Austen McDonald scite author profile

We propose signature-accelerated transactional memory (SigTM), a hybrid TM system that reduces the overhead of software transactions. SigTM uses hardware signatures to track the read-set and write-set for pending transactions and perform conflict detection between concurrent threads. All other transactional functionality, including data versioning, is implemented in software. Unlike previously proposed hybrid TM systems, SigTM requires no modifications to the hardware caches, which reduces hardware cost and simplifies support for nested transactions and multithreaded processor cores. SigTM is also the first hybrid TM system to provide strong isolation guarantees between transactional blocks and nontransactional accesses without additional read and write barriers in non-transactional code.Using a set of parallel programs that make frequent use of coarsegrain transactions, we show that SigTM accelerates software transactions by 30% to 280%. For certain workloads, SigTM can match the performance of a full-featured hardware TM system, while for workloads with large read-sets it can be up to two times slower. Overall, we show that SigTM combines the performance characteristics and strong isolation guarantees of hardware TM implementations with the low cost and flexibility of software TM systems.

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Architectural Semantics for Practical Transactional Memory

McDonald

Chung

Carlstrom

et al.

114

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An effective hybrid transactional memory system with strong isolation guarantees

Minh

Trautmann

Chung

et al. 2007

SIGARCH Comput. Archit. News

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The Atomos transactional programming language

et al. 2006

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Atomos is the first programming language with implicit transactions, strong atomicity, and a scalable multiprocessor implementation. Atomos is derived from Java, but replaces its synchronization and conditional waiting constructs with simpler transactional alternatives.The Atomos watch statement allows programmers to specify fine-grained watch sets used with the Atomos retry conditional waiting statement for efficient transactional conflict-driven wakeup even in transactional memory systems with a limited number of transactional contexts. Atomos supports open-nested transactions, which are necessary for building both scalable application programs and virtual machine implementations.The implementation of the Atomos scheduler demonstrates the use of open nesting within the virtual machine and introduces the concept of transactional memory violation handlers that allow programs to recover from data dependency violations without rolling back.Atomos programming examples are given to demonstrate the usefulness of transactional programming primitives. Atomos and Java are compared through the use of several benchmarks. The results demonstrate both the improvements in parallel programming ease and parallel program performance provided by Atomos.

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Austen McDonald

A Scalable, Non-blocking Approach to Transactional Memory

An effective hybrid transactional memory system with strong isolation guarantees

Architectural Semantics for Practical Transactional Memory

An effective hybrid transactional memory system with strong isolation guarantees

The Atomos transactional programming language

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