2008 | ||
---|---|---|
85 | EE | Adam Smyk, Marek Tudruj: Genetic Optimization of Parallel FDTD Computations. ISPDC 2008: 155-161 |
84 | EE | Eryk Laskowski, Marek Tudruj: Optimized Communication Control in Programs for Dynamic Look-Ahead Reconfigurable SoC Systems. ISPDC 2008: 293-299 |
83 | EE | Janusz Borkowski, Marek Tudruj: Global States Monitoring in Execution Control of Parallel Programs. ISPDC 2008: 419-423 |
82 | EE | Lukasz Masko, Marek Tudruj: Task Scheduling for SoC-Based Dynamic SMP Clusters with Communication on the Fly. ISPDC 2008: 99-106 |
81 | EE | Janusz Borkowski, Marek Tudruj: Tuning the Efficiency of Parallel Adaptive Integration with Synchronizers. PDP 2008: 351-357 |
2007 | ||
80 | EE | Henri Casanova, Olivier Beaumont, Uwe Schwiegelshohn, Marek Tudruj: Topic 3 Scheduling and Load-Balancing. Euro-Par 2007: 171 |
79 | EE | Marek Tudruj, Lukasz Masko: Parallel Matrix Multiplication Based on Dynamic SMP Clusters in SoC Technology. ISPA Workshops 2007: 375-385 |
78 | EE | Marek Tudruj, Damian Kopanski, Janusz Borkowski: Dynamic Workflow Control with Global States Monitoring. ISPDC 2007: 327-332 |
77 | EE | Janusz Borkowski, Marek Tudruj: Dual Communication Network in Program Control Based on Global Application State Monitoring. ISPDC 2007: 37-44 |
76 | EE | Adam Smyk, Marek Tudruj: Hierarchical Optimization of the Parallel FDTD Computations Based on the Macro Data Flow Graph Paradigm. ISPDC 2007: 53-60 |
75 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Global predicate monitoring applied for control of parallel irregular computations. PDP 2007: 105-112 |
74 | EE | Marek 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 |
73 | EE | Eryk Laskowski, Marek Tudruj: Inter-processor Communication Optimization in Dynamically Reconfigurable Embedded Parallel Systems. PPAM 2007: 39-48 |
72 | EE | Adam Smyk, Marek Tudruj: Optimization of Parallel FDTD Computations Using a Genetic Algorithm. PPAM 2007: 559-569 |
71 | EE | Marek Tudruj, Damian Kopanski, Janusz Borkowski: Dynamic Control of Grid Workflows through Activities Global State Monitoring. PPAM 2007: 807-816 |
70 | EE | Valérie Fiolet, Richard Olejnik, Eryk Laskowski, Lukasz Masko, Marek Tudruj, Bernard Toursel: Data Mining on Desktop Grid Platforms. PPAM 2007: 912-921 |
69 | EE | Janusz Borkowski, Marek Tudruj: Parallel Irregular Computations with Dynamic Load Balancing through Global Consistent State Monitoring. PPAM 2007: 971-980 |
68 | EE | Eryk Laskowski, Marek Tudruj, Richard Olejnik, Bernard Toursel: Byte-code scheduling of Java programs with branches for desktop grid. Future Generation Comp. Syst. 23(8): 977-982 (2007) |
2006 | ||
67 | EE | Eryk Laskowski, Marek Tudruj: Embedded Parallel Systems Based on Dynamic Look-Ahead Reconfiguration in Redundant Communication Resources. DSD 2006: 176-179 |
66 | EE | Adam Smyk, Marek Tudruj: Prototyping Parallel FDTD Programs by Macro Data Flow Graph Analysis. DSD 2006: 295-304 |
65 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Dynamic Workflow Implementation Based on Synchronizers. EUROMICRO-SEAA 2006: 448-455 |
64 | EE | Eryk Laskowski, Marek Tudruj: Assessment of Dynamic Look-Ahead Inter-Processor Connection Reconfiguration for Different Control Paradigms. ISPDC 2006: 115-122 |
