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-/*! \page publis Publications
-
-\section pub_reference Reference publication about SimGrid
-
-When citing SimGrid, the prefered reference paper is Scheduling
-Distributed Applications: the SimGrid Simulation Framework, even if it's
-a bit old now. We are actively working on improving this.
-
-\li Scheduling Distributed Applications: the
- SimGrid Simulation Framework\n
- by Henri Casanova and Arnaud Legrand and Loris Marchal\n
- Proceedings of the third IEEE International Symposium
- on Cluster Computing and the Grid (CCGrid'03)\n
- Since the advent of distributed computer systems an active field
- of research has been the investigation of scheduling strategies
- for parallel applications. The common approach is to employ
- scheduling heuristics that approximate an optimal
- schedule. Unfortunately, it is often impossible to obtain
- analytical results to compare the efficacy of these heuristics.
- One possibility is to conducts large numbers of back-to-back
- experiments on real platforms. While this is possible on
- tightly-coupled platforms, it is infeasible on modern distributed
- platforms (i.e. Grids) as it is labor-intensive and does not
- enable repeatable results. The solution is to resort to
- simulations. Simulations not only enables repeatable results but
- also make it possible to explore wide ranges of platform and
+/*! \page publis Reference publications about SimGrid
+
+
+When citing SimGrid, the prefered reference paper is SimGrid: a
+Generic Framework for Large-Scale Distributed Experimentations.
+
+\li SimGrid: a Generic Framework for Large-Scale Distributed
+ Experimentations\n
+ by Henri Casanova, Arnaud Legrand and Martin Quinson\n
+ Proceedings of the 10th IEEE International Conference on Computer
+ Modelling and Simulation (UKSIM/EUROSIM'08)\n
+ Distributed computing is a very broad and active research area
+ comprising fields such as cluster computing, computational
+ grids, desktop grids and peer-to-peer (P2P) systems.
+ Unfortunately, it is often impossible to obtain theoretical or
+ analytical results to compare the performance of algorithms
+ targeting such systems. One possibility is to conduct large
+ numbers of back-to-back experiments on real platforms. While
+ this is possible on tightly-coupled platforms, it is infeasible
+ on modern distributed platforms as experiments are labor-intensive
+ and results typically not reproducible. Consequently, one must
+ resort to simulations, which enable reproducible results and also
+ make it possible to explore wide ranges of platform and
application scenarios.\n
- In this paper we present the SimGrid framework which enables the
- simulation of distributed applications in distributed computing
- environments for the specific purpose of developing and evaluating
- scheduling algorithms. This paper focuses on SimGrid v2, which
- greatly improves on the first version of the software with more
- realistic network models and topologies. SimGrid v2 also enables
- the simulation of distributed scheduling agents, which has become
- critical for current scheduling research in large-scale platforms.
- After describing and validating these features, we present a case
- study by which we demonstrate the usefulness of SimGrid for
- conducting scheduling research.
-
-\section pub_simulation Other publications about the SimGrid framework
-
-\li The SimGrid Project - Simulation and Deployment of Distributed Applications\n
- by A. Legrand, M. Quinson, K. Fujiwara, H. Casanova\n
- POSTER in Proceedings of the IEEE International Symposium on High Performance Distributed Computing (HPDC-15), Paris, France, May 2006.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/simgrid_hpdc06.pdf
-
-\li A Network Model for Simulation of Grid Application\n
- by Henri Casanova and Loris Marchal\n
- \anchor paper_tcp
- In this work we investigate network models that can be
- potentially employed in the simulation of scheduling algorithms for
- distributed computing applications. We seek to develop a model of TCP
- communication which is both high-level and realistic. Previous research
- works show that accurate and global modeling of wide-area networks, such
- as the Internet, faces a number of challenging issues. However, some
- global models of fairness and bandwidth-sharing exist, and can be link
- withthe behavior of TCP. Using both previous results and simulation (with
- NS), we attempt to understand the macroscopic behavior of
- TCP communications. We then propose a global model of the network for the
- Grid platform. We perform partial validation of this model in
- simulation. The model leads to an algorithm for computing
- bandwidth-sharing. This algorithm can then be implemented as part of Grid
- application simulations. We provide such an implementation for the
- SimGrid simulation toolkit.\n
- ftp://ftp.ens-lyon.fr/pub/LIP/Rapports/RR/RR2002/RR2002-40.ps.gz
-
-
-\li MetaSimGrid : Towards realistic scheduling simulation of
- distributed applications\n
- by Arnaud Legrand and Julien Lerouge\n
- Most scheduling problems are already hard on homogeneous
