[Aboueisha, H., Calo, V.M., Jopek, K., Moshkov, M., Paszy´nska, A., Paszy´nski, M. and Skotniczny, M. (2017). Element partition trees for h-refined meshes to optimize direct solver performance. Part I: Dynamic programming, International Journal of Applied Mathematics and Computer Science 27(2): 351-365, DOI: 10.1515/amcs-2017-0025.10.1515/amcs-2017-0025]Open DOISearch in Google Scholar
[Bao, G., Hu, G. and Liu, D. (2012). An h-adaptive finite element solver for the calculations of the electronic structures, Journal of Computational Physics 231(14): 4967-4979.10.1016/j.jcp.2012.04.002]Search in Google Scholar
[Belytschko, T. and Tabbar, M. (1993). h-adaptive finite element methods for dynamic problems, with emphasis on localization, International Journal for Numerical Methods in Engineering 36(24): 4245-4625.10.1002/nme.1620362409]Search in Google Scholar
[Duff, I.S. and Reid, J.K. (1983). The multifrontal solution of indefinite sparse symmetric linear, ACM Transactions on Mathematical Software 9(3): 302-325.10.1145/356044.356047]Search in Google Scholar
[Duff, I.S. and Reid, J.K. (1984). The multifrontal solution of unsymmetric sets of linear equations, SIAMJournal on Scientific and Statistical Computing 5(3): 633-641.10.1137/0905045]Search in Google Scholar
[Flasiński, M. and Schaefer, R. (1996). Quasi context sensitive graph grammars as a formal model of FE mesh generation, Computer-Assisted Mechanics and Engineering Science 3: 191-203.]Search in Google Scholar
[Goik, D., Paszyński, M., Lenharth, A., Nguyen, D. and Pingali, K. (2014). Graph grammar based multi-thread multi-frontal direct solver with Galois scheduler, Procedia Computer Science 29: 960-969.10.1016/j.procs.2014.05.086]Search in Google Scholar
[Grabska, E. (1993a). Theoretical concepts of graphical modeling. Part I: Realization of CP-graphs, Machine Graphics and Vision 1(2): 3-38.]Search in Google Scholar
[Grabska, E. (1993b). Theoretical concepts of graphical modeling. Part II: CP-graph grammars and languages, Machine Graphics and Vision 2(2): 149-178.]Search in Google Scholar
[Habel, A. and Kreowski, H.J. (1987a). May we introduce to you: Hyperedge replacement, in H. Ehrig et al. (Eds.), Graph- Grammars and Their Application to Computer Science, Lecture Notes in Computer Science, Vol. 291, Springer, Berlin/Heidelberg, pp. 5-26.10.1007/3-540-18771-5_41]Search in Google Scholar
[Habel, A. and Kreowski, H.J. (1987b). Some structural aspects of hypergraph languages generated by hyperedge replacement, in F.J. Brandenburg et al. (Eds.), STACS 87, Lecture Notes in Computer Science, Vol. 247, Springer, Berlin/Heidelberg, pp. 207-219.10.1007/BFb0039608]Search in Google Scholar
[Irons, B.M. (1970). A frontal solution program for finite-element analysis, International Journal for Numerical Methods in Engineering 2: 5-32.10.1002/nme.1620020104]Search in Google Scholar
[Karypis, G. and Kumar, V. (2009). MeTis: Unstructured Graph Partitioning and Sparse Matrix Ordering System, Version 4.0, http://www.cs.umn.edu/˜metis.]Search in Google Scholar
[Paszyńska, A., Grabska, E. and Paszy´nski, M. (2012a). A graph grammar model of the hp adaptive three dimensional finite element method, Part I, Fundamenta Informaticae 114(2): 149-182.10.3233/FI-2012-622]Search in Google Scholar
[Paszyńska, A., Grabska, E. and Paszy´nski, M. (2012b). A graph grammar model of the HP adaptive three dimensional finite element method, Part II, Fundamenta Informaticae 114(2): 183-201.10.3233/FI-2012-623]Search in Google Scholar
[Paszyńska, A., Paszyński, M. and Grabska, E. (2009). Graph transformations for modeling hp-adaptive finite element method with mixed triangular and rectangular elements, in G. Allen et al. (Eds.), ICCS 2009, Lecture Notes in Computer Science, Vol. 5545, Springer, Berlin/Heidelberg, pp. 875-884.10.1007/978-3-642-01973-9_97]Search in Google Scholar
[Paszyńska, A., Paszyński, M., Jopek, K., Wo´zniak, M., Goik, D., Gurgul, P., AbouEisha, H., Moshkov, M., Calo, V.M., Lenharth, A., Nguyen, D. and Pingali, K. (2015). Quasi-optimal elimination trees for 2D grids with singularities, Scientific Programming 2015, Article ID: 303024, DOI:10.1155/2015/303024.10.1155/2015/303024]Open DOISearch in Google Scholar
[Paszyński, M. (2009). On the parallelization of self-adaptive hp-finite element methods, Part I: Composite programmable graph grammar model, Fundamenta Informaticae 4(93): 411-434.10.3233/FI-2009-111]Search in Google Scholar
[Paszyński, M. (2016). Fast Solvers for Mesh-Based Computations, CRC Press, Boca Raton, FL.10.1201/b19078]Search in Google Scholar
[Paszyński, M. and Paszyńska, A. (2008). Graph transformations for modeling parallel hp-adaptive finite element method, in R. Wyrzykowski et al. (Eds.), PPAM 2007, Lecture Notes in Computer Science, Vol. 4967, Springer, Berlin/Heidelberg, pp. 1313-1322.10.1007/978-3-540-68111-3_139]Search in Google Scholar
[Paszyński, M. and Schaefer, R. (2010). Graph grammar-driven parallel partial differential equation solver, Concurrency and Computation Practice and Experience 22: 1063-1097.10.1002/cpe.1533]Search in Google Scholar
[Pingali, K., Nguyen, D., Kulkarni, K., Burtscher, K.M., Hassaan, M.A., Kaleem, R., Lee, T.-H., Lenharth, A., Manevich, R., Mendez-Lojo, M., Prountzos, D. and Sui, X. (2011). The Tao of parallelism in algorithms, 32nd ACM SIGPLAN Conference on Programming Language Design and Implementation, San Jose, CA, USA, pp. 12-22.10.1145/1993498.1993501]Search in Google Scholar
[Ryszka, I., Paszyńska, A., Grabska, E., Sieniek, M. and Paszy´nski, M. (2015a). Graph transformation systems for modeling three dimensional finite element method, Part I, Fundamenta Informaticae 140(2): 129-172.10.3233/FI-2015-1248]Search in Google Scholar
[Ryszka, I., Paszyńska, A., Grabska, E., Sieniek, M. and Paszyński, M. (2015b). Graph transformation systems for modeling three dimensional finite element method, Part II, Fundamenta Informaticae 140(2): 173-203.10.3233/FI-2015-1249]Search in Google Scholar
[Ślusarczyk, G. and Paszy´nska, A. (2013). Hypergraph grammars in hp-adaptive finite element method, Procedia Computer Science 18: 1545-1554.10.1016/j.procs.2013.05.322]Search in Google Scholar