63 | EE | Iyad Alshabani, Richard Olejnik, Bernard Toursel, Marek Tudruj, Eryk Laskowski: A Framework for Desktop GRID Applications: CCADAJ. ISPDC 2006: 208-214 |
62 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Usage of Global States-Based Application Control. ISPDC 2006: 309-316 |
61 | EE | Boguslaw Butrylo, Marek Tudruj, Lukasz Masko: Distributed Formulation of Artificial Reconstruction Technique with Reordering of Critical Data Sets. ISPDC 2006: 90-98 |
60 | EE | Eryk Laskowski, Marek Tudruj: Efficient Parallel Embedded Computing through Look-Ahead Configured Dynamic Inter-Processor Connections. PARELEC 2006: 202-207 |
59 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Parallel Irregular Computations Control Based on Global Predicate Monitoring. PARELEC 2006: 233-238 |
58 | EE | Valérie Fiolet, Eryk Laskowski, Richard Olejnik, Lukasz Masko, Bernard Toursel, Marek Tudruj: Optimizing Distributed Data Mining Applications Based on Object Clustering Methods. PARELEC 2006: 257-262 |
57 | EE | Adam Smyk, Marek Tudruj: Parallel FDTD Computations Optimized by Program Macro Data Flow Graph Redeployment. PARELEC 2006: 421-426 |
56 | EE | Marek Tudruj, Lukasz Masko: Fast Matrix Multiplication in Dynamic SMP Clusters with Communication on the Fly in Systems on Chip Technology. PARELEC 2006: 77-82 |
55 | EE | Adam Smyk, Marek Tudruj, Lukasz Masko: Open MP Extension for Multithreaded Computing with Dynamic SMP Processor Clusters with Communication on the Fly. PARELEC 2006: 83-88 |
54 | EE | Lukasz Masko, Gregory Mounie, Denis Trystram, Marek Tudruj: Program Graph Structuring for Execution in Dynamic SMP Clusters Using Moldable Tasks. PARELEC 2006: 95-100 |
53 | EE | Eryk Laskowski, Marek Tudruj: Scheduling Programs with Conditional Branches for Look-Ahead Dynamically Reconfigurable Systems. PDP 2006: 211-218 |
52 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Application Control on Grid Using Predicates Defined on Global States of Co-Operating Parallel Programs. PDP 2006: 248-255 |
51 | EE | Adam Smyk, Marek Tudruj: RDMA control support for fine-grain parallel computations. Journal of Systems Architecture 52(2): 117-128 (2006) |
2005 | ||
50 | EE | Marek Tudruj, Janusz Borkowski, Damian Kopanski: Load Balancing with Migration Based on Synchronizers in PS-GRADE Graphical Tool. ISPDC 2005: 105-112 |
49 | EE | Adam Smyk, Marek Tudruj: Profiling Macro Data Flow Graphs for Parallel Implementation of FDTD Computations. ISPDC 2005: 121-130 |
48 | EE | Marek Tudruj, Lukasz Masko: Towards Massively Parallel Numerical Computations Based on Dynamic SMP Clusters with Communication on the Fly. ISPDC 2005: 155-162 |
47 | EE | Boguslaw Butrylo, Marek Tudruj, Lukasz Masko, Laurent Nicolas: SSOR Preconditioned Conjugate Gradient Algorithm in Dynamic SMP Clusters with Communication on the Fly. ISPDC 2005: 163-172 |
46 | EE | Eryk Laskowski, Marek Tudruj, Richard Olejnik, Bernard Toursel: Java Byte Code Scheduling Based on the Most-Often-Used-Paths in Programs with Branches. ISPDC 2005: 21-27 |
45 | EE | Damian Kopanski, Marek Tudruj, Janusz Borkowski: Applications Control on Grid with Synchronizers. PPAM 2005: 180-187 |
44 | EE | Boguslaw Butrylo, Marek Tudruj, Lukasz Masko: Iterative Reconstruction of Tomographic Scans in Dynamic SMP Clusters with Communication on the Fly. PPAM 2005: 304-311 |
43 | EE | Marek Tudruj, Lukasz Masko: Dynamic SMP Clusters in SoC Technology - Towards Massively Parallel Fine Grain Numerics. PPAM 2005: 34-42 |