- platforms, they become quite intractable in an heterogeneous
- framework such as a metacomputing grid. In the best cases, a
- guaranteed heuristic can be found, but most of the time, it is
- not possible. Real experiments or simulations are often
- involved to test or to compare heuristics. However, on a
- distributed heterogeneous platform, such experiments are
- technically difficult to drive, because of the genuine
- instability of the platform. It is almost impossible to
- guarantee that a platform which is not dedicated to the
- experiment, will remain exactly the same between two tests,
- thereby forbidding any meaningful comparison. Simulations are
- then used to replace real experiments, so as to ensure the
- reproducibility of measured data. A key issue is the
- possibility to run the simulations against a realistic
- environment. The main idea of trace-based simulation is to
- record the platform parameters today, and to simulate the
- algorithms tomorrow, against the recorded data: even though it
- is not the current load of the platform, it is realistic,
- because it represents a fair summary of what happened
- previously. A good example of a trace-based simulation tool is
- SimGrid, a toolkit providing a set of core abstractions and
- functionalities that can be used to easily build simulators for
- specific application domains and/or computing environment
- topologies. Nevertheless, SimGrid lacks a number of convenient
- features to craft simulations of a distributed application
- where scheduling decisions are not taken by a single
- process. Furthermore, modeling a complex platform by hand is
- fastidious for a few hosts and is almost impossible for a real
- grid. This report is a survey on simulation for scheduling
- evaluation purposes and present MetaSimGrid, a simulator built
- on top of SimGrid.\n
- ftp://ftp.ens-lyon.fr/pub/LIP/Rapports/RR/RR2002/RR2002-28.ps.gz
-
-\li SimGrid: A Toolkit for the Simulation of Application
- Scheduling\n
- by Henri Casanova\n
- Advances in hardware and software technologies have made it
- possible to deploy parallel applications over increasingly large
- sets of distributed resources. Consequently, the study of
- scheduling algorithms for such applications has been an active area
- of research. Given the nature of most scheduling problems one must
- resort to simulation to effectively evaluate and compare their
- efficacy over a wide range of scenarios. It has thus become
- necessary to simulate those algorithms for increasingly complex
- distributed, dynamic, heterogeneous environments. In this paper we
- present SimGrid, a simulation toolkit for the study of scheduling
- algorithms for distributed application. This paper gives the main
- concepts and models behind SimGrid, describes its API and
- highlights current implementation issues. We also give some
- experimental results and describe work that builds on SimGrid's
- functionalities.\n
- http://grail.sdsc.edu/papers/simgrid_ccgrid01.ps.gz
-
-\section pub_ext Papers that use SimGrid-generated results (not counting our owns)
+ In this paper we describe the SimGrid framework, a
+ simulation-based framework for evaluating cluster, grid and P2P
+ algorithms and heuristics. This paper focuses on SimGrid v3, which
+ greatly improves on previous versions thanks to a novel and
+ validated modular simulation engine that achieves higher
+ simulation speed without hindering simulation accuracy. Also, two
+ new user interfaces were added to broaden the targeted research
+ community. After surveying existing tools and methodologies we
+ describe the key features and benefits of SimGrid.\n
+ http://www.loria.fr/~quinson/Research/Publications/2008-uksim.pdf
+
+\verbatim
+@InProceedings{simgrid,
+ author = {Casanova, Henri and Legrand, Arnaud and Quinson, Martin},
+ title = {{SimGrid: a Generic Framework for Large-Scale Distributed Experiments}},
+ booktitle = {10th IEEE International Conference on Computer Modeling and Simulation},
+ year = 2008,
+ month = mar
+}
+\endverbatim
+
+\section publis_others Other publications
+
+A lot of other papers where published about SimGrid. The list is
+splited in 3 pages (also accessible from the navbar on top of this page):
+ - \ref publis_core\n
+ This section contains papers describing some sub-parts of SimGrid,
+ or references superseeded by the one given above.
+ - \ref publis_extern\n
+ SimGrid is used by an ever growing scientific community. This
+ section lists all the papers resulting of works in which the core
+ SimGrid team were not involved.
+ - \ref publis_intra\n
+ This section lists the paper co-signed by at least one of the core
+ team member, and using SimGrid as a tool (and not studying SimGrid
+ itself).
+
+\section publis_count Amount of published papers using SimGrid results
+
+\htmlinclude publis_count.html
+
+\page publis_core Publications about the SimGrid framework
+
+\htmlinclude publis_core_bib.html
+
+\page publis_extern Papers that use SimGrid-generated results (not counting our owns)
This list is a selection of articles. We list only papers written by people
external to the development group, but we also use our tool ourselves (see
next section).
