No | Ref | Citation | Speaker | Date |
1 | WHMZ12 | Studying on ARINC 653 partition run time scheduling and simulation | TSogbayar Jargalsaikhan | 11.15 |
2 | λμ18 | An efficient health management system for on-the-fly repairing of atomicity violation in airborne software | Batgerel Tserennadmid | 11.15 |
3 | ZWLQ16 | A lightweight system for detecting and tolerating concurrency bugs | Hyoung-Jin Baek | 12.6 |
4 | ABDG15 | GPU Concurrency: Weak Behaviours and Programming Assumptions | Keon-Pyo Lee | 12.13 |
5 | μ£Όν18 | An efficient technique for on-the-fly repairing of atomicity violation in pthread programs | Batgerel Tserennadmid | 12.13 |
6 | THKJ11 | A framework for on-the-fly race healing in ARINC-653 applications | Tae-Hyung Kim | 12.13 |
7 | SrSc11 | The case for software health management | Tae-Hyung Kim | 12.2 |
8 | KLTU07 | Healing data races on-the-fly | Hyoung-Jin Baek | 12.2 |
9 | GMV10,Laas15 | Demonstration and comparison ARINC 653 simulators (on SIMA and ARISS) | TSogbayar Jargalsaikhan | 12.27 |
10 | EPPM17 | BARRACUDA: Binary-level Analysis of Runtime RAces in CUDA programs | Keon-Pyo Lee | 12.27 |
11 | Workshop | 1.10 |