<--- Back to Details
First PageDocument Content
Concurrency control / Computing / Computer architecture / Computer programming / Synchronization / Linearizability / Memory barrier / Parallel computing / Mutual exclusion / Critical section / Lock / Thread
Date: 2018-01-15 09:26:26
Concurrency control
Computing
Computer architecture
Computer programming
Synchronization
Linearizability
Memory barrier
Parallel computing
Mutual exclusion
Critical section
Lock
Thread

Pattern-based Synthesis of Synchronization for the C++ Memory Model Yuri Meshman Noam Rinetzky

Add to Reading List

Source URL: practicalsynthesis.github.io

Download Document from Source Website

File Size: 325,47 KB

Share Document on Facebook

Similar Documents

Computing / Computer architecture / Computer memory / Concurrency / Parallel computing / Concurrent computing / Memory barrier / Synchronization / Data dependency / Microarchitecture / Register renaming / Memory model

Understanding POWER Multiprocessors Susmit Sarkar1 1 Peter Sewell1

DocID: 1rpAG - View Document

Software engineering / Software / Computing / Memory management / Subroutines / Automatic memory management / Garbage collection / Jikes RVM / Computing platforms / Reference counting / Garbage / Write barrier

University of London Imperial College London of Science, Technology and Medicine Department of Computing Soft Real-time Garbage Collection for Dynamic Dispatch Languages

DocID: 1rlOP - View Document

Computing / Computer architecture / Software engineering / X86 architecture / Computer memory / Low-level programming language / Spinlock / X86 / Assembly language / Memory barrier / Memory ordering / Exit

The Semantics of x86-CC Multiprocessor Machine Code Susmit Sarkar1 Scott Owens1 Tom Ridge1

DocID: 1r4yz - View Document

Computing / Computer architecture / Computer memory / Transaction processing / Concurrency / Cache coherency / MESI protocol / Memory ordering / Consistency model / Cache coherence / Linearizability / Memory barrier

Review of last lecture  Architecture case studies  Memory performance is often the bottleneck  Parallelism grows with compute performance

DocID: 1qSE1 - View Document

Computing / Computer memory / Memory barrier / Static single assignment form / Symbolic execution / Computer engineering

Partial Orders for Efficient Bounded Model Checking of Concurrent Software? Jade Alglave1 , Daniel Kroening2 , and Michael Tautschnig3 1 3

DocID: 1qKim - View Document