. It involves analyzing how objects move and understanding the factors that influence their motion, such as acceleration, velocity, and momentum. By studying dynamics, physicists can predict the behavior of objects in motion and explain the underlying principles that govern their movement.

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