Discontinuous Galerkin Book../Book/NodalDG.html
 
I am involved in the Sledge++ project. The goal is to produce an experimental development framework for testing the numerical approximation properties and feasibility of applying the discontinuous Galerkin methods to a diverse family of partial differential equations. Sledge++ is an object oriented package built on the Meshach, BLAS, LAPACK, ARPACK, and UMFPACK libraries. A cross platform GUI is being built upon the wxWidgets library. A limited number of requests for access to the project source code, which is held in a Subversion repository, have been granted to interested members of the research community. http://www.netlib.org/blas/index.htmlhttp://www.netlib.org/lapackhttp://www.caam.rice.edu/software/ARPACKhttp://www.cise.ufl.edu/research/sparse/umfpackhttp://www.wxwidgets.org/shapeimage_5_link_0shapeimage_5_link_1shapeimage_5_link_2shapeimage_5_link_3shapeimage_5_link_4
 hp-DGFEM approximation of the time-harmonic Maxwell’s equations for a plane wave incident on a semi-infinite metallic slit. 

By: Lucas Wilcox.http://www.ices.utexas.edu/~lucaswhttp://www.ices.utexas.edu/~lucasw/shapeimage_6_link_0
Participants: 

Tim Warburton Sven-Erik Ekström Jan Hesthaven Guus Jacobs Nigel Nunn Luke Olson Andreas Potschka Jeronimo Rodriguez Lucas Wilcoxhttp://www.caam.rice.edu/~timwarhttp://www.it.uu.se/katalog/sverekhttp://www.cfm.brown.edu/people/janshhttp://attila.sdsu.edu/~jacobs/research.htmlhttp://www.cs.uiuc.edu/homes/lukeohttp://www.iwr.uni-heidelberg.de/~Andreas.Potschka/http://www.dam.brown.edu/people/rodriguehttp://www.ices.utexas.edu/~lucaswshapeimage_7_link_0shapeimage_7_link_1shapeimage_7_link_2shapeimage_7_link_3shapeimage_7_link_4shapeimage_7_link_5shapeimage_7_link_6shapeimage_7_link_7
 Simulation of self organized pattern formation in a bacterial chemotaxis system. 
 By: Andreas Potschkahttp://www.iwr.uni-heidelberg.de/~Andreas.Potschka/http://www.iwr.uni-heidelberg.de/~Andreas.Potschka/shapeimage_8_link_0
 A locally refined mesh is used for the resolution of 2D Maxwell's equations with singularities. (Not shown: independently refined dual solution mesh)
 By: Jeronimo Rodriguezhttp://www.dam.brown.edu/people/rodriguehttp://www.dam.brown.edu/people/rodrigue/shapeimage_9_link_0
 Particle-in-Cell Simulations of Plasmas with a Discontinuous Galerkin Spectral Method. (click image for movie)
 By: Guus Jacobshttp://attila.sdsu.edu/~jacobshttp://attila.sdsu.edu/~jacobsSledge++_files/a6actual.aviSledge++_files/a6actual_1.avishapeimage_10_link_0shapeimage_10_link_1
 A nodal DG-FEM model based on a high-order Boussinesq-type method provide the basis for modeling fully nonlinear and dispersive water waves in maritime environments with complex bottom-mounted structures in shallow as well as deep waters. 
 By: Allan Engsig-Karuphttp://www.web.mek.dtu.dk/staff/apekshapeimage_11_link_0