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ORCIDMarek S. Tudruj
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- affiliation: Polish-Japanese Academy of Information Technology, Warsaw, Poland
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2020 – today
- 2024
[j24]Anna Sasak-Okon, Marek S. Tudruj:
Improving speculative query execution support by the use of the hypergraph representation. Future Gener. Comput. Syst. 150: 186-201 (2024)- 2022
- [c131]Anna Sasak-Okon
, Marek S. Tudruj:
RDBMS Speculative Support Improvement by the Use of the Query Hypergraph Representation. PPAM (1) 2022: 95-109 - 2021
- [j23]Adam Smyk, Marek S. Tudruj:
Distributed Application Global States Monitoring in PEGASUS DA Applied to Parallel Graph Partitioning. Concurr. Comput. Pract. Exp. 33(11) (2021) - 2020
- [c130]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Exploiting multi-objective parallel extremal optimization features in dynamic load balancing. GECCO Companion 2020: 1712-1720 - [c129]Anna Sasak-Okon, Marek S. Tudruj:
Speculative query execution in RDBMS based on analysis of query stream multigraphs. IDEAS 2020: 23:1-23:10 - [c128]Anna Sasak-Okon, Marek S. Tudruj:
Applying distributed application global states monitoring to speculative query processing in RDBMS. ISPDC 2020: 93-101 - [c127]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Dynamic Load Balancing Based on Multi-Objective Extremal optimization. ISPDC 2020: 134-141
2010 – 2019
- 2019
- [j22]Lukasz Masko, Marek S. Tudruj:
Application global state monitoring in optimization of parallel event-driven simulation. Concurr. Comput. Pract. Exp. 31(19) (2019) - [c126]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Distributed Processor Load Balancing Based on Multi-objective Extremal Optimization. IDCS 2019: 158-168 - [c125]Adam Smyk, Marek S. Tudruj, Lukasz Grochal:
Parallel Graph Partitioning Optimization Under PEGASUS DA Application Global State Monitoring. PPAM (1) 2019: 272-286 - 2018
- [c124]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Effective processor load balancing using multi-objective parallel extremal optimization. GECCO (Companion) 2018: 1292-1299 - [c123]Adam Smyk, Marek S. Tudruj, Lukasz Grochal:
Global Application States Monitoring Applied to Graph Partitioning Optimization. ISPDC 2018: 85-92 - 2017
- [c122]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Multi-objective parallel extremal optimization in processor load balancing for distributed programs. GECCO (Companion) 2017: 1796-1803 - [c121]Anna Sasak-Okon, Marek S. Tudruj:
Graph-Based Speculative Query Execution in Relational Databases. ISPDC 2017: 122-131 - [c120]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Multi-Objective Extremal Optimization in Processor Load Balancing for Distributed Programs. PPAM (2) 2017: 176-188 - [c119]Anna Sasak-Okon, Marek S. Tudruj:
Graph-Based Speculative Query Execution for RDBMS. PPAM (1) 2017: 303-313 - [c118]Lukasz Masko, Marek S. Tudruj:
Global State Monitoring in Optimization of Parallel Event-Driven Simulation. PPAM (1) 2017: 483-494 - 2016
- [j21]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Parallel extremal optimization in processor load balancing for distributed applications. Appl. Soft Comput. 46: 187-203 (2016) - 2015
- [j20]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Extremal Optimization applied to load balancing in execution of distributed programs. Appl. Soft Comput. 30: 501-513 (2015) - [j19]Roman Wyrzykowski, Marek S. Tudruj:
10th international conference on Parallel Processing and Applied Mathematics, PPAM 2013. Concurr. Comput. Pract. Exp. 27(4): 882-884 (2015) - [j18]Marek S. Tudruj, Janusz Borkowski, Damian Kopanski, Eryk Laskowski, Lukasz Masko, Adam Smyk:
PEGASUS DA framework for distributed program execution control based on application global states monitoring. Concurr. Comput. Pract. Exp. 27(4): 1027-1053 (2015) - [c117]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Parallel Extremal Optimization with Guided State Changes Applied to Load Balancing. EvoApplications 2015: 79-90 - [c116]Lukasz Masko, Marek S. Tudruj:
Parallel Programs Scheduling with Architecturally Supported Regions. PPAM (2) 2015: 77-89 - [c115]Eryk Laskowski, Marek S. Tudruj, Ivanoe De Falco, Umberto Scafuri, Ernesto Tarantino, Richard Olejnik:
Parallel Extremal Optimization with Guided Search and Crossover Applied to Load Balancing. PPAM (1) 2015: 437-447 - 2014
- [c114]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Improving Extremal Optimization in Load Balancing by Local Search. EvoApplications 2014: 51-62 - [c113]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Extremal Optimization with Guided State Changes in Load Balancing of Distributed Programs. PDP 2014: 228-231 - 2013
- [c112]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Load Balancing in Distributed Applications Based on Extremal Optimization. EvoApplications 2013: 52-61 - [c111]Eryk Laskowski, Marek S. Tudruj, Richard Olejnik, Damian Kopanski:
Dynamic Load Balancing Based on Applications Global States Monitoring. ISPDC 2013: 11-18 - [c110]Adam Smyk, Marek S. Tudruj:
Genetic Algorithms Hierarchical Execution Control under a Global Application State Monitoring Infrastructure. PDP 2013: 16-23 - [c109]Damian Kopanski, Lukasz Masko, Eryk Laskowski, Adam Smyk, Janusz Borkowski, Marek S. Tudruj:
Distributed Program Execution Control Based on Application Global States Monitoring in PEGASUS DA Framework. PPAM (1) 2013: 302-314 - [c108]Lukasz Masko, Marek S. Tudruj:
Parallel Event-Driven Simulation Based on Application Global State Monitoring. PPAM (1) 2013: 348-357 - [c107]Adam Smyk, Marek S. Tudruj:
Genetic Algorithms Execution Control Under a Global Application State Monitoring Infrastructure. PPAM (1) 2013: 381-391 - 2012
- [j17]Janusz Borkowski, Marek S. Tudruj:
Dynamic Distributed Programs Control Based on Global Program States Monitoring. Scalable Comput. Pract. Exp. 13(2) (2012) - [j16]Janusz Borkowski, Damian Kopanski, Eryk Laskowski, Richard Olejnik, Marek S. Tudruj:
A Distributed Program Global Execution Control Environment Applied to Load balancing. Scalable Comput. Pract. Exp. 13(3) (2012) - [c106]Lukasz Masko, Marek S. Tudruj:
Scheduling Architecturally-Supported Regions with Precedence-Based Priorities. ISPDC 2012: 286-292 - [c105]Janusz Borkowski, Marek S. Tudruj:
Global Control in Distributed Programs with Dynamic Process Membership. PDP 2012: 525-529 - 2011
- [j15]Miroslaw Thor, Marek S. Tudruj:
Preface. J. Supercomput. 57(1): 1-4 (2011) - [j14]Marek S. Tudruj, Lukasz Masko, Miroslaw Thor:
Multi-CMP system with data communication on the fly. J. Supercomput. 57(1): 51-64 (2011) - [c104]Eryk Laskowski, Marek S. Tudruj, Ivanoe De Falco, Umberto Scafuri, Ernesto Tarantino, Richard Olejnik:
Extremal Optimization Applied to Task Scheduling of Distributed Java Programs. EvoApplications (2) 2011: 61-70 - [c103]Marek S. Tudruj, Janusz Borkowski, Lukasz Masko, Adam Smyk, Damian Kopanski, Eryk Laskowski:
Program Design Environment for Multicore Processor Systems with Program Execution Controlled by Global States Monitoring. ISPDC 2011: 102-109 - [c102]Marek S. Tudruj, Lukasz Masko:
Communication on the Fly for Hierarchical Systems of Chip Multi-processors. PARELEC 2011: 19-24 - [c101]Marek S. Tudruj, Janusz Borkowski, Damian Kopanski, Adam Smyk, Eryk Laskowski, Lukasz Masko:
Distributed Program Control Flow and Behaviour Governed by Global States Monitoring. PARELEC 2011: 73-78 - [c100]Adam Smyk, Marek S. Tudruj:
Parallel FDTD Computations Optimized by Genetic Algorithms. PARELEC 2011: 99-104 - [c99]Marek S. Tudruj, Lukasz Masko:
Data Transfers on the Fly for Hierarchical Systems of Chip Multi-Processors. PPAM (1) 2011: 50-59 - [c98]Marek S. Tudruj, Lukasz Masko:
Scheduling Parallel Programs Based on Architecture-Supported Regions. PPAM (2) 2011: 51-60 - [c97]Adam Smyk, Marek S. Tudruj:
A Parallel Genetic Algorithm Based on Global Program State Monitoring. PPAM (1) 2011: 396-405 - 2010
- [j13]Boguslaw Butrylo, Marek S. Tudruj, Lukasz Masko:
Parallel SSOR preconditioning implemented on dynamic SMP clusters with communication on the fly. Future Gener. Comput. Syst. 26(3): 491-497 (2010) - [c96]Ivanoe De Falco, Eryk Laskowski, Richard Olejnik, Umberto Scafuri, Ernesto Tarantino, Marek S. Tudruj:
Extremal Optimization Approach Applied to Initial Mapping of Distributed Java Programs. Euro-Par (1) 2010: 180-191 - [c95]Eryk Laskowski, Marek S. Tudruj, Ivanoe De Falco, Umberto Scafuri, Ernesto Tarantino, Richard Olejnik:
Distributed Java Programs Initial Mapping Based on Extremal Optimization. PARA (1) 2010: 75-85 - [c94]Janusz Borkowski, Marek S. Tudruj, Adam Smyk, Damian Kopanski:
Global Asynchronous Parallel Program Control for Multicore Processors. PARA (1) 2010: 119-130 - [c93]Adam Smyk, Marek S. Tudruj:
Streaming Model Computation of the FDTD Problem. PARA (1) 2010: 184-192 - [c92]Marek S. Tudruj, Lukasz Masko:
Scheduling Architecture-Supported Regions in Parallel Programs. PARA (1) 2010: 325-336 - [c91]Marek S. Tudruj, Lukasz Masko:
A globally-interconnected modular CMP system with communication on the fly. SoCC 2010: 371-374
2000 – 2009
- 2009
- [j12]Marek S. Tudruj:
Parallel and Distributed Computing Techniques, Selection of papers from ISPDC 2008. Scalable Comput. Pract. Exp. 10(2) (2009) - [j11]Richard Olejnik, Iyad Alshabani, Bernard Toursel, Eryk Laskowski, Marek S. Tudruj:
Load Balancing Metrics for the SOAJA Framework. Scalable Comput. Pract. Exp. 10(4) (2009) - [c90]Eryk Laskowski, Lukasz Masko, Marek S. Tudruj, Miroslaw Thor:
Program Execution Control in a Multi CMP Module System with a Look-Ahead Configured Global Network. ISPDC 2009: 195-202 - [c89]Marek S. Tudruj, Lukasz Masko, Miroslaw Thor:
Globally-Interconnected Modular CMP Systems with Communication on the Fly. PDPTA 2009: 246-252 - [c88]Lukasz Masko, Marek S. Tudruj, Gregory Mounie, Denis Trystram:
Comparison of Program Task Scheduling Algorithms for Dynamic SMP Clusters with Communication on the Fly. PPAM (2) 2009: 31-41 - [c87]Janusz Borkowski, Marek S. Tudruj:
Designing Execution Control in Programs with Global Application States Monitoring. PPAM (2) 2009: 234-243 - [c86]Adam Smyk, Marek S. Tudruj:
Optimization of FDTD Computations in a Streaming Model Architecture. PPAM (1) 2009: 547-556 - [c85]Eryk Laskowski, Lukasz Masko, Marek S. Tudruj:
Multi-CMP Module System Based on a Look-Ahead Configured Global Network. PPAM (1) 2009: 586-595 - 2008
- [c84]Richard Olejnik, Iyad Alshabani, Bernard Toursel, Eryk Laskowski, Marek S. Tudruj:
Load balancing in the SOAJA web service platform. IMCSIT 2008: 459-465 - [c83]Lukasz Masko, Marek S. Tudruj:
Task Scheduling for SoC-Based Dynamic SMP Clusters with Communication on the Fly. ISPDC 2008: 99-106 - [c82]Adam Smyk, Marek S. Tudruj:
Genetic Optimization of Parallel FDTD Computations. ISPDC 2008: 155-161 - [c81]Eryk Laskowski, Marek S. Tudruj:
Optimized Communication Control in Programs for Dynamic Look-Ahead Reconfigurable SoC Systems. ISPDC 2008: 293-299 - [c80]Janusz Borkowski, Marek S. Tudruj:
Global States Monitoring in Execution Control of Parallel Programs. ISPDC 2008: 419-423 - [c79]Janusz Borkowski, Marek S. Tudruj:
Tuning the Efficiency of Parallel Adaptive Integration with Synchronizers. PDP 2008: 351-357 - 2007
- [j10]Eryk Laskowski, Marek S. Tudruj, Richard Olejnik, Bernard Toursel:
Byte-code scheduling of Java programs with branches for desktop grid. Future Gener. Comput. Syst. 23(8): 977-982 (2007) - [c78]Henri Casanova, Olivier Beaumont, Uwe Schwiegelshohn, Marek S. Tudruj:
Topic 3 Scheduling and Load-Balancing. Euro-Par 2007: 171 - [c77]Marek S. Tudruj, Lukasz Masko:
Parallel Matrix Multiplication Based on Dynamic SMP Clusters in SoC Technology. ISPA Workshops 2007: 375-385 - [c76]Janusz Borkowski, Marek S. Tudruj:
Dual Communication Network in Program Control Based on Global Application State Monitoring. ISPDC 2007: 37-44 - [c75]Adam Smyk, Marek S. Tudruj:
Hierarchical Optimization of the Parallel FDTD Computations Based on the Macro Data Flow Graph Paradigm. ISPDC 2007: 53-60 - [c74]Marek S. Tudruj, Damian Kopanski, Janusz Borkowski:
Dynamic Workflow Control with Global States Monitoring. ISPDC 2007: 327-332 - [c73]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Global predicate monitoring applied for control of parallel irregular computations. PDP 2007: 105-112 - [c72]Marek S. Tudruj, Lukasz Masko:
Dynamic SMP Clusters with Communication on the Fly in SoC Technology Applied for Medium-Grain Parallel Matrix Multiplication. PDP 2007: 270-277 - [c71]Eryk Laskowski, Marek S. Tudruj:
Inter-processor Communication Optimization in Dynamically Reconfigurable Embedded Parallel Systems. PPAM 2007: 39-48 - [c70]Adam Smyk, Marek S. Tudruj:
Optimization of Parallel FDTD Computations Using a Genetic Algorithm. PPAM 2007: 559-569 - [c69]Marek S. Tudruj, Damian Kopanski, Janusz Borkowski:
Dynamic Control of Grid Workflows through Activities Global State Monitoring. PPAM 2007: 807-816 - [c68]Valérie Fiolet, Richard Olejnik, Eryk Laskowski, Lukasz Masko, Marek S. Tudruj, Bernard Toursel:
Data Mining on Desktop Grid Platforms. PPAM 2007: 912-921 - [c67]Janusz Borkowski, Marek S. Tudruj:
Parallel Irregular Computations with Dynamic Load Balancing through Global Consistent State Monitoring. PPAM 2007: 971-980 - 2006
- [j9]Adam Smyk, Marek S. Tudruj:
RDMA control support for fine-grain parallel computations. J. Syst. Archit. 52(2): 117-128 (2006) - [c66]Eryk Laskowski, Marek S. Tudruj:
Embedded Parallel Systems Based on Dynamic Look-Ahead Reconfiguration in Redundant Communication Resources. DSD 2006: 176-179 - [c65]Adam Smyk, Marek S. Tudruj:
Prototyping Parallel FDTD Programs by Macro Data Flow Graph Analysis. DSD 2006: 295-304 - [c64]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Dynamic Workflow Implementation Based on Synchronizers. EUROMICRO-SEAA 2006: 448-455 - [c63]Boguslaw Butrylo, Marek S. Tudruj, Lukasz Masko:
Distributed Formulation of Artificial Reconstruction Technique with Reordering of Critical Data Sets. ISPDC 2006: 90-98 - [c62]Eryk Laskowski, Marek S. Tudruj:
Assessment of Dynamic Look-Ahead Inter-Processor Connection Reconfiguration for Different Control Paradigms. ISPDC 2006: 115-122 - [c61]Iyad Alshabani, Richard Olejnik, Bernard Toursel, Marek S. Tudruj, Eryk Laskowski:
A Framework for Desktop GRID Applications: CCADAJ. ISPDC 2006: 208-214 - [c60]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Usage of Global States-Based Application Control. ISPDC 2006: 309-316 - [c59]Marek S. Tudruj, Lukasz Masko:
Fast Matrix Multiplication in Dynamic SMP Clusters with Communication on the Fly in Systems on Chip Technology. PARELEC 2006: 77-82 - [c58]Adam Smyk, Marek S. Tudruj, Lukasz Masko:
Open MP Extension for Multithreaded Computing with Dynamic SMP Processor Clusters with Communication on the Fly. PARELEC 2006: 83-88 - [c57]Lukasz Masko, Gregory Mounie, Denis Trystram, Marek S. Tudruj:
Program Graph Structuring for Execution in Dynamic SMP Clusters Using Moldable Tasks. PARELEC 2006: 95-100 - [c56]Eryk Laskowski, Marek S. Tudruj:
Efficient Parallel Embedded Computing through Look-Ahead Configured Dynamic Inter-Processor Connections. PARELEC 2006: 202-207 - [c55]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Parallel Irregular Computations Control Based on Global Predicate Monitoring. PARELEC 2006: 233-238 - [c54]Valérie Fiolet, Eryk Laskowski, Richard Olejnik, Lukasz Masko, Bernard Toursel, Marek S. Tudruj:
Optimizing Distributed Data Mining Applications Based on Object Clustering Methods. PARELEC 2006: 257-262 - [c53]Adam Smyk, Marek S. Tudruj:
Parallel FDTD Computations Optimized by Program Macro Data Flow Graph Redeployment. PARELEC 2006: 421-426 - [c52]Eryk Laskowski, Marek S. Tudruj:
Scheduling Programs with Conditional Branches for Look-Ahead Dynamically Reconfigurable Systems. PDP 2006: 211-218 - [c51]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Application Control on Grid Using Predicates Defined on Global States of Co-Operating Parallel Programs. PDP 2006: 248-255 - 2005
- [c50]Eryk Laskowski, Marek S. Tudruj, Richard Olejnik, Bernard Toursel:
Java Byte Code Scheduling Based on the Most-Often-Used-Paths in Programs with Branches. ISPDC 2005: 21-27 - [c49]Marek S. Tudruj, Janusz Borkowski, Damian Kopanski:
Load Balancing with Migration Based on Synchronizers in PS-GRADE Graphical Tool. ISPDC 2005: 105-112 - [c48]Adam Smyk, Marek S. Tudruj:
Profiling Macro Data Flow Graphs for Parallel Implementation of FDTD Computations. ISPDC 2005: 121-130 - [c47]Marek S. Tudruj, Lukasz Masko:
Towards Massively Parallel Numerical Computations Based on Dynamic SMP Clusters with Communication on the Fly. ISPDC 2005: 155-162 - [c46]Boguslaw Butrylo, Marek S. Tudruj, Lukasz Masko, Laurent Nicolas:
SSOR Preconditioned Conjugate Gradient Algorithm in Dynamic SMP Clusters with Communication on the Fly. ISPDC 2005: 163-172 - [c45]Marek S. Tudruj, Lukasz Masko:
Dynamic SMP Clusters in SoC Technology - Towards Massively Parallel Fine Grain Numerics. PPAM 2005: 34-42 - [c44]Damian Kopanski, Marek S. Tudruj, Janusz Borkowski:
Applications Control on Grid with Synchronizers. PPAM 2005: 180-187 - [c43]Boguslaw Butrylo, Marek S. Tudruj, Lukasz Masko:
Iterative Reconstruction of Tomographic Scans in Dynamic SMP Clusters with Communication on the Fly. PPAM 2005: 304-311 - [c42]Adam Smyk, Marek S. Tudruj:
Optimization of Parallel FDTD Computations Based on Structural Redeployment of Macro Data Flow Nodes. PPAM 2005: 542-550 - [c41]Eryk Laskowski, Marek S. Tudruj:
Task Scheduling for Look-Ahead Reconfigurable Systems in Presence of Conditional Branches. PPAM 2005: 863-870 - [c40]Lukasz Masko, Pierre-François Dutot, Gregory Mounie, Denis Trystram, Marek S. Tudruj:
Scheduling Moldable Tasks for Dynamic SMP Clusters in SoC Technology. PPAM 2005: 879-887 - [c39]Eryk Laskowski, Marek S. Tudruj, Richard Olejnik, Bernard Toursel:
Java Programs Optimization Based on the Most-Often-Used-Paths Approach. PPAM 2005: 944-951 - [c38]Jaroslaw Forenc, Andrzej Jordan, Marek S. Tudruj:
Parallel Modeling of Transient States Analysis in Electrical Circuits. PVM/MPI 2005: 512-519 - 2004
