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ORCIDWojciech M. Golab
Wojciech Golab
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- affiliation: University of Waterloo, ON, Canada
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2020 – today
- 2024
[j25]Chunyu Mao, Wojciech Golab, Bernard Wong:
Antipaxos: Taking interactive consistency to the next level. J. Parallel Distributed Comput. 187: 104839 (2024)- [c63]Ahmed Fahmy
, Adrian Jendo, Wojciech Golab:
The Illusive Failure-Atomic Double-Width Compare-And-Swap. ApPLIED@PODC 2024: 1-5 - [c62]Mohammad Moridi, Wojciech Golab:
Snapshotting Mechanisms for Persistent Memory-Mapped Files. ApPLIED@PODC 2024: 1-9 - [c61]Ahmed Fahmy, Wojciech Golab:
Brief Announcement: A Fast Scalable Detectable Unrolled Lock-Based Linked List. SPAA 2024: 73-75 - [i14]Chien-Chih Chen, Wojciech Golab:
A Game Theoretic Analysis of Validator Strategies in Ethereum 2.0. CoRR abs/2405.03357 (2024) - 2023
- [c60]Maizi Liao, Wojciech Golab, Seyed Majid Zahedi:
IRS: An Incentive-compatible Reward Scheme for Algorand. AAMAS 2023: 661-669 - [c59]Chunyu Mao, Wojciech M. Golab:
GeoChain: A Locality-Based Sharding Protocol for Permissioned Blockchains. ICDCN 2023: 70-79 - [c58]Sahil Dhoked, Wojciech Golab, Neeraj Mittal:
Brief Announcement: On Solving Recoverable Mutual Exclusion Under System-Wide Failures. SPAA 2023: 287-290 - [c57]Sahil Dhoked, Wojciech Golab, Neeraj Mittal:
Modular Recoverable Mutual Exclusion Under System-Wide Failures. DISC 2023: 17:1-17:24 - [c56]Jakeb Chouinard, Kush Kansara, Xialin Liu, Nihal Potdar, Wojciech Golab:
Brief Announcement: On Implementing Wear Leveling in Persistent Synchronization Structures. DISC 2023: 38:1-38:7 - [i13]Maizi Liao, Wojciech Golab, Seyed Majid Zahedi:
IRS: An Incentive-compatible Reward Scheme for Algorand. CoRR abs/2302.11178 (2023) - 2022
- [j24]Chien-Chih Chen, Yuxuan Du, Richards Peter, Wojciech M. Golab:
An Implementation of Fake News Prevention by Blockchain and Entropy-based Incentive Mechanism. Soc. Netw. Anal. Min. 12(1): 114 (2022) - [c55]Chunyu Mao, Wojciech M. Golab, Bernard Wong:
Antipaxos: Taking Interactive Consistency to the Next Level. ICDCN 2022: 128-137 - [c54]Aravind Segu, Wojciech Golab:
Recycling Memory in Recoverable Mutex Locks. NETYS 2022: 31-36 - [c53]Mohammad Moridi, Erica Wang, Amelia Cui, Wojciech M. Golab:
A Closer Look at Detectable Objects for Persistent Memory. ApPLIED@PODC 2022: 56-64 - [c52]Xialin Liu, Wojciech M. Golab:
Brief Announcement: Towards a Theory of Wear Leveling in Persistent Data Structures. PODC 2022: 220-223 - [c51]Ahmed Fahmy, Wojciech M. Golab:
A NUMA-Aware Recoverable Mutex Lock. SPAA 2022: 295-305 - 2021
- [j23]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay:
Deadline-Aware Cost Optimization for Spark. IEEE Trans. Big Data 7(1): 115-127 (2021) - [j22]Hao Tan, Wojciech M. Golab:
Optimizing All-to-All Data Transmission in WANs. IEEE Trans. Netw. Serv. Manag. 18(3): 3677-3690 (2021) - [j21]Hua Fan, Wojciech M. Golab:
