Riegel, 2013
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Baek et al. | The OpenTM transactional application programming interface | |
| Harris et al. | Transactional memory: An overview | |
| Lê et al. | Correct and efficient work-stealing for weak memory models | |
| Sorensen et al. | Portable inter-workgroup barrier synchronisation for GPUs | |
| Arvind et al. | Memory model= instruction reordering+ store atomicity | |
| DeVuyst et al. | Runtime parallelization of legacy code on a transactional memory system | |
| Schoeberl et al. | RTTM: Real-time transactional memory | |
| Ziarek et al. | A uniform transactional execution environment for Java | |
| Yiapanis et al. | Compiler-driven software speculation for thread-level parallelism | |
| Kulkarni et al. | Optimistic parallelism requires abstractions | |
| Milovanović et al. | Transactional memory and OpenMP | |
| Riegel | Software transactional memory building blocks | |
| Goodman et al. | Software transactional memories for scala | |
| Afek et al. | The velox transactional memory stack | |
| Carlstrom et al. | Executing Java programs with transactional memory | |
| Riley et al. | Hardware tansactional memory support for lightweight dynamic language evolution | |
| Österlund et al. | Self-adaptive concurrent components | |
| Bieniusa et al. | Lifting the Barriers–Reducing Latencies with Transparent Transactional Memory | |
| Hammacher | Efficient runtime systems for speculative parallelization | |
| Baptista | Task scheduling in speculative parallelization | |
| Devietti | Deterministic execution for arbitrary multithreaded programs | |
| Colohan et al. | Incrementally parallelizing database transactions with thread-level speculation | |
| Ananian | Architectural and compiler support for strongly atomic transactional memory | |
| Milovanović et al. | Nebelung: execution environment for transactional OpenMP | |
| Scott et al. | Transactional Memory |