TGFF: task graphs for free. Task Graphs For Free (TGFF) was designed to provide a flexible and standard way of generating pseudo-random task-graphs for use in scheduling and allocation research. This includes the areas of embedded systems, hardware/software co-design, operating systems (both real-time and general-purpose), parallel or distributed hardware or software studies, flow-shop scheduling, as well as any other area which requires problem instances consisting of partially-ordered or directed acyclic graphs (DAGs) of tasks, i.e., task-graphs. While TGFF strives to be general-purpose, it generates graphs and associated resource parameters in accordance with the user’s parameterized graph and database specifications and thereby allows the generation of graphs tailored to particular domains. ...

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  1. Canon, Louis-Claude; El Sayah, Mohamad; Héam, Pierre-Cyrille: A comparison of random task graph generation methods for scheduling problems (2019)
  2. Zhao, Yecheng; Zeng, Haibo: An efficient schedulability analysis for optimizing systems with adaptive mixed-criticality scheduling (2017)
  3. Demiriz, Ayhan; Bagherzadeh, Nader; Alhussein, Abdulaziz: Using constraint programming for the design of network-on-chip architectures (2015)
  4. Chai, Song; Li, Yubai; Wang, Jian; Wu, Chang: A genetic algorithm for task scheduling on NoC using FDH cross efficiency (2013)
  5. Taheri, Javid; Lee, Young Choon; Zomaya, Albert Y.; Siegel, Howard Jay: A bee colony based optimization approach for simultaneous job scheduling and data replication in grid environments (2013)
  6. Wang, Xiao-Hang; Liu, Peng; Yang, Mei; Palesi, Maurizio; Jiang, Ying-Tao; Huang, Michael C.: Energy efficient run-time incremental mapping for 3-D networks-on-chip (2013) ioport
  7. Marcon, César; Calazans, Ney; Moreno, Edson; Moraes, Fernando; Hessel, Fabiano; Susin, Altamiro: CAFES: A framework for intrachip application modeling and communication architecture design (2011) ioport
  8. Zhang, Yuping; Xue, Chun Jason; Yang, Chengmo; Orailoglu, Alex: Migration-aware adaptive MPSoC static schedules with dynamic reconfigurability (2011) ioport
  9. Chen, Ya-Shu; Shih, Chi-Sheng; Kuo, Tei-Wei: Processing element allocation and dynamic scheduling codesign for multi-function SoCs (2010)
  10. Lee, Choonseung; Kim, Sungchan; Ha, Soonhoi: A systematic design space exploration of mpsoc based on synchronous data flow specification (2010) ioport
  11. Ma, Zhe; Catthoor, Francky: Run-time task overlapping on multiprocessor platforms (2010) ioport
  12. Perng, Nei-Chiung; Hung, Shih-Hao; Tu, Chia-Heng: Task scheduling for context minimization in dynamically reconfigurable platforms (2010) ioport
  13. Shi, Zheng; Burns, Alan: Schedulability analysis and task mapping for real-time on-chip communication (2010)
  14. Liu, Hui; Shao, Zili; Wang, Meng; Du, Junzhao; Xue, Chun Jason; Jia, Zhiping: Combining coarse-grained software pipelining with DVS for scheduling real-time periodic dependent tasks on multi-core embedded systems (2009) ioport
  15. Alsalih, Waleed; Akl, Selim; Hassanein, Hossam: Cooperative ad hoc computing: towards enabling cooperative processing in wireless environments (2008)