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ORCIDThomas G. Robertazzi
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- affiliation: Stony Brook University, USA
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2020 – today
- 2023
[c21]Maciej Drozdowski
, Joanna Berlinska, Thomas G. Robertazzi:
Optimum Large Sensor Data Filtering, Networking and Computing. FedCSIS 2023: 431-440- 2022
- [c20]Junwei Zhang, Thomas G. Robertazzi:
Analyzing Data Intensive Networks on Chips. UCC 2022: 185-186 - 2021
- [j40]Yang Cao, Fei Wu, Thomas G. Robertazzi:
Integrating Amdahl-like Laws and Divisible Load Theory. Parallel Process. Lett. 31(2): 2150008:1-2150008:10 (2021) - [j39]Junwei Zhang, Li Shi, Yang Liu, Thomas G. Robertazzi:
Optimizing Data Intensive Flows for Networks on Chips. Parallel Process. Lett. 31(3): 2150013:1-2150013:21 (2021) - [j38]Li Shi, Yang Liu, Junwei Zhang, Thomas G. Robertazzi:
Coflow Scheduling in Data Centers: Routing and Bandwidth Allocation. IEEE Trans. Parallel Distributed Syst. 32(11): 2661-2675 (2021) - [i9]Abdulaziz M. Alqarni, Thomas G. Robertazzi:
Cloud Versus Local Processing in Distributed Networks. CoRR abs/2107.01735 (2021) - [i8]Thomas G. Robertazzi, Maciej Drozdowski:
Interaction Maxima in Distributed Systems. CoRR abs/2110.14460 (2021)
2010 – 2019
- 2019
- [c19]Yang Liu, Li Shi, Junwei Zhang, Thomas G. Robertazzi:
Layer Based Partition for Matrix Multiplication on Heterogeneous Mesh Networks. SpringSim 2019: 1-12 - [i7]Fei Wu, Yang Cao, Thomas G. Robertazzi:
Optimal Divisible Load Scheduling for Resource-Sharing Network. CoRR abs/1902.01898 (2019) - [i6]Fei Wu, Yang Cao, Thomas G. Robertazzi:
Reinforcement Learning for Optimal Load Distribution Sequencing in Resource-Sharing System. CoRR abs/1902.01899 (2019) - [i5]Yang Cao, Fei Wu, Thomas G. Robertazzi:
Integrating Amdahl-like Laws and Divisible Load Theory. CoRR abs/1902.01952 (2019) - [i4]Yang Cao, Fei Wu, Thomas G. Robertazzi:
Scheduling and Trade-off Analysis for Multi-Source Multi-Processor Systems with Divisible Loads. CoRR abs/1902.01994 (2019) - 2018
- [i3]Yang Liu, Li Shi, Junwei Zhang, Thomas G. Robertazzi:
Layer Based Partition for Matrix Multiplication on Heterogeneous Processor Platforms. CoRR abs/1812.06329 (2018) - [i2]Li Shi, Junwei Zhang, Yang Liu, Thomas G. Robertazzi:
Coflow Scheduling in Data Centers: Routing and Bandwidth Allocation. CoRR abs/1812.06898 (2018) - [i1]Junwei Zhang, Yang Liu, Shi Li, Thomas G. Robertazzi:
Optimizing Data Intensive Flows for Networks on Chips. CoRR abs/1812.07183 (2018) - 2017
- [j37]Li Shi, Zhemin Zhang, Thomas G. Robertazzi:
Energy-Aware Scheduling of Embarrassingly Parallel Jobs and Resource Allocation in Cloud. IEEE Trans. Parallel Distributed Syst. 28(6): 1607-1620 (2017) - 2015
- [j36]Kai Wang, Thomas G. Robertazzi:
Scheduling divisible loads with nonlinear communication time. IEEE Trans. Aerosp. Electron. Syst. 51(3): 2479-2485 (2015) - [j35]Zhemin Zhang, Thomas G. Robertazzi:
