Concept

Synchronization (computer science)

Related lectures (32)

Lock-Free Synchronization: Performance and Scalability

Explores lock-free synchronization for performance and scalability in distributed systems, covering unique identifier generation, messaging queues, and atomic RDMA reads.

Lock-Free Synchronization: Practical Insights

Explores the significance of lock-free synchronization for achieving low latency in distributed systems and discusses practical solutions for unique identifier generation and messaging queues.

Monitors: Synchronization and Cooperation

Explores monitors as a synchronization construct providing mutual exclusion and cooperation among threads, with examples like the one-place buffer.

Concurrency: Deadlock

Covers the concept of deadlock in concurrent programming and provides solutions to prevent them.

Atomic Operations: Basics and Applications

Covers the basics of atomic operations in concurrency and parallelism, including hardware-provided operations and synchronized algorithms.

Lock-free synchronization: Achieving low latency

Explores the significance of lock-free synchronization in achieving low latency and high performance in distributed systems.

Readers-writer Lock

Introduces the readers-writer lock for handling concurrency in scenarios with frequent reads and occasional updates.

Introduction to Multicore Processors

Covers the shift to multicore processors, processor-memory architecture, concurrency challenges, and synchronization problems in modern computing.

Parallel Computing: Principles and OpenMP

Covers the principles of parallel computing and introduces OpenMP for creating concurrent code from serial code.

Atomic execution: Synchronization in threads

Covers atomic execution in threads, race conditions, shared variables, and synchronized blocks.

Advanced Synchronization & Transactional Memory

Covers advanced synchronization techniques, atomic operations, lock implementations, and hardware support for queue locks.

One place buffer: Producer-consumer queue

Introduces the concept of a one-place buffer in concurrent programming.

Concurrency and Mutual Exclusion

Covers the importance of concurrency, atomic operations, and mutual exclusion using locks.

Synchronization: Locks and Barriers

Explores synchronization principles using locks and barriers, emphasizing efficient hardware-supported implementations and coordination mechanisms like OpenMP.

Synchronization Primitives

Explores the design of synchronization primitives and concurrent data structures using atomic instructions.

Locking

Explores the concept of locking for mutual exclusion in OS, covering race conditions, parallelism, atomic instructions, deadlock prevention, and best practices.

Parallel Programming I

Covers the basics of parallel programming, including concurrency, forms of parallelism, synchronization, and programming models like PThreads and OpenMP.

Concurrency Primitives and Pitfalls

Explores concurrency primitives, mutual exclusion, and synchronization pitfalls in operating systems, focusing on condition variables and semaphores.

Concurrency: Executors and Mutual Exclusion

Explores executors as efficient thread alternatives and delves into mutual exclusion properties in Scala and JVM.

Money Transfers: Synchronized Global Log

Explains the synchronized approach to log money transfers in an online banking system.