Last week I couldn't use my regular dev. machine (broken graphics card), so all my WordPress-related plans were on hold. To pass the time, I built a simple
ReSP is an MPSoC simulation platform working at a high abstraction level; components used by ReSP are based on SystemC and TLM hardware and communication description libraries. ReSP provides a non-intrusive framework to manipulate SystemC and TLM objects. The simulation platform is built using Python programming language; its reflective capabilities augment the platform with the possibility of observing the internal structure of the SystemC component models. This feature enables run-time composition and dynamic management of the architecture under analysis. The full potentialities offered by the integration among Python and SystemC are exploited, during simulation, to query, examine and, possibly, modify the internal status of the hardware models. These capabilities simplify the debugging process for both the modeled hardware architecture and the software running on it.
GNU Octave is a high-level language, primarily intended for numerical computations. It provides a convenient command line interface for solving linear and nonlinear problems numerically, and for performing other numerical experiments using a language that is mostly compatible with Matlab.
Scicos is a graphical dynamical system modeler and simulator. With Scicos you can create block diagrams to model and simulate the dynamics of hybrid dynamical systems and compile your models into executable code. Scicos is used for signal processing, systems control, queuing systems, and to study physical and biological systems. New extensions allow generation of component based modeling of electrical and hydraulic circuits using the Modelica language.
S. AbouRizk, and Y. Mohamed. Proceedings of the 32nd conference on Winter simulation, page 1907-1914. Society for Computer Simulation International San Diego, CA, USA, (2000)
O. Agertz, A. Kravtsov, S. Leitner, and N. Gnedin. (2012)cite arxiv:1210.4957Comment: ApJ submitted. For a high-resolution version of the paper, see http://kicp.uchicago.edu/~agertz/.
G. Altay, T. Theuns, J. Schaye, C. Booth, and C. Vecchia. (2013)cite arxiv:1307.6879Comment: 21 pages, 16 figures, submitted to MNRAS. The data used to produce all figures along with code to read it can be found here https://bitbucket.org/galtay/hi-cddf-owls-1.
G. Amdahl. Proceedings of the April 18-20, 1967, Spring Joint Computer Conference, page 483–485. New York, NY, USA, Association for Computing Machinery, (1967)
L. André, V. Rabemanana, and F. Vuataz. Geothermics, 35 (5-6):
507--531(2006)The deep EGS (Enhanced Geothermal System) project at Soultz-sous-Forêts, Alsace, France.
L. Antunes, D. Nunes, H. Coelho, J. Balsa, and P. Urbano. Progress in Artificial Intelligence, volume 5816 of Lecture Notes in Computer Science, Springer Berlin Heidelberg, (2009)
A. Arthur, R. Lunsford, M. Wesson, and S. Oviatt. Proceedings of the 8th international conference on Multimodal interfaces, page 209--216. New York, NY, USA, ACM, (2006)