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-===== SOFTWARE: LUNES-Blockchain preview =====
+===== NEW PAPER: Performance evaluation of a self-clustering heuristic for adaptive PADS =====
-A preview version of the LUNES-Blockchain simulator (i.e. agent-based simulation of DLTs and Blockchains) has been published in form of source code in the For more information follow [[pads:downloads|Downloads]] section. LUNES-Blockchain is based on the ARTÌS/GAIA simulators.
+Parallel And Distributed Simulation (PADS) is a well known modeling paradigm that allows efficient implementation of large simulation models as a collection of interacting entities, called Simulated Entities (SEs). SEs can then be assigned to independent execution units for parallel execution, if possible. Allocating SEs to execution units is one of the most challenging problems in PADS: ideally, highly interacting SEs should be placed on the same execution unit so that all communications are local; however, placing too many SEs on the same processor might degrade performance. Furthermore, many simulation models exhibit non-uniform computation and communication patterns among components, that might change during execution at unpredictable times. In this paper we propose a clustering heuristic that exploits communication locality, with the aim to reduce the communication cost experienced by the PADS during the execution. The heuristic adapts automatically to changing interaction patterns by migrating SEs, and can do so without any user-visible modification of the simulation model; there are, however, some parameters that can be used to tune the heuristic. We perform a large set of computational experiments to assess the effectiveness of the heuristic on a real-world scenario, with the aim of guiding the users in selecting optimal values of the heuristic parameters.
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+For more information follow [[dsrt2025|this link]].
-===== NEW PAPER: Internet-based Adaptive Distributed Simulation of Mobile Ad-hoc Networks =====
-In this paper we focus on Internet-based simulation, a form of distributed simulation in which a set of execution units that are physically located around the globe work together to run a simulation model. We simulate a wireless model over a real Internet-based distributed simulation setup, and evaluate the scalability of the simulator with and without the use of adaptive strategies for both communication overhead reduction and load-balancing enhancement.
-For more information follow [[wsc2019-paper|this link]].
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-===== NEW PAPER: Agent-based Simulation of Blockchains =====
+===== NEW PAPER: A Review of Multilevel Modeling and Simulation for Human Mobility and Behavior =====
-In this paper, we describe LUNES-Blockchain, an agent-based simulator of blockchains that is able to exploit Parallel and Distributed Simulation (PADS) techniques to offer a high level of scalability.
+In this paper we perform a systematic literature review of multilevel simulation applied to human mobility and behavior, to identify research trends and contribute towards a better understanding of techniques, methodologies and terminology used within this research area. At the end of our analysis we uncover some recurrent modeling and simulation patterns that appear frequently within specific research areas, and we classify these methodological patterns along several dimensions such as modeling type and level of detail.
-For more information follow [[asiasim2019-paper|this link]].
+For more information follow [[multiscale|this link]].
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-===== NEW PAPER: Parallel Data Distribution Management on Shared-Memory Multiprocessors =====
-In this paper we propose two parallel solutions to the DDM problem that can operate effectively on shared-memory multiprocessors.
-For more information follow [[parallelDDM-paper|this link]].
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-===== NEW PAPER: Parallel Sort-Based Matching for Data Distribution Management on Shared-Memory Multiprocessors =====
-In this paper, we propose a parallel version of the Sort-Based Matching algorithm for shared-memory multiprocessors.
-<color purple>**Best Paper Award: 21-th ACM/IEEE International Symposium on Distributed Simulation and Real Time Applications (DS-RT 2017).**</color>
-For more information follow [[parallelSBM-paper|this link]].
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-===== HPCS 2016 Tutorial =====
-In the tutorial "**Simulation of the Internet of Things**", we aim to introduce all the basic aspects of the efficient simulation of the Internet of Things (IoT).
-We discuss the main limitations of the current approaches with the goal to foster discussion and to increase the knowledge on both simulation and IoT. The last part of the tutorial will be about our practical experience in the simulation of IoT using a multi-level modelling approach.
-For more information follow [[http://www.cs.unibo.it/~gdangelo/tutorial-hpcs-2016.html|this link]] and see our tutorial paper: [[https://arxiv.org/abs/1605.04876|Simulation of the Internet of Things]].