Products related to Hardware:
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PLC Hardware and Programming
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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
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
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Which hardware is suitable for a Linux Minecraft server?
A dedicated server with a multi-core processor, at least 8GB of RAM, and a solid-state drive (SSD) would be suitable for hosting a Linux Minecraft server. The multi-core processor will handle the server's processing demands, while the RAM will ensure smooth gameplay for multiple players. An SSD will provide faster read/write speeds, reducing lag and improving overall server performance. Additionally, a reliable internet connection with sufficient bandwidth is essential for a smooth gaming experience.
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Which hardware is suitable for programming?
For programming, a suitable hardware would be a computer with a fast processor, ample RAM, and a good amount of storage space. A laptop or desktop with a multi-core processor, such as an Intel Core i5 or i7, would be ideal for handling the demands of programming. Additionally, having at least 8GB of RAM and a solid-state drive (SSD) for faster data access and program loading would be beneficial. A good graphics card is not necessary for programming unless you are also doing graphic-intensive tasks such as game development or 3D modeling.
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"Is my hardware sufficient for programming?"
The sufficiency of your hardware for programming depends on the specific requirements of the programming tasks you want to perform. Generally, a modern computer with a decent amount of RAM (8GB or more) and a fast processor (i5 or higher) should be sufficient for most programming tasks. However, if you are working on more resource-intensive projects such as game development or machine learning, you may need more powerful hardware. It's also important to consider the specific software and tools you will be using, as some may have higher hardware requirements.
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What hardware aspects are important for programming?
When programming, important hardware aspects include a fast and reliable processor, sufficient RAM for running multiple applications and virtual machines, a high-quality keyboard and mouse for comfortable and efficient input, a large and high-resolution monitor for better visibility and multitasking, and a reliable storage device such as a solid-state drive for fast data access. Additionally, a stable internet connection is important for accessing online resources and collaborating with others. Overall, having a well-equipped and reliable computer setup can greatly enhance the programming experience and productivity.
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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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Linux System Programming
Write software that draws directly on services offered by the Linux kernel and core system libraries.With this comprehensive book, Linux kernel contributor Robert Love provides you with a tutorial on Linux system programming, a reference manual on Linux system calls, and an insider's guide to writing smarter, faster code.Love clearly distinguishes between POSIX standard functions and special services offered only by Linux. With a new chapter on multithreading, this updated and expanded edition provides an in-depth look at Linux from both a theoretical and applied perspective over a wide range of programming topics, including: A Linux kernel, C library, and C compiler overview Basic I/O operations, such as reading from and writing to files Advanced I/O interfaces, memory mappings, and optimization techniques The family of system calls for basic process management Advanced process management, including real-time processes Thread concepts, multithreaded programming, and Pthreads File and directory management Interfaces for allocating memory and optimizing memory access Basic and advanced signal interfaces, and their role on the system Clock management, including POSIX clocks and high-resolution timers
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Hardware
What are all the parts of a computer called and what do they all do Find out the answers to these questions and many more inside this book.An easy-to-understand guide that will have you sounding like an expert in no time Computers are everywhere from watches to satellites and toys to vacuum cleaners.Just knowing how to switch computers on is no longer enough.Start your knowledge journey right here in this series for kids who want to be right at the leading edge as computers evolve into the future.
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Mastering Embedded Linux Programming
Harness the power of Linux to create versatile and robust embedded solutionsAbout This Book• Create efficient and secure embedded devices using Linux• Minimize project costs by using open source tools and programs• Explore each component technology in depth, using sample implementations as a guideWho This Book Is ForThis book is ideal for Linux developers and system programmers who are already familiar with embedded systems and who want to know how to create best-in-class devices.A basic understanding of C programming and experience with systems programming is needed. What You Will Learn• Understand the role of the Linux kernel and select an appropriate role for your application• Use Buildroot and Yocto to create embedded Linux systems quickly and efficiently• Create customized bootloaders using U-Boot• Employ perf and ftrace to identify performance bottlenecks• Understand device trees and make changes to accommodate new hardware on your device• Write applications that interact with Linux device drivers• Design and write multi-threaded applications using POSIX threads• Measure real-time latencies and tune the Linux kernel to minimize themIn DetailMastering Embedded Linux Programming takes you through the product cycle and gives you an in-depth description of the components and options that are available at each stage.You will begin by learning about toolchains, bootloaders, the Linux kernel, and how to configure a root filesystem to create a basic working device.You will then learn how to use the two most commonly used build systems, Buildroot and Yocto, to speed up and simplify the development process.Building on this solid base, the next section considers how to make best use of raw NAND/NOR flash memory and managed flash eMMC chips, including mechanisms for increasing the lifetime of the devices and to perform reliable in-field updates.Next, you need to consider what techniques are best suited to writing applications for your device.We will then see how functions are split between processes and the usage of POSIX threads, which have a big impact on the responsiveness and performance of the final device The closing sections look at the techniques available to developers for profiling and tracing applications and kernel code using perf and ftrace. Style and approach This book is an easy-to-follow and pragmatic guide consisting of an in-depth analysis of the implementation of embedded devices.Each topic has a logical approach to it; this coupled with hints and best practices helps you understand embedded Linux better.
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What hardware does the server require?
The server requires hardware components such as a central processing unit (CPU), random access memory (RAM), storage drives (HDD or SSD), a network interface card (NIC), and a power supply unit (PSU). Additionally, servers may also need specialized hardware such as redundant power supplies, RAID controllers for data redundancy, and cooling systems to maintain optimal operating temperatures. The specific hardware requirements will depend on the server's intended use, such as a web server, database server, or file server.
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What is a hardware problem in a live kernel event?
A hardware problem in a live kernel event refers to an issue with the physical components of a computer system that causes the kernel to encounter an error or malfunction. This could include problems with the CPU, memory, storage devices, or other hardware components. Hardware problems in live kernel events can lead to system crashes, data corruption, and other issues that impact the stability and performance of the computer system. Troubleshooting and resolving hardware problems in live kernel events often requires diagnosing the specific component that is causing the issue and potentially replacing or repairing it.
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What is a hardware issue in a live kernel event?
A hardware issue in a live kernel event refers to a problem or malfunction related to the physical components of a computer system. This could include issues with the CPU, memory, hard drive, motherboard, or other hardware components. When a hardware issue occurs during a live kernel event, it can cause the system to crash, freeze, or behave unpredictably, leading to potential data loss or system instability. Troubleshooting hardware issues in live kernel events often involves diagnosing the faulty component and either repairing or replacing it to restore the system's functionality.
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Which hardware drivers are available for Linux?
Linux supports a wide range of hardware drivers, including those for graphics cards, network adapters, sound cards, and storage devices. Many hardware manufacturers provide open-source drivers for their products, while the Linux community also develops and maintains a large number of drivers. Additionally, the Linux kernel includes a vast number of built-in drivers, making it compatible with a diverse array of hardware components. Overall, Linux offers robust support for hardware drivers, making it a versatile operating system for a variety of devices.
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