Csharp-Threading

Resources

Python Multiprocessing vs Multithreading: When to Use EachJun 03, 2026. Learn the differences between Python Multiprocessing and Multithreading. Understand the GIL, CPU-bound vs I/O-bound tasks, performance, and best use cases.
How to Implement Thread-Safe Singleton Design Pattern with LazyApr 08, 2026. Master thread-safe Singleton implementation in C# using Lazy! Learn how to create a single instance class in multi-threaded apps efficiently and avoid common pitfalls. Boost performance with lazy initialization.
Debugging AI-Generated Code: A Guide for DevelopersApr 03, 2026. With the rise of AI tools like ChatGPT, developers can generate code faster than ever. However, this speed comes with a new responsibility—debugging and validating AI-generated code. This article provides a practical guide to identifying and fixing issues in AI-generated code using real-world C# examples. It covers common pitfalls such as missing validations, edge-case failures, and incorrect business logic. Additionally, it demonstrates how to ensure code reliability through unit testing with xUnit and implements a real-world ASP.NET API scenario. The article emphasizes the importance of developer judgment, testing, and debugging skills in the AI era, ensuring that generated code is not just functional but production-ready.
What is the Difference Between Task and Thread in C#?Apr 01, 2026. Unlock C# concurrency! Master the difference between Tasks and Threads with our easy-to-understand guide. Boost performance & write scalable .NET apps.
Immutability: The Secret Weapon for Reliable C# ApplicationsMar 29, 2026. Unlock the power of immutability in C# for building reliable applications! Learn how immutable objects prevent bugs, ensure thread safety, and simplify debugging. Master the secret weapon for robust .NET software.
Difference between Task and Thread in C#Mar 26, 2026. Unlock the secrets of C# concurrency! Explore the Task vs. Thread differences, performance implications, and best practices for efficient, scalable applications.
Parallel LINQ (PLINQ) in C#: Unlocking Multi-Core PerformanceMar 23, 2026. Unlock multi-core performance in C# with Parallel LINQ (PLINQ). Learn how to parallelize LINQ queries with .AsParallel() for CPU-bound tasks and improve performance. Explore its advantages and disadvantages.
5 Hidden Async & Threading Mistakes in .NET That Break Real ApplicationsMar 15, 2026. Uncover 5 hidden .NET async/threading pitfalls that can silently break real-world applications. Learn to avoid deadlocks, thread pool exhaustion, and performance issues for robust, scalable systems.
What Is the Difference Between Task and Thread in C#?Feb 23, 2026. Explore the core differences between Task and Thread in C#. Learn when to use each for optimal concurrency, scalability, and performance in your C# applications.
How to Improve Performance with Threading in .NETFeb 20, 2026. Unlock .NET performance! Master threading & parallel programming for responsive & efficient apps. Learn Task-based approaches & avoid common pitfalls. Build scalable systems!
The Restaurant Kitchen Guide to C#: Threads, Tasks, and Avoiding the Dreaded DeadlockFeb 20, 2026. Master C# concurrency! This restaurant kitchen analogy demystifies Threads, Tasks, async/await, and deadlocks. Learn when to use Task.Run() and avoid .Wait() for responsive apps.
How Does Threading Work in C#?Feb 17, 2026. Unlock C# threading! Learn how to build responsive, scalable .NET apps using threads, Thread Pool, and TPL. Master async/await and synchronization for peak performance.
Async/Await Best Practices in C#: Writing Scalable and Responsive ApplicationsFeb 12, 2026. Master C# async/await for scalable apps! Learn best practices for I/O, error handling, and avoiding deadlocks. Build responsive and high-performance .NET applications.
Using Cache in C# with ConcurrencyJan 20, 2026. Explore C# caching with concurrency! Learn how to use ConcurrentDictionary, handle cache expiration, and prevent duplicated work using SemaphoreSlim for thread safety.
How Do Developers Debug ANR (App Not Responding) Issues on Android 14 Devices?Jan 19, 2026. Tackle Android 14 ANRs! Learn to debug App Not Responding errors with Google Play Console, Logcat, StrictMode, and Android Studio Profiler. Optimize your app now!
Singleton Design Pattern in C# – Simple and Easy Explanation 🔒Jan 17, 2026. Master the Singleton pattern in C#! This guide offers a simple, thread-safe implementation, real-world examples, and key rules for efficient coding. Ensure single instance!