Scheduling Divisible Loads in Gaussian, Mesh and Torus Network of Processors. IEEE Trans. Computers 64(11): 3249-3264 (2015) - [j34]Yufei Ren, Tan Li, Dantong Yu, Shudong Jin, Thomas G. Robertazzi:
Design, Implementation, and Evaluation of a NUMA-Aware Cache for iSCSI Storage Servers. IEEE Trans. Parallel Distributed Syst. 26(2): 413-422 (2015) - 2014
- [j33]Zhongwen Ying, Thomas G. Robertazzi:
Signature Searching in a Networked Collection of Files. IEEE Trans. Parallel Distributed Syst. 25(5): 1339-1348 (2014) - 2013
- [j32]Yufei Ren, Tan Li, Dantong Yu, Shudong Jin, Thomas G. Robertazzi:
Design and testbed evaluation of RDMA-based middleware for high-performance data transfer applications. J. Syst. Softw. 86(7): 1850-1863 (2013) - [c18]Tan Li, Yufei Ren, Dantong Yu, Shudong Jin, Thomas G. Robertazzi:
Characterization of Input/Output Bandwidth Performance Models in NUMA Architecture for Data Intensive Applications. ICPP 2013: 369-378 - [c17]Yufei Ren, Tan Li, Dantong Yu, Shudong Jin, Thomas G. Robertazzi:
Design and performance evaluation of NUMA-aware RDMA-based end-to-end data transfer systems. SC 2013: 48:1-48:10 - 2012
- [b2]Thomas G. Robertazzi:
Basics of Computer Networking. Springer Briefs in Electrical and Computer Engineering, Springer 2012, ISBN 978-1-4614-2103-0, pp. i-xi, 1-84 - [j31]Suresh Sundaram, Cui Run, Hyoung Joong Kim, Thomas G. Robertazzi, Young-Il Kim:
Scheduling Second-Order Computational Load in Master-Slave Paradigm. IEEE Trans. Aerosp. Electron. Syst. 48(1): 780-793 (2012) - [j30]Yuntai Kyong, Thomas G. Robertazzi:
Greedy Signature Processing with Arbitrary Location Distributions: A Divisible Load Framework. IEEE Trans. Aerosp. Electron. Syst. 48(4): 3027-3041 (2012) - [j29]Suresh Sundaram, Hyoung Joong Kim, Cui Run, Thomas G. Robertazzi:
Scheduling nonlinear divisible loads in a single level tree network. J. Supercomput. 61(3): 1068-1088 (2012) - [c16]Yufei Ren, Tan Li, Dantong Yu, Shudong Jin, Thomas G. Robertazzi:
Middleware Support for RDMA-based Data Transfer in Cloud Computing. IPDPS Workshops 2012: 1095-1103 - [c15]Yufei Ren, Tan Li, Dantong Yu, Shudong Jin, Thomas G. Robertazzi, Brian Tierney, Eric Pouyoul:
Protocols for wide-area data-intensive applications: design and performance issues. SC 2012: 34 - 2011
- [j28]Thomas G. Robertazzi:
A Product Form Solution for Tree Networks with Divisible Loads. Parallel Process. Lett. 21(1): 13-20 (2011) - [j27]Carlos Fernando Gamboa, Thomas G. Robertazzi:
Simple Performance Bounds for Multicore and Parallel Channel Systems. Parallel Process. Lett. 21(4): 439-460 (2011) - 2010
- [c14]Kijeung Choi, Thomas G. Robertazzi:
Cost Performance Analysis in Multi-level Tree Networks. ISPDC 2010: 41-48
2000 – 2009
- 2009
- [j26]M. A. Moges, D. Yu, Thomas G. Robertazzi:
Grid scheduling divisible loads from two sources. Comput. Math. Appl. 58(6): 1081-1092 (2009) - [c13]Kijeung Choi, Thomas G. Robertazzi:
An Exhaustive Approach to Release Time Aware Divisible Load Scheduling. PDPTA 2009: 145-151 - 2008
- [c12]Kijeung Choi, Thomas G. Robertazzi:
Divisible Load Scheduling inWireless Sensor Networks with Information Utility. IPCCC 2008: 9-17 - 2007
- [b1]Thomas G. Robertazzi:
Networks and grids - technology and theory. Information technology, Springer 2007, ISBN 978-0-387-36758-3, pp. I-XII, 1-277 - [j25]Sivakumar Viswanathan, Bharadwaj Veeravalli, Thomas G. Robertazzi:
Resource-Aware Distributed Scheduling Strategies for Large-Scale Computational Cluster/Grid Systems. IEEE Trans. Parallel Distributed Syst. 18(10): 1450-1461 (2007) - [c11]Meng Wang, Alex Doboli, Thomas G. Robertazzi, Simona Doboli, Daniel Curiac:
Towards Scalable Distributed Control of Unmanned Autonomous Vehicles. SACI 2007: 147-152 - 2006
- [j24]Seong-Hwan Kim, Thomas G. Robertazzi:
Modeling mobile agent behavior. Comput. Math. Appl. 51(6-7): 951-966 (2006) - [j23]M. A. Moges, Thomas G. Robertazzi:
Divisible Load Scheduling and Markov Chain Models. Comput. Math. Appl. 52(10-11): 1529-1542 (2006) - [c10]Carlos Fernando Gamboa, Thomas G. Robertazzi:
Efficient Scheduling for Sensing and Data Reporting in Wireless Sensor Networks. CISS 2006: 171-176 - [c9]Thomas G. Robertazzi, Dantong Yu:
Multi-Source Grid Scheduling for Divisible Loads. CISS 2006: 188-191 - [c8]Taeyoung Lim, Thomas G. Robertazzi:
Efficient Parallel Video Processing Through Concurrent Communication on a Multi-port Star Network. CISS 2006: 458-463 - 2004
- [j22]Saravut Charcranoon, Thomas G. Robertazzi, Serge Luryi:
Load sequencing for a parallel processing utility. J. Parallel Distributed Comput. 64(1): 29-35 (2004) - [j21]Thomas G. Robertazzi:
Comment on "A Novel Data Distribution Technique for Host-Client Type Parallel Applications'. IEEE Trans. Parallel Distributed Syst. 15(6): 575- (2004) - [c7]Sivakumar Viswanathan, Bharadwaj Veeravalli, Dantong Yu, Thomas G. Robertazzi:
Design and Analysis of a Dynamic Scheduling Strategy with Resource Estimation for Large-Scale Grid Systems. GRID 2004: 163-170 - 2003
- [j20]Debasish Ghose, Thomas G. Robertazzi:
Foreword (Special Issue of Cluster Computing on Divisible Load Scheduling. Clust. Comput. 6(1): 5 (2003) - [j19]Bharadwaj Veeravalli, Debasish Ghose, Thomas G. Robertazzi:
Divisible Load Theory: A New Paradigm for Load Scheduling in Distributed Systems. Clust. Comput. 6(1): 7-17 (2003) - [j18]Thomas G. Robertazzi:
Ten Reasons to Use Divisible Load Theory. Computer 36(5): 63-68 (2003) - 2000
- [j17]Saravut Charcranoon, Thomas G. Robertazzi, Serge Luryi:
Parallel Processor Configuration Design with Processing/Transmission Costs. IEEE Trans. Computers 49(9): 987-991 (2000)
1990 – 1999
- 1998
- [j16]Jeeho Sohn, Thomas G. Robertazzi, Serge Luryi:
Optimizing Computing Costs Using Divisible Load Analysis. IEEE Trans. Parallel Distributed Syst. 9(3): 225-234 (1998) - 1996
- [j15]Stephen S. Rappaport, Thomas G. Robertazzi:
Editorial. Wirel. Networks 2(4): 263-264 (1996) - 1995
- [j14]Hsin-Yuan Huang, Thomas G. Robertazzi, Aurel A. Lazar:
A Comparison of Information Based Deflection Strategies. Comput. Networks ISDN Syst. 27(9): 1399-1407 (1995) - [c6]Eugene M. Foo, Thomas G. Robertazzi:
A Distributed Global Queue Transmission Strategy for a WDM Optical Fiber Network. INFOCOM 1995: 154-161 - 1994
- [j13]Sameer M. Bataineh, Te-Yu Hsiung, Thomas G. Robertazzi:
Closed Form Solutions for Bus and Tree Networks of Processors Load Sharing a Divisible Job. IEEE Trans. Computers 43(10): 1184-1196 (1994) - 1993
- [j12]Julie Shor, Thomas G. Robertazzi:
Traffic sensitive algorithms and performance measures for the generation of self-organizing radio network schedules. IEEE Trans. Commun. 41(1): 16-21 (1993) - [c5]Sameer M. Bataineh, Te-Yu Hsiung, Thomas G. Robertazzi:
Closed Form Solutions for Bus and Tree Networks of Processors Load Sharing A Divisible Job. ICPP (1) 1993: 290-293 - 1992
- [j11]Thomas G. Robertazzi:
Computer Networks and Systems. Queueing Theory and Performance Evaluation (Book Review). SIGMETRICS Perform. Evaluation Rev. 19(3): 11-12 (1992) - 1991
- [j10]Aurel A. Lazar, Thomas G. Robertazzi:
Markovian Petri Net Protocols with Product Form Solution. Perform. Evaluation 12(1): 67-77 (1991) - [j9]Sameer M. Bataineh, Thomas G. Robertazzi:
Bus-oriented load sharing for a network of sensor driven processors. IEEE Trans. Syst. Man Cybern. 21(5): 1202-1205 (1991) - 1990
- [j8]Irvin Y. Wang, Thomas G. Robertazzi:
Service Stage Petri Net Models with Product Form Solution. Queueing Syst. Theory Appl. 7(3): 355-373 (1990) - [j7]Irvin Y. Wang, Thomas G. Robertazzi:
Recursive computation of steady-state probabilities of nonproduct form queueing networks associated with computer network models. IEEE Trans. Commun. 38(1): 115-117 (1990)
1980 – 1989
- 1989
- [j6]Yuan-Chieh Cheng, Thomas G. Robertazzi:
Critical connectivity phenomena in multihop radio models. IEEE Trans. Commun. 37(7): 770-777 (1989) - [c4]Thomas G. Robertazzi:
Recursive Solution of a Class of Non-Product Form Protocol Models. INFOCOM 1989: 38-46 - [c3]Irvin Y. Wang, Thomas G. Robertazzi:
Service Stage Petri Net Protocols with Product Form Solution. SIGMETRICS 1989: 233 - 1988
- [j5]Thomas G. Robertazzi:
Toroidal networks. IEEE Commun. Mag. 26(6): 45-50 (1988) - [j4]Thomas G. Robertazzi, Stuart C. Schwartz:
Best "ordering" for floating-point addition. ACM Trans. Math. Softw. 14(1): 101-110 (1988) - 1987
- [j3]Yuan-Chieh Cheng, Thomas G. Robertazzi:
Annotated Bibliography of Local Communication System Interconnection. IEEE J. Sel. Areas Commun. 5(9): 1492-1499 (1987) - 1986
- [j2]Thomas G. Robertazzi, Philip E. Sarachik:
Self-organizing communication networks. IEEE Commun. Mag. 24(1): 28-33 (1986) - [c2]Thomas G. Robertazzi:
Population Estimation for a Multiple Access Channel. ICC 1986: 868-872 - 1985
- [j1]Thomas G. Robertazzi, Aurel A. Lazar:
On the Modeling and Optimal Flow Control of the Jacksonian Network. Perform. Evaluation 5(1): 29-43 (1985) - 1983
- [c1]Thomas G. Robertazzi, Aurel A. Lazar:
On the Modeling and Optimal Flow Control of the Jacksonian Network. Performance 1983: 361-376
Coauthor Index
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