42 | EE | Adam Smyk, Marek Tudruj: Optimization of Parallel FDTD Computations Based on Structural Redeployment of Macro Data Flow Nodes. PPAM 2005: 542-550 |
41 | EE | Eryk Laskowski, Marek Tudruj: Task Scheduling for Look-Ahead Reconfigurable Systems in Presence of Conditional Branches. PPAM 2005: 863-870 |
40 | EE | Lukasz Masko, Pierre-François Dutot, Gregory Mounie, Denis Trystram, Marek Tudruj: Scheduling Moldable Tasks for Dynamic SMP Clusters in SoC Technology. PPAM 2005: 879-887 |
39 | EE | Eryk Laskowski, Marek Tudruj, Richard Olejnik, Bernard Toursel: Java Programs Optimization Based on the Most-Often-Used-Paths Approach. PPAM 2005: 944-951 |
38 | EE | Jaroslaw Forenc, Andrzej Jordan, Marek Tudruj: Parallel Modeling of Transient States Analysis in Electrical Circuits. PVM/MPI 2005: 512-519 |
2004 | ||
37 | Marek 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 | |
36 | EE | Marek Tudruj, Janusz Borkowski, Damian Kopanski: Parallel Program Graphical Design with Program Execution Control Based on Global Application States. ISPDC/HeteroPar 2004: 240-247 |
35 | EE | Adam Smyk, Marek Tudruj: Program Implementation Based on Macro Data Flow Paradigm with RDMA Communication Support. ISPDC/HeteroPar 2004: 270-276 |
34 | EE | Marek Tudruj, Lukasz Masko: Dynamic SMP Clusters with Communication on the Fly in NoC Technology for Very Fine Grain Computations. ISPDC/HeteroPar 2004: 97-104 |
33 | EE | Adam Smyk, Marek Tudruj: Parallel Implementation of FDTD Computations Based on Macro Data Flow Paradigm. PARELEC 2004: 19-24 |
32 | EE | Damian Kopanski, Janusz Borkowski, Marek Tudruj: Co-Ordination of Parallel GRID Applications using Synchronizers. PARELEC 2004: 323-327 |
31 | EE | Marek Tudruj, Lukasz Masko: Fine-Grain Numerical Computations in Dynamic SMP Clusters with Communication on the Fly. PARELEC 2004: 386-389 |
30 | EE | Eryk Laskowski, Richard Olejnik, Bernard Toursel, Marek Tudruj: Scheduling Byte Code-Defined Data Dependence Graphs of Object Oriented Programs. PARELEC 2004: 398-401 |
29 | EE | Lukasz Masko, Grégory Mounié, Denis Trystram, Marek Tudruj: Moldable Task Scheduling in Dynamic SMP Clusters with Communication on the Fly. PARELEC 2004: 59-64 |
28 | EE | Adam Smyk, Marek Tudruj: RDMA Control Support for Fine-Grain Parallel Computations. PDP 2004: 208- |
2003 | ||
27 | EE | Eryk Laskowski, Marek Tudruj: Inter-processor Connection Reconfiguration Based on Dynamic Look-Ahead Control of Multiple Crossbar Switches. FPL 2003: 71-80 |
26 | EE | Marek Tudruj, Lukasz Masko: Dynamic SMP Clusters with Communication on the Fly. ISPDC 2003: 250-257 |
25 | EE | Janusz Borkowski, Marek Tudruj, Damian Kopanski: Graphical Design Tool for Parallel Programs with Execution Control Based on Global Application States. ISPDC 2003: 37-42 |
24 | Eryk Laskowski, Marek Tudruj: Time-Transparent Inter-Processor Connection Reconfiguration in Parallel Systems Based on Multiple Crossbar Switches. PARCO 2003: 449-456 | |
23 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Implementing Control in Parallel Programs by Synchronization-Driven Activation and Cancellation. PDP 2003: 316-323 |
22 | EE | Marek Tudruj, Lukasz Masko: Communication on the Fly and Program Execution Control in a System of Dynamically Configurable SMP Clusters. PDP 2003: 67-74 |