Top 3 Legit Ways Developers & Students Can Earn in 2026 (No Hype — Real Opportunities)Jan 02, 2026. Developers and students can earn in 2026 through real, skill-based and value-driven opportunities. This article explores micro-work, contribution-based earning, and building digital assets — focusing on growth, learning, community and sustainable income.
C# LINQ: .ToList() vs .ToListAsync() - Threading Model Analysis and Performance OptimizationDec 29, 2025. Unlock C# LINQ performance! Discover the crucial differences between .ToList() and .ToListAsync() for optimal threading, scalability, and I/O efficiency. Boost your app's responsiveness!
C# 14- Beyond Methods: Exploring Advanced Extension Member ScenariosDec 25, 2025. Unlock the power of C# 14 extension members beyond basic methods! Discover advanced techniques for cleaner APIs, fluent design, and improved code readability. Elevate your C# skills!
How to Design a Redis Cache Strategy for Scalable Applications (With C# Examples)Dec 23, 2025. Learn how to design a production ready Redis cache strategy using cache aside pattern, TTLs, and best practices. Includes real C# examples using Redis for scalable systems.
C# Timers Explained: PeriodicTimer vs. System.Timers.Timer vs. System.Threading.TimerDec 24, 2025. Demystifying C# Timers! Learn the differences between PeriodicTimer, System.Timers.Timer, and System.Threading.Timer. Choose the right timer for your needs in 2026!
Differences Between asyncio, Multiprocessing, and Threading in PythonDec 16, 2025. Learn the key differences between asyncio, threading, and multiprocessing in Python. This beginner-friendly guide explains how each concurrency model works, when to use them, and includes simple code examples for real-world use cases.
Return First: A Clean-Code MindsetDec 08, 2025. Clean Code Principles in .NET : Introduce how Return First fits into modern clean code practices and why it matters for .NET developers. Reducing Complexity with Guard Clauses : Explain how guard clauses simplify methods, reduce nesting, and improve readability. Real-World .NET Examples : Provide practical before after code samples from controllers, services, and validation flows to demonstrate the impact. Improving Maintainability and Debugging : Show how early returns make debugging easier and help ensure consistent business rules. When Return-First Should NOT Be Used : Clarify edge cases where early-return might not be ideal important for a balanced, senior level approach.
Difference Between Task, ValueTask, and Thread in C#?Dec 04, 2025. Unlock the secrets of asynchronous programming in C#! Learn the differences between Task, ValueTask, and Thread, and choose the right tool for optimal performance.
MultiThreading in WPFNov 04, 2025. MultiThreading in WPF
Chapter 25: Advanced Browser Features: Web Workers & IndexedDBOct 23, 2025. Unlock the power of advanced browser features! This chapter delves into Web Workers for background processing, enabling responsive UIs by offloading tasks from the main thread. Explore IndexedDB, a robust client-side NoSQL database, perfect for managing complex data and building offline-first applications. Learn to overcome the limitations of Local Storage and enhance your web application's performance and data handling capabilities with these essential APIs.
Why not use Dictionaries in Multi-Thread AppsOct 06, 2025. Explore safer alternatives like ConcurrentDictionary for thread-safe mutable access with fine-grained locking, and ImmutableDictionary for guaranteed thread safety through immutability. Understand the performance trade-offs between speed and safety when choosing the right collection type for concurrent operations.
Mastering Async/Await For Robust And Scalable .NET AppsOct 03, 2025. This article explains how to properly leverage async/await for scalable applications. Learn to avoid common pitfalls like thread pool exhaustion and connection pool bottlenecks. Discover best practices for ConfigureAwait, database connections, and end-to-end async implementation.
Async and Await in C#Sep 22, 2025. This comprehensive guide simplifies complex concepts, demonstrating how to write responsive and scalable applications. Learn to handle I/O-bound and CPU-bound operations efficiently using Tasks and the Thread Pool. Discover practical tips and best practices for avoiding deadlocks and ensuring smooth user experiences in real-world scenarios like e-commerce and banking apps.
CSharp (C#) and Generative AI: From Legacy Visual Studio to Modern Enterprise AISep 21, 2025. Explore the intersection of legacy .NET systems and modern Generative AI. Learn how C# developers are using prompt engineering to bridge the gap between Visual Studio 2005/2006 and .NET 6/7/8, extending the life of older systems while innovating with AI-driven capabilities. Discover hybrid AI scenarios and the future of C# development.
