SIMUL_R
SIMUL_R is a simulation language for continuous and discrete models from any kind of applications, e.g. environmental, technical (big facturies), chemical, biological. SIMUL_R allows for grafical and textual modelling. Special features: hardware-in-the-loop, PDEs, parallel computing.
German,
English
Supported Technologies
OS/2 Warp,
AIX,
DEC OpenVMS,
HP/UX,
Solaris/Sun OS,
Linux,
Windows 95/98/ME,
Windows XP/2000/NT
Oracle,
Microsoft Access
Software
Click on a technology to view similar products within this category.
Pricing
Server
6000 to 11000
info@simutech.info
+43-1-888 36 10 0
direct or reseller
Resources
Additional Product Information
SIMUL_R is a simulation system for continuous and discrete dynamic systems., SIMUL_R supports the modelling, analysis and documentation of complex systems., SIMUL_R offers a great spectrum of graphic commands., SIMUL_R is a compiling language: fast computation., SIMUL_R is based on the programming language C., SIMUL_R is open: expandable by commands and algorithms., Special Featuers:, - Data base and dialog interface, - Realtime and parallel simulation, - Partial differential equations, "The Model ...", A SIMUL_R program contains several continuous models (in equation notation). The SIMUL_R language ? similarly to the syntax of C and committing to the CSSL standard of simulation languages ? contains a huge palette of macro commands. Therefore even complex systems can be notated in a clear and easy-to-check manner., An own macro library offers special commands for controlling applications., A special solver supports the easy-to-use work with implicite problems., Units can be assigned to simulation variables. These are checked and, if necessary, converted., "... is created, ...", Models can as well be created graphically using the tool SIMDRAW., "... translated, ...", The model is translated into C. This offers the possibility to attach own programs into the simulation model., "... simulated in a simulation environment ...", The compiled model is simulated within a powerful runtime (command line) interpreter (the model is compiled, the user actions are interpreted)., A menu- and mouse-driven desktop (MS-Windows and X-Windows) is available, too., "... analyzed and ...", The runtime interpreter contains among commands for starting of one or more models in parallel and/or sequentially as well commands for displaying and setting model variables. Arbitrary algebraic expressions can be used., The system analysis is supported by loop (while, for, loop), conditional (if, ifdef) and subcall (call) commands. Therefore complex analysis applications can be performed within the runtime interpreter without changing the model., Very important, too, are the commands for dealing with table functions (store, load, recording of variables during simulation runs)., All data (variables, simulation data, drawings) are available in ASCII format and so can be exchanged easily between SIMUL_R and other programs., Last not least SIMUL_R offers commands for zero search, optimization (e.g. genetic algorithms), Jacobi computation (linearization), steady-state and Eigenvalue analysis, as well as expansion possibilities for user-specific commands., "... documented.", One of the main points of SIMUL_R are its graphical presentation features for data values., Drawings can be created from all simulation data values over time or other simulation variables, using freely scaleable axes and with freely positionable and formatable inscriptions., Among 3D-drawings, parameter- and contour line plots there are also available methods for presenting moving curves (e.g. point with tangente, movement of whole curves), especially für presenting the solutions of partial differential equations., Drivers for plotters and printers and (under MS-Windows) for all Windows devices belong to the graphics part of SIMUL_R., SIMUL_R is available for Windows-NT/95/98, OS/2, several workstations under Unix, parallel computers, vector computers und Transputers., "Special Features:", Data Base And Dialog Interface, Special runtime commands allow for the access of data bases (e.g. Oracle, ODBC, local SIMUL_R data base). The data base tables are accessed using flexible hierarchical structures., Other commands create dialog boxes, menus, toolbars and several kinds of user dektops., Realtime And Parallel Simulation, Open interfaces support the inclusion of hardware-in-the-loop-devices for realtime as well as parallel simulation., Partial Differential Equations, Using model macros partial differential equations can be modelled. Optionally border conditions are assigned. The line method and Crank-Nicholsons method are available. PDEs are integrated directly into the general differential equa
tion model., Tools:, SIMDRAW - grafical, hierarchical modelling, BAPS/BAPSDRAW - modelling with bondgraphs