D. M. Beazley and P. S. Lomdahl, "Building flexible large-scale scientific computing applications with scripting languages," in 8th SIAM Conference on Parallel Processing for Scientific Computing, Minneapolis, Minnesota, March 1997.  Home/Search   Document Details and Download   Summary   Related Articles

....dynamically. Steering consists of altering the scripts: substituting, adding, or deleting modules or altering control flow code. In such systems, maintaining consistency depends largely on the creator of the modules; they must be written so that modules may be called in any order at any time[9], typically requiring safety checks to ensure correctness. A distinct advantage of this approach is the simplicity of implementation. Further, the approach allows modules to be added in a highly dynamic manner, is portable, and promotes reuse. Successful examples of the use of this approach ....

....to ensure correctness. A distinct advantage of this approach is the simplicity of implementation. Further, the approach allows modules to be added in a highly dynamic manner, is portable, and promotes reuse. Successful examples of the use of this approach include the SPaSM molecular dynamics code[9], and Winfield s virtual laboratory notebook[1] However, interaction is severely restricted, being limited only to the invocation of modules, with no control over their inner workings. The dataflow approach is exemplified by SCIRun[7] a scientific programming environment that allows the ....

D. M. Beazley and P. S. Lomdahl, "Building flexible large-scale scientific computing applications with scripting languages," in 8th SIAM Conference on Parallel Processing for Scientific Computing, Minneapolis, Minnesota, March 1997.

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