What are child processes, worker threads, and clustering in Node.js?Aug 18, 2025. This article explains what child processes, worker threads, and clustering are in Node.js. It uses simple words and examples to help you understand how they work and when to use them.
Master C# from Basics to Advanced | Complete C# Learning Path with Algorithms & Real-World SkillsAug 17, 2025. Learn C# step by step! From basics to advanced concepts with 20+ algorithms, OOP, LINQ, async, desktop & web app development.
Why is Node.js single-threaded, and how does it handle concurrency?Aug 13, 2025. This article explains in simple words why Node.js is designed to be single-threaded, the role of its event-driven architecture, and how it achieves concurrency using the event loop, asynchronous operations, and non-blocking I/O. Includes clear explanations and code examples in JavaScript.
Synchronous vs Asynchronous Programming with CPU-bound & I/O-bound ExamplesAug 13, 2025. Learn the differences between synchronous and asynchronous programming in C#, explore CPU-bound vs I/O-bound tasks, and master async/await with real-life analogies, examples, performance tips, and a clear comparison table.
How the Event Loop Works in JavaScript?Aug 12, 2025. An in-depth guide to JavaScript’s event loop—how a single-threaded language manages concurrency using the call stack, callback queue, and event loop, both in browsers and Node.js. Includes explanations, diagrams, and related C# Corner articles for further reading.
Building an Invoice Entry System with Angular, ASP.NET Core, Dapper, CQRS, and SQL ServerAug 12, 2025. Learn how Vibe Coding revolutionizes retail merchandising by replacing static seasonal plans with AI-powered, multi-agent systems that detect trends, align inventory, adjust pricing, and personalize catalogs in real time.
Difference Between Task, async/await, and Threading in .NETAug 06, 2025. This article explains the core differences between Task, async/await, and traditional Threading in .NET. Learn how they work, when to use each, and how they impact performance, scalability, and readability in your C# applications, with simple explanations and practical code examples.
What is Node.js ArchitectureJul 09, 2025. Node.js is a fast and lightweight runtime that executes JavaScript on the server side. Its single-threaded, event-driven, non-blocking architecture makes it ideal for real-time, scalable, and efficient web applications.
Common Language Runtime (CLR) in .NETJul 02, 2025. The Common Language Runtime (CLR) is the core of .NET, managing code execution, memory, security, and cross-platform compatibility. It compiles IL to native code, enabling safe, efficient app performance.
Main Features of Node.js – Explained SimplyJun 30, 2025. Node.js is a fast, open-source runtime for server-side JavaScript. Its single-threaded, non-blocking, event-driven architecture makes it ideal for building scalable, high-performance, real-time applications across platforms.
Thread-Safe Counters and Flags Using Interlocked in .NETApr 23, 2025. Learn how .NET's Interlocked class enables lock-free, thread-safe operations for counters, flags, and atomic updates—perfect for lightweight concurrency control in multithreaded applications without risking race conditions.
C# Singleton Pattern: One Instance to Rule Them AllApr 16, 2025. The Singleton Design Pattern in C# ensures only one instance of a class exists and provides a global access point. It's ideal for managing shared resources like logging, configuration, or database connections.
Google Developer Group, CSharp & HackIndia: Expand Web3 & AI Student Developer Reach in IndiaMar 24, 2025. GDG Partners with HackIndia to expand its reach to student developers across India.
The Object Oriented ProgrammingMar 17, 2025. The Object Oriented Programming (OOP)  improves the scalability and reusability of the code. This comprise of class and objects.
Understanding Context Manager in PythonMar 15, 2025. ?Python's context managers, implemented via the statement, ensure efficient resource management by automating setup and teardown operations, such as opening and closing files, even when exceptions occur.
CSharp.com Unveils Real-World Web3 Skills Credentialing and Certifications to Empower Developers and Simplify HiringDec 31, 2024. CSharp.com unveils real-world Web3 skills credentialing and certifications to empower software developers and streamline the hiring process for employers.
Enhancing Performance and Responsiveness Using Threading in C#Dec 23, 2024. Discover how to use threading in C# to make your applications faster and more responsive by running multiple tasks at the same time. Learn key concepts, practical examples, and best practices.
Understanding Parallel.For Method in c#Dec 23, 2024. Parallel.For in C# allows executing loops in parallel, improving performance by utilizing multiple processors or cores. It enhances scalability but introduces overhead and requires thread safety for shared resources.
Implementing Background Tasks in PythonDec 16, 2024. This article covers key concepts like concurrency, task queues, and process management, helping you execute time-consuming tasks efficiently without blocking your main program flow.
