[Top][All Lists]

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

[Savannah-register-public] [task #14413] Submission of Isogeometric Fini

From: Ganesh Diwan
Subject: [Savannah-register-public] [task #14413] Submission of Isogeometric Finite Element Method for Helmholtz equation
Date: Sat, 18 Mar 2017 07:23:13 -0400 (EDT)
User-agent: Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/56.0.2924.87 Safari/537.36


                 Summary: Submission of Isogeometric Finite Element Method for
Helmholtz equation
                 Project: Savannah Administration
            Submitted by: diwan
            Submitted on: Sat 18 Mar 2017 11:23:11 AM UTC
         Should Start On: Sat 18 Mar 2017 12:00:00 AM UTC
   Should be Finished on: Tue 28 Mar 2017 12:00:00 AM UTC
                Category: Project Approval
                Priority: 5 - Normal
                  Status: None
                 Privacy: Public
        Percent Complete: 0%
             Assigned to: None
             Open/Closed: Open
         Discussion Lock: Any
                  Effort: 0.00



A new project has been registered at Savannah 
This project account will remain inactive until a site admin approves or
discards the registration.

= Registration Administration =

While this item will be useful to track the registration process, *approving
or discarding the registration must be done using the specific Group
<> page*,
accessible only to site administrators, effectively *logged as site
administrators* (superuser):

* Group Administration

= Registration Details =

* Name: *Isogeometric Finite Element Method for Helmholtz equation*
* System Name:  *isofem*
* Type: non-GNU software and documentation
* License: GNU General Public License v2 or later


==== Description: ====
Project: Partition of Unity Isogeometric FEM for Helmholtz equation

Purpose: Isogeometric basis functions for high accuracy in the geometry
representation, Partition of Unity enrichment for Finite Element Method as it
allows the inclusion of arbitrary local function space when creating the
global approximation of the solution.

Topic: Computational acoustics

Language: Fortran 95

==== Tarball URL: ====


Reply to this item at:


  Message sent via/by Savannah

reply via email to

[Prev in Thread] Current Thread [Next in Thread]