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Publication search results
found 22 matches
- 2023
- Wenjie Yu, Boyang Zhou:
Using Long-Short-Term Memory to Effectively Identify Persistent Routes Under Stealthy Link Flooding Attacks in Software-Defined Networks. ISCC 2023: 1007-1012 - 2022
- Terence Kelly:
Persistent Memory Allocation: Leverage to move a world of software. ACM Queue 20(2): 16-30 (2022) - 2021
- Nicolas Krauter, Patrick Raaf, Peter Braam, Reza Salkhordeh, Sebastian Erdweg, André Brinkmann:
Persistent software transactional memory in Haskell. Proc. ACM Program. Lang. 5(ICFP): 1-29 (2021) - 2020
- Eleni Bila, Simon Doherty, Brijesh Dongol, John Derrick, Gerhard Schellhorn, Heike Wehrheim:
Defining and Verifying Durable Opacity: Correctness for Persistent Software Transactional Memory. FORTE 2020: 39-58 - H. Alan Beadle, Wentao Cai, Haosen Wen, Michael L. Scott:
Nonblocking Persistent Software Transactional Memory. HiPC 2020: 283-293 - H. Alan Beadle, Wentao Cai, Haosen Wen, Michael L. Scott:
Nonblocking persistent software transactional memory. PPoPP 2020: 429-430 - Eleni Bila, Simon Doherty, Brijesh Dongol, John Derrick, Gerhard Schellhorn, Heike Wehrheim:
Defining and Verifying Durable Opacity: Correctness for Persistent Software Transactional Memory. CoRR abs/2004.08200 (2020) - 2019
- Xueliang Wei, Dan Feng, Wei Tong, Jingning Liu, Liuqing Ye:
NICO: Reducing Software-Transparent Crash Consistency Cost for Persistent Memory. IEEE Trans. Computers 68(9): 1313-1324 (2019) - Jian Xu, Juno Kim, Amir Saman Memaripour, Steven Swanson:
Finding and Fixing Performance Pathologies in Persistent Memory Software Stacks. ASPLOS 2019: 427-439 - Rohan Kadekodi, Se Kwon Lee, Sanidhya Kashyap, Taesoo Kim, Aasheesh Kolli, Vijay Chidambaram:
SplitFS: reducing software overhead in file systems for persistent memory. SOSP 2019: 494-508 - Rohan Kadekodi, Se Kwon Lee, Sanidhya Kashyap, Taesoo Kim, Aasheesh Kolli, Vijay Chidambaram:
SplitFS: Reducing Software Overhead in File Systems for Persistent Memory. CoRR abs/1909.10123 (2019) - 2018
- Jihyun Kim, Youjip Won:
OpF-STM: Optimized Persistent Overhead Fail-safety Software Transactional Memory in Non-volatile Memory. ICIIT 2018: 54-58 - Tri Minh Nguyen, David Wentzlaff:
PiCL: A Software-Transparent, Persistent Cache Log for Nonvolatile Main Memory. MICRO 2018: 507-519 - 2016
- Ismail Oukid, Daniel Booss, Adrien Lespinasse, Wolfgang Lehner:
On testing persistent-memory-based software. DaMoN 2016: 5:1-5:7 - 2015
- Jinglei Ren, Jishen Zhao, Samira Manabi Khan, Jongmoo Choi, Yongwei Wu, Onur Mutlu:
ThyNVM: enabling software-transparent crash consistency in persistent memory systems. MICRO 2015: 672-685 - Haris Volos, Guilherme Magalhaes, Ludmila Cherkasova, Jun Li:
Quartz: A Lightweight Performance Emulator for Persistent Memory Software. Middleware 2015: 37-49 - Swaminathan Sundararaman, Nisha Talagala, Dhananjoy Das, Amar Mudrankit, Dulcardo Arteaga:
Towards software defined persistent memory: rethinking software support for heterogenous memory architectures. INFLOW@SOSP 2015: 6:1-6:10 - 2014
- Dulloor Subramanya Rao, Sanjay Kumar, Anil S. Keshavamurthy, Philip Lantz, Dheeraj Reddy, Rajesh Sankaran, Jeff Jackson:
System software for persistent memory. EuroSys 2014: 15:1-15:15 - Philip Lantz, Dulloor Subramanya Rao, Sanjay Kumar, Rajesh Sankaran, Jeff Jackson:
Yat: A Validation Framework for Persistent Memory Software. USENIX ATC 2014: 433-438 - 2013
- Anirudh Badam:
How Persistent Memory Will Change Software Systems. Computer 46(8): 45-51 (2013) - 2012
- Jorge Guerra, Leonardo Mármol, Daniel Campello, Carlos Crespo, Raju Rangaswami, Jinpeng Wei:
Software Persistent Memory. USENIX ATC 2012: 319-331 - 2008
- Prashant Dewan, David Durham, Hormuzd Khosravi, Men Long, Gayathri Nagabhushan:
A hypervisor-based system for protecting software runtime memory and persistent storage. SpringSim 2008: 828-835
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