Technical Reports (CIS)
Title
Unrestricted Transactional Memory:Supporting I/O and System Calls within Transactions
Document Type
Technical Report
Date of this Version
May 2006
Abstract
Hardware transactional memory has great potential to simplify the creation of correct and efficient multithreaded programs, enabling programmers to exploit the soon-to-be-ubiquitous multi-core designs. Transactions are simply segments of code that are guaranteed to execute without interference from other concurrently-executing threads. The hardware executes transactions in parallel, ensuring non-interference via abort/rollback/restart when conflicts are detected. Transactions thus provide both a simple programming interface and a highly-concurrent implementation that serializes only on data conflicts. A progression of recent work has broadened the utility of transactional memory by lifting the bound on the size and duration of transactions, called unbounded transactions. Nevertheless, two key challenges remain: (i) I/O and system calls cannot appear in transactions and (ii) existing unbounded transactional memory proposals require complex implementations.
We describe a system for fully unrestricted transactions (i.e., they can contain I/O and system calls in addition to being unbounded in size and duration). We achieve this via two modes of transaction execution: restricted (which limits transaction size, duration, and content but is highly concurrent) and unrestricted (which is unbounded and can contain I/O and system calls but has limited concurrency because there can be only one unrestricted transaction executing at a time). Transactions transition to unrestricted mode only when necessary. We introduce unoptimized and optimized implementations in order to balance performance and design complexity.
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Date Posted: 02 March 2007
Comments
University of Pennsylvania Department of Computer and Information Science Technical Report No. TR-CIS-06-09.