- [c37]Marek S. Tudruj, Janusz Borkowski, Damian Kopanski:
Graphical design of Parallel Programs with Control Based on Global Applications States using an Extended P-GRADE System. DAPSYS 2004: 113-120 - [c36]Marek S. Tudruj, Lukasz Masko:
Dynamic SMP Clusters with Communication on the Fly in NoC Technology for Very Fine Grain Computations. ISPDC/HeteroPar 2004: 97-104 - [c35]Marek S. Tudruj, Janusz Borkowski, Damian Kopanski:
Parallel Program Graphical Design with Program Execution Control Based on Global Application States. ISPDC/HeteroPar 2004: 240-247 - [c34]Adam Smyk, Marek S. Tudruj:
Program Implementation Based on Macro Data Flow Paradigm with RDMA Communication Support. ISPDC/HeteroPar 2004: 270-276 - [c33]Adam Smyk, Marek S. Tudruj:
Parallel Implementation of FDTD Computations Based on Macro Data Flow Paradigm. PARELEC 2004: 19-24 - [c32]Lukasz Masko, Grégory Mounié, Denis Trystram, Marek S. Tudruj:
Moldable Task Scheduling in Dynamic SMP Clusters with Communication on the Fly. PARELEC 2004: 59-64 - [c31]Damian Kopanski, Janusz Borkowski, Marek S. Tudruj:
Co-Ordination of Parallel GRID Applications using Synchronizers. PARELEC 2004: 323-327 - [c30]Marek S. Tudruj, Lukasz Masko:
Fine-Grain Numerical Computations in Dynamic SMP Clusters with Communication on the Fly. PARELEC 2004: 386-389 - [c29]Eryk Laskowski, Richard Olejnik, Bernard Toursel, Marek S. Tudruj:
Scheduling Byte Code-Defined Data Dependence Graphs of Object Oriented Programs. PARELEC 2004: 398-401 - [c28]Adam Smyk, Marek S. Tudruj:
RDMA Control Support for Fine-Grain Parallel Computations. PDP 2004: 208- - 2003
- [j8]Janusz Borkowski, Marek S. Tudruj, Damian Kopanski:
Synchronization based on Global States as a General control method in Parallel Programs. Int. J. Comput. 2(3): 12-20 (2003) - [c27]Eryk Laskowski, Marek S. Tudruj:
Inter-processor Connection Reconfiguration Based on Dynamic Look-Ahead Control of Multiple Crossbar Switches. FPL 2003: 71-80 - [c26]Janusz Borkowski, Marek S. Tudruj, Damian Kopanski:
Graphical Design Tool for Parallel Programs with Execution Control Based on Global Application States. ISPDC 2003: 37-42 - [c25]Marek S. Tudruj, Lukasz Masko:
Dynamic SMP Clusters with Communication on the Fly. ISPDC 2003: 250-257 - [c24]Eryk Laskowski, Marek S. Tudruj:
Time-Transparent Inter-Processor Connection Reconfiguration in Parallel Systems Based on Multiple Crossbar Switches. PARCO 2003: 449-456 - [c23]Marek S. Tudruj, Lukasz Masko:
Communication on the Fly and Program Execution Control in a System of Dynamically Configurable SMP Clusters. PDP 2003: 67-74 - [c22]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Implementing Control in Parallel Programs by Synchronization-Driven Activation and Cancellation. PDP 2003: 316-323 - [c21]Adam Smyk, Marek S. Tudruj:
RDMA Communication Based on Rotating Buffers for Efficient Parallel Fine-Grain Computations. PPAM 2003: 50-58 - [c20]Marek S. Tudruj, Lukasz Masko:
Communication on the Fly in Dynamic SMP Clusters - Towards Efficient Fine Grain Numerical Computations. PPAM 2003: 59-68 - [c19]Janusz Borkowski, Marek S. Tudruj, Damian Kopanski:
Parallel Program Design Tool with Application Control Methods Based on Global States. PPAM 2003: 338-343 - 2002
- [j7]Marek S. Tudruj, Lukasz Masko:
Communication on the Fly in a System of Dynamic SMP Clusters. Sci. Ann. Cuza Univ. 11: 287-303 (2002) - [c18]Marek S. Tudruj, Lukasz Masko:
Program Execution Control for Communication on the Fly in Dynamic Shared Memory Processor Clusters. PARELEC 2002: 15-20 - [c17]Adam Smyk, Marek S. Tudruj:
Irregular Fine-Grain Parallel Computing Based on the Slide Register Window Architecture of Hitachi SR2201. PARELEC 2002: 39-43 - [c16]Damian Kopanski, Eryk Laskowski, Marek S. Tudruj:
Modeling Parallel program Execution Control by Directed Graphs with Synchronous Communication. PARELEC 2002: 76-81 - [c15]Janusz Borkowski, Damian Kopanski, Marek S. Tudruj:
Adding Advanced Synchronization to Processes in GRADE. PARELEC 2002: 139-144 - [c14]Jaroslaw Forenc, Andrzej Jordan, Marek S. Tudruj:
A Survey of Speculative Methods for Transient State Analysis. PARELEC 2002: 353-358 - 2001
- [c13]Marek S. Tudruj:
Embedded Cluster Computing through Dynamic Reconfigurability of Inter-Processor Connections. IWCC 2001: 77-91 - [c12]Marek S. Tudruj, Lukasz Masko:
An Architecture and Task Scheduling Algorithm for Systems Based on Dynamically Reconfigurable Shared Memory Clusters. IWCC 2001: 197-206 - [c11]Adam Smyk, Marek S. Tudruj:
OpenMP / MPI Programming in a Multi-cluster System Based on Shared Memory/Message Passing Communication. IWCC 2001: 241-248 - [c10]Marek S. Tudruj, Lukasz Masko:
A Parallel System Architecture Based on Dynamically Configurable Shared Memory Clusters. PPAM 2001: 51-64 - [c9]Marek S. Tudruj, Lukasz Masko:
Task Scheduling for Dynamically Configurable Multiple SMP Clusters Based on Extended DSC Approach. PPAM 2001: 115-124 - [c8]Adam Smyk, Marek S. Tudruj:
Application of Mixed MPI OpenMP Programming in a Multi SMP Cluster Computer. PPAM 2001: 288-298 - 2000
- [c7]Marek S. Tudruj:
'Connection by Communication' Paradigm for Dynamically Reconfigurable Multi-Processor Systems. PARELEC 2000: 74-78 - [c6]Jaroslaw Forenc, Andrzej Jordan, Marek S. Tudruj:
Speculative Parallel Processing Applied to Modeling of Initial Problems in Electrical Circuits. PARELEC 2000: 192-196 - [c5]Adam Smyk, Marek S. Tudruj:
Inter-Process Communication for Parallel Computations of Wavelet Transforms on Hitachi SR2201 Supercomputer. PARELEC 2000: 248-252
1990 – 1999
- 1998
- [j6]Marek S. Tudruj, Péter Kacsuk:
Extending GRADE Towards Explicit Process SYNCHRONISATION in Parallel Programs. Comput. Artif. Intell. 17(5): 507-516 (1998) - 1997
- [j5]Marek S. Tudruj:
Dynamically reconfigurable heterogeneous multi-processor systems with transputer-controlled communication. J. Syst. Archit. 43(1-5): 27-32 (1997) - 1995
- [c4]Marek S. Tudruj:
Look-Ahead Dynamic Reconfiguration of Link Connections in Multi-Processor Architectures. PARCO 1995: 539-546 - 1993
- [j4]Marek S. Tudruj:
Dynamically reconfigurable multi-transputer systems with serial bus control. Microprocess. Microprogramming 37(1-5): 149-152 (1993) - 1992
- [j3]Marek S. Tudruj:
Multi-layer reconfigurable transputer systems with distributed control of link connections. Microprocess. Microprogramming 34(1-5): 201-204 (1992) - 1991
- [c3]Marek S. Tudruj, Miroslaw Thor:
The Architecture of a Multilayer Dynamically Reconfigurable Transputer System. ICPP (1) 1991: 640-641 - 1990
- [j2]Miroslaw Szturmowicz, Marek S. Tudruj:
A multi-layer transputer network for efficient parallel execution of OCCAM programs. Microprocessing and Microprogramming 28(1-5): 133-138 (1990) - [j1]Ryszard F. Gajda, Miroslaw Thor, Marek S. Tudruj:
Enhancing a control graph based HDL for performance evaluation of simulated architectures. Microprocessing and Microprogramming 30(1-5): 683-691 (1990)
1980 – 1989
- 1985
- [c2]Marek S. Tudruj, Ryszard F. Gajda:
A microprogrammable architecture with quasi time-transparent structured control. MICRO 1985: 19-29 - [c1]Marek S. Tudruj:
A customized control store design in microprogrammed control units. MICRO 1985: 189-199
Coauthor Index
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