Gossip-based visibility control for high-performance geo-distributed transactions. VLDB J. 30(1): 93-114 (2021) - [c50]Chien-Chih Chen, Yuxuan Du, Richards Peter, Wojciech M. Golab:
An Implementation of Fake News Prevention by Blockchain and Entropy-based Incentive Mechanism. IEEE BigData 2021: 2476-2486 - [c49]Chunyu Mao, Anh-Duong Nguyen, Wojciech M. Golab:
Performance and Fault Tolerance Trade-offs in Sharded Permissioned Blockchains. BRAINS 2021: 185-192 - [c48]Nan Li, Wojciech M. Golab:
Brief Announcement: Detectable Sequential Specifications for Recoverable Shared Objects. PODC 2021: 557-560 - [c47]Diego Cepeda, Wojciech M. Golab:
PHPRX: An Efficient Hash Table for Persistent Memory. SPAA 2021: 423-425 - [c46]Sakib Chowdhury, Wojciech M. Golab:
A Scalable Recoverable Skip List for Persistent Memory. SPAA 2021: 426-428 - [c45]Chunyu Mao, Wojciech M. Golab:
Sharding Techniques in the Era of Blockchain. SRDS 2021: 343-344 - [c44]Nan Li, Wojciech M. Golab:
Detectable Sequential Specifications for Recoverable Shared Objects. DISC 2021: 29:1-29:19 - 2020
- [c43]Sagnik De, Wojciech M. Golab:
Energy-Efficient Energy Analytics Using a General Purpose Graphics Processing Unit. IEEE BigData 2020: 2482-2491 - [c42]Chunyu Mao, Anh-Duong Nguyen, Wojciech M. Golab:
Performance and Fault Tolerance Trade-offs in Sharded Permissioned Blockchains. IEEE ICBC 2020: 1-3 - [c41]Hao Tan, Wojciech M. Golab:
Optimizing All-to-All Data Transmission in WANs. IEEE ICBC 2020: 1-9 - [c40]Wojciech M. Golab:
The Recoverable Consensus Hierarchy. SPAA 2020: 281-291 - [c39]Wojciech M. Golab, Hao Tan:
A Closer Look at Quantum Distributed Consensus. SPAA 2020: 539-541 - [c38]Jeffrey Xiao, Zheng Zhang, Wojciech M. Golab:
Benchmarking Recoverable Mutex Locks. SPAA 2020: 583-585
2010 – 2019
- 2019
- [j20]Wojciech M. Golab, Aditya Ramaraju:
Recoverable mutual exclusion. Distributed Comput. 32(6): 535-564 (2019) - [j19]Hua Fan, Wojciech M. Golab:
Ocean Vista: Gossip-Based Visibility Control for Speedy Geo-Distributed Transactions. Proc. VLDB Endow. 12(11): 1471-1484 (2019) - [c37]Subhajit Sidhanta, Supratik Mukhopadhyay, Wojciech M. Golab:
Consistify: preserving correctness and SLA under weak consistency. ICDCN 2019: 282-291 - [c36]Diego Cepeda, Sakib Chowdhury, Nan Li, Raphael Lopez, Xinzhe Wang, Wojciech M. Golab:
Toward Linearizability Testing for Multi-Word Persistent Synchronization Primitives. OPODIS 2019: 19:1-19:17 - [c35]Wojciech M. Golab:
The Recoverable Consensus Hierarchy. PODC 2019: 212-214 - [c34]Diego Cepeda, Sakib Chowdhury, Wojciech M. Golab:
Tutorial: Specifying, Implementing, and Verifying Algorithms for Persistent Memory. PODC 2019: 549 - [c33]Subhajit Sidhanta, Supratik Mukhopadhyay, Wojciech M. Golab:
Dyn-YCSB: Benchmarking Adaptive Frameworks. SERVICES 2019: 392-393 - [i12]Hao Tan, Wojciech M. Golab:
Shallow Overlay Trees Suffice for High-Throughput Consensus. CoRR abs/1903.03164 (2019) - 2018
- [j18]Hua Fan, Wojciech M. Golab:
Analyzing linearizability violations in the presence of read-modify-write operations. Inf. Process. Lett. 138: 57-60 (2018) - [j17]Wojciech M. Golab, Xiaozhou (Steve) Li, Alejandro López-Ortiz, Naomi Nishimura:
Computing k-Atomicity in Polynomial Time. SIAM J. Comput. 47(2): 420-455 (2018) - [j16]Wojciech M. Golab:
Proving PACELC. SIGACT News 49(1): 73-81 (2018) - [c32]Hua Fan, Wojciech M. Golab:
Scalable Transaction Processing Using Functors. ICDCS 2018: 1004-1016 - [c31]Wojciech M. Golab, Danny Hendler:
Recoverable Mutual Exclusion Under System-Wide Failures. PODC 2018: 17-26 - [i11]Wojciech M. Golab:
Recoverable Consensus in Shared Memory. CoRR abs/1804.10597 (2018) - [i10]Srinivasan Keshav, Wojciech M. Golab, Bernard Wong, Sajjad Rizvi, Sergey Gorbunov:
RCanopus: Making Canopus Resilient to Failures and Byzantine Faults. CoRR abs/1810.09300 (2018) - 2017
- [j15]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay, Saikat Basu:
Adaptable SLA-Aware Consistency Tuning for Quorum-Replicated Datastores. IEEE Trans. Big Data 3(3): 248-261 (2017) - [j14]Xiufeng Liu, Lukasz Golab, Wojciech M. Golab, Ihab F. Ilyas, Shichao Jin:
Smart Meter Data Analytics: Systems, Algorithms, and Benchmarking. ACM Trans. Database Syst. 42(1): 2:1-2:39 (2017) - [c30]Sina Gholamian, Wojciech M. Golab, Paul A. S. Ward:
Efficient incremental data analytics with apache spark. IEEE BigData 2017: 2859-2868 - [c29]Hua Fan, Wojciech M. Golab, Charles B. Morrey III:
ALOHA-KV: high performance read-only and write-only distributed transactions. SoCC 2017: 561-572 - [c28]Wojciech M. Golab, Danny Hendler:
Recoverable Mutual Exclusion in Sub-logarithmic Time. PODC 2017: 211-220 - [c27]Shankha Chatterjee, Wojciech M. Golab:
Brief Announcement: A Probabilistic Performance Model and Tuning Framework for Eventually Consistent Distributed Storage Systems. PODC 2017: 259-261 - [c26]Shankha Chatterjee, Wojciech M. Golab:
Self-tuning Eventually-Consistent Data Stores. SSS 2017: 78-92 - 2016
- [c25]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay:
OptEx: A Deadline-Aware Cost Optimization Model for Spark. CCGrid 2016: 193-202 - [c24]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay, Saikat Basu:
OptCon: An Adaptable SLA-Aware Consistency Tuning Framework for Quorum-Based Stores. CCGrid 2016: 388-397 - [c23]David Xi Cheng, Wojciech M. Golab, Paul A. S. Ward:
Efficient Incremental Smart Grid Data Analytics. EDBT/ICDT Workshops 2016 - [c22]Hua Fan, Shankha Chatterjee, Wojciech M. Golab:
WatCA: The Waterloo consistency analyzer. ICDE 2016: 1398-1401 - [c21]Wojciech M. Golab, Aditya Ramaraju:
Recoverable Mutual Exclusion: [Extended Abstract]. PODC 2016: 65-74 - [i9]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay:
OptEx: A Deadline-Aware Cost Optimization Model for Spark. CoRR abs/1603.07936 (2016) - [i8]Subhajit Sidhanta, Wojciech M. Golab, Supratik Mukhopadhyay, Saikat Basu:
OptCon: An Adaptable SLA-Aware Consistency Tuning Framework for Quorum-based Stores. CoRR abs/1603.07938 (2016) - 2015
- [j13]Hua Fan, Aditya Ramaraju, Marlon McKenzie, Wojciech M. Golab, Bernard Wong:
Understanding the Causes of Consistency Anomalies in Apache Cassandra. Proc. VLDB Endow. 8(7): 810-821 (2015) - [c20]Marlon McKenzie, Hua Fan, Wojciech M. Golab:
Fine-tuning the consistency-latency trade-off in quorum-replicated distributed storage systems. IEEE BigData 2015: 1708-1717 - [c19]Xiufeng Liu, Lukasz Golab, Wojciech M. Golab, Ihab F. Ilyas:
Benchmarking Smart Meter Data Analytics. EDBT 2015: 385-396 - [c18]Ryan Berryhill, Wojciech M. Golab, Mahesh Tripunitara:
Robust Shared Objects for Non-Volatile Main Memory. OPODIS 2015: 20:1-20:17 - [c17]Wojciech M. Golab, Xiaozhou (Steve) Li, Alejandro López-Ortiz, Naomi Nishimura:
Computing Weak Consistency in Polynomial Time: [Extended Abstract]. PODC 2015: 395-404 - [i7]Marlon McKenzie, Hua Fan, Wojciech M. Golab:
Continuous Partial Quorums for Consistency-Latency Tuning in Distributed NoSQL Storage Systems. CoRR abs/1507.03162 (2015) - 2014
- [j12]Wojciech M. Golab, Muntasir Raihan Rahman, Alvin AuYoung, Kimberly Keeton, Xiaozhou (Steve) Li:
Eventually consistent: not what you were expecting? Commun. ACM 57(3): 38-44 (2014) - [c16]Wojciech M. Golab, Muntasir Raihan Rahman, Alvin AuYoung, Kimberly Keeton, Indranil Gupta:
Client-Centric Benchmarking of Eventual Consistency for Cloud Storage Systems. ICDCS 2014: 493-502 - [c15]Zahra Aghazadeh, Wojciech M. Golab, Philipp Woelfel:
Making objects writable. PODC 2014: 385-395 - [c14]Seth Gilbert, Wojciech M. Golab:
Making Sense of Relativistic Distributed Systems. DISC 2014: 361-375 - 2013
- [c13]Wojciech M. Golab, Muntasir Raihan Rahman, Alvin AuYoung, Kimberly Keeton, Jay J. Wylie, Indranil Gupta:
Client-centric benchmarking of eventual consistency for cloud storage systems. SoCC 2013: 28:1-28:2 - [c12]Wojciech M. Golab, Jeremy Hurwitz, Xiaozhou Li:
On the k-Atomicity-Verification Problem. ICDCS 2013: 591-600 - [c11]Zahra Aghazadeh, Wojciech M. Golab, Philipp Woelfel:
Brief announcement: resettable objects and efficient memory reclamation for concurrent algorithms. PODC 2013: 322-324 - [i6]Wojciech M. Golab, Jeremy Hurwitz, Xiaozhou Li:
On the k-Atomicity-Verification Problem. CoRR abs/1309.5522 (2013) - [i5]Wojciech M. Golab:
Deconstructing Queue-Based Mutual Exclusion. CoRR abs/1310.7397 (2013) - 2012
- [j11]Wojciech M. Golab, Vassos Hadzilacos, Danny Hendler, Philipp Woelfel:
RMR-efficient implementations of comparison primitives using read and write operations. Distributed Comput. 25(2): 109-162 (2012) - [j10]Benjamin Sowell, Wojciech M. Golab, Mehul A. Shah:
Minuet: A Scalable Distributed Multiversion B-Tree. Proc. VLDB Endow. 5(9): 884-895 (2012) - [c10]Muntasir Raihan Rahman, Wojciech M. Golab, Alvin AuYoung, Kimberly Keeton, Jay J. Wylie:
Toward a Principled Framework for Benchmarking Consistency. HotDep 2012 - [i4]Benjamin Sowell, Wojciech M. Golab, Mehul A. Shah:
Minuet: A Scalable Distributed Multiversion B-Tree. CoRR abs/1205.6699 (2012) - [i3]Muntasir Raihan Rahman, Wojciech M. Golab, Alvin AuYoung, Kimberly Keeton, Jay J. Wylie:
Toward a Principled Framework for Benchmarking Consistency. CoRR abs/1211.4290 (2012) - 2011
- [b1]Wojciech M. Golab:
Constant-RMR Implementations of CAS and Other Synchronization Primitives Using Read and Write Operations. University of Toronto, Canada, 2011 - [c9]Wojciech M. Golab:
