Faster and More Accurate Transport Procedures for HZETRNSeveral aspects of code verification are examined for HZETRN. First, a detailed derivation of the numerical marching algorithms is given. Next, a new numerical method for light particle transport is presented, and improvements to the heavy ion transport algorithm are discussed. A summary of various coding errors is also given, and the impact of these errors on exposure quantities is shown. Finally, a coupled convergence study is conducted. From this study, it is shown that past efforts in quantifying the numerical error in HZETRN were hindered by single precision calculations and computational resources. It is also determined that almost all of the discretization error in HZETRN is caused by charged target fragments below 50 AMeV. Total discretization errors are given for the old and new algorithms, and the improved accuracy of the new numerical methods is demonstrated. Run time comparisons are given for three applications in which HZETRN is commonly used. The new algorithms are found to be almost 100 times faster for solar particle event simulations and almost 10 times faster for galactic cosmic ray simulations.
Document ID
20100013958
Acquisition Source
Langley Research Center
Document Type
Conference Paper
Authors
Slaba, Tony C. (Old Dominion Univ. Norfolk, VA, United States)
Blattnig, Steve R. (NASA Langley Research Center Hampton, VA, United States)
Badavi, Francis F. (Christopher Newport Univ. Newport News, VA, United States)