Enhancing Performance and Responsiveness Using Threading in C# Dec 13, 2024. Discover how to use threading in C# to make your applications faster and more responsive by running multiple tasks at the same time.
What's New in ASP.NET Core 9?Nov 15, 2024. C# 13 enhances developer productivity with features like flexible params collections, scoped locks, and partial properties, allowing for streamlined coding, improved performance, and robust thread safety.
Boyer-Moore Majority Vote AlgorithmOct 21, 2024. The Boyer-Moore Majority Vote Algorithm efficiently finds elements appearing more than a fraction of the time in linear time and constant space, using two candidates and counters to track occurrences.
Explaning Bucket Sort AlgorithmOct 21, 2024. The `BucketSort` class implements the bucket sort algorithm, which distributes elements into buckets, sorts them, and merges the sorted buckets. It's efficient for uniformly distributed data, with potential quadratic complexity in the worst case.
An overview of the Task Parallel Library (TPL) in C#Sep 17, 2024. The Task Parallel Library (TPL) is a collection of public types and APIs within the .NET framework that facilitates the integration of parallelism and concurrency into applications.
Virtual Threads in Java JDKSep 08, 2024. Java Virtual Threads, introduced in Project Loom, offer a lightweight alternative to traditional platform threads by allowing the JVM to manage threads instead of the OS. This improves scalability and resource efficiency, enabling applications to handle thousands of concurrent tasks with minimal overhead.
Difference between lock(this) and lock(privateObj) in C#Aug 22, 2024. In multi-threaded C# programming, the lock statement ensures that critical code sections are accessed by only one thread at a time. While lock(this) locks on the current instance, it can expose your object to external locking, leading to potential deadlocks.
async, await, ConfigureAwait(true/false) Asynchronous Programming in C#Aug 12, 2024. Explore asynchronous programming in C# with a focus on async and await keywords. Learn how to use ConfigureAwait(true/false) to manage context switching and avoid deadlocks.
Explain Multiprocessing in PythonAug 09, 2024. Explore Python's multiprocessing module to achieve parallelism and optimize CPU-bound tasks. Learn how to create and manage processes, utilize process pools, and improve performance through concurrent programming.
Multithreading in C# Task Creation Using LoopAug 06, 2024. This article introduces multithreading in C# using the Task class from the Task Parallel Library (TPL). It explains creating and executing tasks serially within a loop, ensuring tasks are completed sequentially. An example demonstrates task creation and simulating work with delays.
Understanding Multithreading with the Thread Class in C#Aug 06, 2024. Learn how to implement multithreading in C# using the Thread class. This guide covers creating and managing threads, passing parameters, handling exceptions, and using Task for simplified parallelism. Improve your application's performance by understanding these core concepts and techniques.
Intra-process vs Inter-process Synchronization in C#Jul 31, 2024. In C#, intra-process synchronization involves managing concurrency within a single process using tools like lock, Mutex, and Semaphore. Inter-process synchronization deals with coordination between separate processes using similar mechanisms.
Implementing Thread-Safe Dynamic ArraysJul 31, 2024. Implementing thread-safe, dynamically resizable arrays in C ensures data integrity in multi-threaded applications. Utilize mutex locks for synchronization, condition variables for state management, and resize arrays dynamically to handle concurrent access efficiently.
Java 21: The Latest Features and ImprovementsJul 26, 2024. Java 21 introduces significant enhancements including Pattern Matching for Switch, Record Patterns, and String Templates. It also features Sequenced Collections, Virtual Threads, and Scoped Values, streamlining concurrent programming and improving code efficiency.
Singleton Design Pattern: Detailed Explanation and Practical ExamplesJul 24, 2024. The Singleton Design Pattern ensures a class has only one instance and provides global access to it. Implementations include Basic Singleton, Thread-Safe Singleton with synchronization, Double-Checked Locking, and Bill Pugh Singleton using a static inner class.
Create a Comment Thread Like Yammer/Viva Engage in PowerAppsJul 24, 2024. This guide covers integration with Microsoft 365 tools, setting up social collaboration features, and developing custom business applications to streamline enterprise communication.
Enhancing Performance and Safety with System.Threading.Lock in .NET 9 and C# 13Jul 22, 2024. Explore the new System.Threading.Lock in .NET 9 and C# 13 for enhanced multithreading performance and safety. This article covers its benefits, compiler warnings for misuse, and best practices for locking in older versions.