-- 2006
- - Hierarchical Scheduling of Independent Tasks with Shared Files\n
- by H. Senger, F. Silva, W. Nascimento.\n
- Proceedings of the Sixth IEEE International Symposium on Cluster Computing and the Grid Workshop (CCGRIDW'06), 2006.\n
- http://www.unisantos.br/mestrado/informatica/hermes/File/senger-HierarchicalScheduling-Workshop-TB120.pdf
- - Critical Path and Area Based Scheduling of Parallel Task Graphs on Heterogeneous Platforms\n
- by Tchimou N'Takpé and Frédéric Suter\n
- Proceedings of the Twelfth International Conference on Parallel and Distributed Systems (ICPADS), 2006.
- - Evaluation of Knapsack-based Scheduling using the NPACI JOBLOG\n
- by D. Vanderster, N. Dimopoulos, R. Parra-Hernandez and R. Sobie.\n
- 20th International Symposium on High-Performance Computing in an
- Advanced Collaborative Environment (HPCS'06)\n
- http://doi.ieeecomputersociety.org/10.1109/HPCS.2006.23
- - Metascheduling Multiple Resource Types using the MMKP\n
- by D. Vanderster, N. Dimopoulos, R. Sobie\n
- To Appear: 7th IEEE/ACM International Conference on Grid Computing,
- Barcelona, September 28th-29th 2006
-- 2005
- - On Dynamic Resource Management Mechanism using Control
- Theoretic Approach for Wide-Area Grid Computing\n
- by Hiroyuki Ohsaki, Soushi Watanabe, and Makoto Imase\n
- in Proceedings of IEEE Conference on Control Applications (CCA 2005), Aug. 2005.\n
- http://www.ispl.jp/~oosaki/papers/Ohsaki05_CCA.pdf
- - Evaluation of Meta-scheduler Architectures and Task Assignment Policies for
- high Throughput Computing\n
- by Eddy Caron, Vincent Garonne and Andrei Tsaregorodtsev\n
- Proceedings of 4th Internationnal Symposium on Parallel and
- Distributed Computing Job Scheduling Strategies for Parallel
- Processing (ISPDC'05), July 2005.\n
- http://www.ens-lyon.fr/LIP/Pub/Rapports/RR/RR2005/RR2005-27.pdf
-- 2004
- - Deadline Scheduling with Priority for Client-Server Systems on the Grid\n
- by E Caron, PK Chouhan, F Desprez\n
- in IEEE International Conference On Grid Computing. Super Computing 2004, oct 2004.
- - Efficient Scheduling Heuristics for GridRPC Systems\n
- by Y. Caniou and E. Jeannot.\n
- in IEEE QoS and Dynamic System workshop (QDS) of International Conference
- on Parallel and Distributed Systems (ICPADS), New-Port Beach California, USA,
- pages 621-630, July 2004\n
- http://graal.ens-lyon.fr/~ycaniou/QDS04.ps
- - Exploiting Replication and Data Reuse to Efficiently Schedule
- Data-intensive Applications on Grids\n
- by E. Santos-Neto, W. Cirne, F. Brasileiro, A. Lima.\n
- Proceedings of 10th Job Scheduling Strategies for Parallel Processing, June 2004.\n
- http://www.lsd.ufcg.edu.br/~elizeu/articles/jsspp.v6.pdf
- - Resource Management and Knapsack Formulations on the Grid\n
- by R. Parra-Hernandez, D. Vanderster and N. J. Dimopoulos\n
- Fifth IEEE/ACM International Workshop on Grid Computing (GRID'04)\n
- http://doi.ieeecomputersociety.org/10.1109/GRID.2004.54
- - Scheduling BoT Applications in Grids using a Slave Oriented Adaptive
- Algorithm.\n
- by T. Ferreto, C. A. F. De Rose and C. Northfleet.\n
- Second International Symposium on Parallel and Distributed Processing
- and Applications (ISPA), 2004, Hong Kong. Published in Lecture Notes in
- Computer Science (LNCS), Volume 3358, by Springer-Verlag. p. 392-398.