21 | EE | Janusz Borkowski, Marek Tudruj, Damian Kopanski: Parallel Program Design Tool with Application Control Methods Based on Global States. PPAM 2003: 338-343 |
20 | EE | Adam Smyk, Marek Tudruj: RDMA Communication Based on Rotating Buffers for Efficient Parallel Fine-Grain Computations. PPAM 2003: 50-58 |
19 | EE | Marek Tudruj, Lukasz Masko: Communication on the Fly in Dynamic SMP Clusters - Towards Efficient Fine Grain Numerical Computations. PPAM 2003: 59-68 |
2002 | ||
18 | EE | Janusz Borkowski, Damian Kopanski, Marek Tudruj: Adding Advanced Synchronization to Processes in GRADE. PARELEC 2002: 139-144 |
17 | EE | Marek Tudruj, Lukasz Masko: Program Execution Control for Communication on the Fly in Dynamic Shared Memory Processor Clusters. PARELEC 2002: 15-20 |
16 | EE | Jaroslaw Forenc, Andrzej Jordan, Marek Tudruj: A Survey of Speculative Methods for Transient State Analysis. PARELEC 2002: 353-358 |
15 | EE | Adam Smyk, Marek Tudruj: Irregular Fine-Grain Parallel Computing Based on the Slide Register Window Architecture of Hitachi SR2201. PARELEC 2002: 39-43 |
14 | EE | Damian Kopanski, Eryk Laskowski, Marek Tudruj: Modeling Parallel program Execution Control by Directed Graphs with Synchronous Communication. PARELEC 2002: 76-81 |
13 | Marek Tudruj, Lukasz Masko: Communication on the Fly in a System of Dynamic SMP Clusters. Sci. Ann. Cuza Univ. 11: 287-303 (2002) | |
2001 | ||
12 | EE | Marek Tudruj, Lukasz Masko: An Architecture and Task Scheduling Algorithm for Systems Based on Dynamically Reconfigurable Shared Memory Clusters. IWCC 2001: 197-206 |
11 | EE | Adam Smyk, Marek Tudruj: OpenMP / MPI Programming in a Multi-cluster System Based on Shared Memory/Message Passing Communication. IWCC 2001: 241-248 |
10 | EE | Marek Tudruj: Embedded Cluster Computing through Dynamic Reconfigurability of Inter-Processor Connections. IWCC 2001: 77-91 |
9 | EE | Marek Tudruj, Lukasz Masko: Task Scheduling for Dynamically Configurable Multiple SMP Clusters Based on Extended DSC Approach. PPAM 2001: 115-124 |
8 | EE | Adam Smyk, Marek Tudruj: Application of Mixed MPI OpenMP Programming in a Multi SMP Cluster Computer. PPAM 2001: 288-298 |
7 | EE | Marek Tudruj, Lukasz Masko: A Parallel System Architecture Based on Dynamically Configurable Shared Memory Clusters. PPAM 2001: 51-64 |
2000 | ||
6 | EE | Jaroslaw Forenc, Andrzej Jordan, Marek Tudruj: Speculative Parallel Processing Applied to Modeling of Initial Problems in Electrical Circuits. PARELEC 2000: 192-196 |
5 | EE | Adam Smyk, Marek Tudruj: Inter-Process Communication for Parallel Computations of Wavelet Transforms on Hitachi SR2201 Supercomputer. PARELEC 2000: 248-252 |
4 | EE | Marek Tudruj: 'Connection by Communication' Paradigm for Dynamically Reconfigurable Multi-Processor Systems. PARELEC 2000: 74-78 |
1998 | ||
3 | Marek Tudruj, Péter Kacsuk: Extending GRADE Towards Explicit Process SYNCHRONISATION in Parallel Programs. Computers and Artificial Intelligence 17(5): (1998) | |
1997 | ||
2 | Marek Tudruj: Dynamically reconfigurable heterogeneous multi-processor systems with transputer-controlled communication. Journal of Systems Architecture 43(1-5): 27-32 (1997) | |
1991 | ||
1 | Marek Tudruj, Miroslav Thor: The Architecture of a Multilayer Dynamically Reconfigurable Transputer System. ICPP (1) 1991: 640-641 |