Task Scheduling with System.Threading.Timer in .NETJul 21, 2024. Efficient task scheduling is essential for many applications, whether you're building background services, automated tasks, or periodic data processing. In .NET, the System.Threading.Timer class provides a powerful and straightforward way to schedule tasks to run at specific intervals.
Harnessing Efficiency: Lazy Initialization in C# .NETJul 17, 2024. Learn about lazy initialization in C# .NET—a vital design pattern that defers object creation until it's needed, optimizing performance and memory usage. Implementing with Lazy<T> ensures thread safety and responsiveness, ideal for applications needing efficient resource management and scalability.
Injecting Dependencies of Different Lifetimes in .NET ApplicationsJul 09, 2024. Understanding dependency lifetimes in .NET is crucial for effective dependency injection. Singleton instances persist throughout the application's lifespan, scoped instances are tied to specific requests, and transient instances are short-lived.
Multi-Threading (5), --- SummaryJul 08, 2024. This article will summarize the multi-threading.
Benefits of Locking and Unlocking Objects in C#Jul 02, 2024. Object locking in C# ensures controlled access to shared resources in multithreaded environments, preventing race conditions and maintaining data integrity. By using the lock statement, you can synchronize threads, ensuring thread safety and avoiding deadlocks.
Understanding Threads and Multithreading in JavaJun 26, 2024. This article explains the concepts of threads and multithreading in Java, highlighting their benefits, lifecycle, and examples, along with the advantages and disadvantages of using multithreading in programming.
Synchronizing Threads with AutoResetEvent in C# .NETJun 23, 2024. In multithreaded C# applications, synchronizing thread execution is crucial to avoid race conditions and ensure controlled access to shared resources. The AutoResetEvent class helps manage this by acting like a gate, blocking threads until signaled.
Performance Optimization in ASP.NET MVC ApplicationsJun 15, 2024. Performance optimization in ASP.NET MVC involves techniques like efficient data access, using Entity Framework wisely, implementing caching, using async/await for non-blocking operations, minimizing ViewState, bundling and minifying resources, enabling GZIP compression, optimizing queries.
The One Behind Concurrency in C#Jun 04, 2024. The Thread Pool in C# simplifies concurrency by managing threads for you. Unlike creating and managing threads yourself, the Thread Pool offers a pool of reusable threads, improving performance and reducing complexity. It's ideal for short-lived tasks like calculations or processing data.
Understanding Threads and Processes: A Guide to MultiprocessingMay 28, 2024. Multiprocessing revolutionizes computing by allowing CPUs to handle multiple tasks concurrently. Explore process-based and thread-based multiprocessing, their characteristics, key differences, and practical applications.
Working with Concurrent Hash Map in JavaMay 22, 2024. ConcurrentHashMap in Java is a thread-safe Map implementation that allows concurrent access and modification by multiple threads without external synchronization, ideal for multi-threaded environments.
A Different Perspective of Stack Memory in .NETMay 19, 2024. A Different Perspective of Stack Memory in .NET" explores the intricacies of stack memory management within the .NET framework. It delves into the differences between stack and heap, the role of value and reference types, stack frames, and performance optimization.
Understanding Thread Synchronization in Concurrent ProgrammingMay 18, 2024. Thread synchronization in C# ensures safe, correct access to shared resources in concurrent programming, preventing race conditions, data corruption, deadlocks, and livelocks through various mechanisms like locks, monitors, and semaphores.
Under The Hood Of Thread Synchronization With LOCKMay 15, 2024. The LOCK keyword is the most popular mutual-exclusive thread synchronization construct. The LOCK statement in C# is crucial for thread synchronization, preventing race conditions by restricting access to shared resources. Under the hood, it translates to the Monitor class, enhancing code efficiency and reliability.
Monitor Class as Hybrid Synchronization Construct in .NETMay 14, 2024. The Monitor class is hybrid thread synchronization construct. So, it provides a mutual-exclusive lock supporting spinning, thread ownership, and recursion.
Concepts of Threads, Thread Pools, and Tasks in C#May 13, 2024. Threads are the smallest units of execution, enabling concurrency but requiring manual management. Thread pools efficiently manage threads for short-lived tasks, while tasks abstract asynchronous operations for responsive applications.
Introduction to Monitor Class in C#May 13, 2024. The Monitor class is built on dotNET’s FCL (Framework Class Library) infrastructure. In general, it provides to achieve thread safety.