-- 2003
- - Link-Contention-Aware Genetic Scheduling Using Task Duplication in Grid Environments\n
- by Wensheng Yao, Xiao Xie and Jinyuan You\n
- in Grid and Cooperative Computing: Second International Workshop, GCC 2003, Shanghai, China, December 7-10, 2003 (LNCS)\n
- http://www.chinagrid.edu.cn/chinagrid/download/GCC2003/pdf/266.pdf
- - New Dynamic Heuristics in the Client-Agent-Server Model\n
- by Y. Caniou and E. Jeannot\n
- in IEEE 13th Heteregeneous Computing Workshop - HCW'03, Nice, France, April 2003.\n
- http://graal.ens-lyon.fr/~ycaniou/HCW03.ps
- - A Hierarchical Resource Reservation Algorithm for Network Enabled Servers\n
- by E. Caron, F. Desprez, F. Petit, V. Villain\n
- in the 17th International Parallel and Distributed Processing Symposium -- IPDPS'03, Nice - France, April 2003.
+\htmlinclude publis_extern_bib.html
-\section pub_self Our own papers that use SimGrid-generated results
+\page publis_intra Our own papers that use SimGrid-generated results
This list is a selection of the articles we have written that used results
generated by SimGrid.
-- 2006
- - On the Harmfulness of Redundant Batch Requests\n
- by H. Casanova\n
- Proceedings of the IEEE International Symposium on High Performance Distributed Computing (HPDC-15), Paris, France, May 2006.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/hpdc_2006.pdf
- - An evaluation of Job Scheduling Strategies for Divisible Loads on Grid Platforms\n
- by Y. Cardinale, H. Casanova\n
- in Proceedings of the High Performance Computing & Simulation Conference (HPC&S'06), Bonn, Germany, May 2006.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/cardinale_2006.pdf
- - Interference-Aware Scheduling\n
- by B. Kreaseck, L. Carter, H. Casanova, J. Ferrante, S. Nandy\n
- International Journal of High Performance Computing Applications (IJHPCA), to appear.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/kreaseck_ijhpca_2005.pdf
-- 2004
- - From Heterogeneous Task Scheduling to Heterogeneous Mixed Data and Task Parallel Scheduling\n
- by F. Suter, V. Boudet, F. Desprez, H. Casanova\n
- Proceedings of Europar, 230--237, (LCNS volume 3149), Pisa, Italy, August 2004.
- - On the Interference of Communication on Computation\n
- by B. Kreaseck, L. Carter, H. Casanova, J. Ferrante\n
- Proceedings of the workshop on Performance Modeling, Evaluation, and Optimization of Parallel and Distributed Systems, Santa Fe, April 2004.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/k_pmeo2004.pdf
-- 2003
- - RUMR: Robust Scheduling for Divisible Workloads\n
- by Y. Yang, H. Casanova\n
- Proceedings of the 12th IEEE Symposium on High Performance and Distributed Computing (HPDC-12), Seattle, June 2003.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/yang_hpdc2003.pdf
- - Resource Allocation Strategies for Guided Parameter Space Searches\n
- by M. Faerman, A. Birnbaum, F. Berman, H. Casanova\n
- International Journal of High Performance Computing Applications (IJHPCA), 17(4), 383--402, 2003.\n
- http://grail.sdsc.edu/papers/faerman_ijhpca04.pdf
-- 2002
- - Resource Allocation for Steerable Parallel Parameter Searches\n
- by M. Faerman, A. Birnbaum, H. Casanova, F. Berman\n
- Proceedings of the Grid Computing Workshop, Baltimore, 157--169, November 2002.\n
- http://grail.sdsc.edu/projects/vi_itr/grid02.pdf
-- 2001
- - Applying Scheduling and Tuning to On-line Parallel Tomography \n
- by Shava Smallen, Henri Casanova, Francine Berman\n
- in Proceedings of Supercomputing 2001\n
- http://grail.sdsc.edu/papers/tomo_journal.ps.gz
-- 2000
- - Heuristics for Scheduling Parameter Sweep applications in Grid environments\n
- by Henri Casanova, Arnaud Legrand, Dmitrii Zagorodnov and Francine Berman\n
- in Proceedings of the 9th Heterogeneous Computing workshop (HCW'2000), pp349-363.\n
- http://navet.ics.hawaii.edu/~casanova/homepage/papers/hcw00_pst.pdf
+\htmlinclude publis_intra_bib.html
*/
-
-\li Optimal algorithms for scheduling divisible workloads on
- heterogeneous systems\n
- by Olivier Beaumont and Arnaud Legrand and Yves Robert\n
- in Proceedings of the 17th International Parallel and Distributed Processing Symposium (IPDPS'03).\n
- Preliminary version on ftp://ftp.ens-lyon.fr/pub/LIP/Rapports/RR/RR2002/RR2002-36.ps.gz
-
-
-\li On-line Parallel Tomography\n
- by Shava Smallen\n
- Masters Thesis, UCSD, May 2001