A complexity separation between the cache-coherent and distributed shared memory models. PODC 2011: 109-118 - [c8]Wojciech M. Golab, Xiaozhou Li, Mehul A. Shah:
Analyzing consistency properties for fun and profit. PODC 2011: 197-206 - [c7]Wojciech M. Golab, Lisa Higham, Philipp Woelfel:
Linearizable implementations do not suffice for randomized distributed computation. STOC 2011: 373-382 - [i2]Wojciech M. Golab, Lisa Higham, Philipp Woelfel:
Linearizable Implementations Do Not Suffice for Randomized Distributed Computation. CoRR abs/1103.4690 (2011) - [i1]Wojciech M. Golab:
A Complexity Separation Between the Cache-Coherent and Distributed Shared Memory Models. CoRR abs/1109.5153 (2011) - 2010
- [j9]Robert Danek, Wojciech M. Golab:
Closing the complexity gap between FCFS mutual exclusion and mutual exclusion. Distributed Comput. 23(2): 87-111 (2010) - [j8]Wojciech M. Golab, Danny Hendler, Philipp Woelfel:
An O(1) RMRs Leader Election Algorithm. SIAM J. Comput. 39(7): 2726-2760 (2010) - [c6]Wojciech M. Golab:
Brief announcement: locally-accessible implementations for distributed shared memory multiprocessors. PODC 2010: 394-395
2000 – 2009
- 2008
- [j7]Wojciech M. Golab, Raouf Boutaba:
Path selection in user-controlled circuit-switched optical networks. Opt. Switch. Netw. 5(2-3): 123-138 (2008) - [j6]Marcos Kawazoe Aguilera, Wojciech M. Golab, Mehul A. Shah:
A practical scalable distributed B-tree. Proc. VLDB Endow. 1(1): 598-609 (2008) - [j5]Robert Danek, Wojciech M. Golab, Wojciech Wawrzyniak:
Review of DISC 2008. SIGACT News 39(4): 60-65 (2008) - [c5]Robert Danek, Wojciech M. Golab:
Closing the complexity gap between mutual exclusion and FCFS mutual exclusion. PODC 2008: 448 - [c4]Robert Danek, Wojciech M. Golab:
Closing the Complexity Gap between FCFS Mutual Exclusion and Mutual Exclusion. DISC 2008: 93-108 - 2007
- [j4]Wojciech M. Golab, Raouf Boutaba:
Admission control in data transfers over lightpaths. IEEE J. Sel. Areas Commun. 25(S-6): 102-110 (2007) - [c3]Wojciech M. Golab, Vassos Hadzilacos, Danny Hendler, Philipp Woelfel:
Constant-RMR implementations of CAS and other synchronization primitives using read and write operations. PODC 2007: 3-12 - 2006
- [c2]Wojciech M. Golab, Danny Hendler, Philipp Woelfel:
An O(1) RMRs leader election algorithm. PODC 2006: 238-247 - 2004
- [j3]Wojciech M. Golab, Raouf Boutaba:
Policy-driven automated reconfiguration for performance management in WDM optical networks. IEEE Commun. Mag. 42(1): 44-51 (2004) - [j2]Raouf Boutaba, Wojciech M. Golab, Youssef Iraqi:
Lightpaths on demand: a Web-services-based management system. IEEE Commun. Mag. 42(7): 101-107 (2004) - [c1]Wojciech M. Golab, Raouf Boutaba:
Resource Allocation in User-Controlled Circuit-Switched Optical Networks. HSNMC 2004: 776-787 - 2003
- [j1]Raouf Boutaba, Wojciech M. Golab, Youssef Iraqi, Tianshu Li, Bill St. Arnaud:
Grid-Controlled Lightpaths for High Performance Grid Applications. J. Grid Comput. 1(4): 387-394 (2003)
Coauthor Index
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