Deep Dive Into Race Condition Problem in .NETMay 09, 2024. In a multithreading environment, there are many benefits and challenges to consider. In our case, we will focus on one of the most popular challenges the Race Condition Problem.
Understanding of ConcurrentDictionary in .NETMay 08, 2024. Everything is becoming more concurrent, so usually server-based(or multithreaded environments) applications are faced with non-thread-safe problems such as race condition.
Maximizing Efficiency with Thread Pooling in C# ProgrammingMay 03, 2024. This article explores thread pooling in C#, focusing on its efficiency benefits in concurrent programming. It discusses its importance, implementation using C#, and best practices for optimal performance and scalability.
Best Practices for Threading in .NET C#Apr 24, 2024. Threading is a powerful feature in .NET C# that allows developers to execute multiple tasks concurrently. In this article, we'll explore best practices for managed threading in .NET C#, covering topics such as thread safety, synchronization, and performance optimization.
ConcurrentBag<T> in C#: Thread-Safe Collection GuideApr 23, 2024. In the world of concurrent programming in C#, managing data safely across multiple threads is a paramount concern. In this article, we'll delve into ConcurrentBag<T>, its usage, and provide simple examples to help developers grasp its concepts more effectively.
Understanding the Python Global Interpreter Lock (GIL)Apr 23, 2024. The Python Global Interpreter Lock (GIL) is like a traffic cop inside your computer that makes sure only one thing happens at a time in Python, even if your computer has multiple processors.
ConcurrentBag<T> in C#: Thread-Safe Collection for ConcurrencyApr 23, 2024. Concurrent programming in C# often involves managing shared data among multiple threads. In this article, we'll delve into what ConcurrentBag<T> is, how it works, and when to use it.
Exploring the ConcurrentQueue<T> Class in .NET C#Apr 22, 2024. In multi-threaded programming, thread safety and efficient data sharing are critical considerations to ensure smooth and reliable application execution. This article dives into the features, usage, and benefits of the ConcurrentQueue<T> class in .NET C#.
Queue & Dequeue with Concurrent Dictionary in .NET CoreApr 20, 2024. In multi-threaded applications, efficient handling of concurrent data structures is crucial to ensure thread safety and performance. While .NET Core provides a variety of thread-safe collections, each with its own strengths and use cases, there are scenarios where we might need to implement queue and dequeue functionality.
Exploring the Fundamentals of Concurrent Programming in .NETApr 19, 2024. Concurrency is vital for efficient applications. .NET offers Thread, Multithreading, Task, Async & Await, Threadpool, Lock, and Deadlock tools. Understanding them enhances .NET development for scalable and responsive apps.
Singleton vs. Static Class in C# - Choosing the Right ApproachApr 17, 2024. Singleton and Static classes can only have one instance available in memory, and both classes can be used to maintain the global state of an application, however, there are many differences between them. In this article, I explain what their differences are.
.NET Synchronous vs AsynchronousApr 04, 2024. Synchronous programming in .NET involves sequential execution, blocking the current thread until a task completes. Asynchronous programming, on the other hand, enables non-blocking execution, improving responsiveness by allowing tasks to execute independently.
Optimizing Dynamics 365: Thread Jobs for Multiple Record Updates Mar 27, 2024. In this article, we will learn how to utilize Thread Jobs for Updating Multiple Records in Dynamics 365 using PowerShell Script. Retrieving all Contact Records and Updating First and Last Names using Threads.
Learn about Asynchronous Events in C#Mar 20, 2024. Explore asynchronous event invocation in C#, addressing threading challenges with event handlers. Learn about the synchronous nature of events, concurrency issues, and solutions using TPL and TAP. Ideal for intermediate C# programmers seeking to optimize event-driven applications.
Better Implementation Of Singleton Pattern in .NETFeb 27, 2024. This article explains the mistakes made in writing Singleton Pattern in the multithreaded environment create a bug and how to bring a solution to it.
Multithreading in C#: Processes, Threads, and Performance OptimizationFeb 07, 2024. In this article, we will learn to Explore how threads are managed, synchronized, and executed at the kernel level, shedding light on the core mechanisms of concurrency and parallelism.
Understanding and Managing Server-Side (Output) Caching in .NetJan 15, 2024. IIS employs System.Web.Caching for efficient output caching. Utilize HttpRuntime.Cache.Insert for CRUD operations, specifying key, value, and optional parameters like dependencies, absolute expiration, and sliding expiration for optimization.

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