This final report discusses major accomplishments of a 3-year project under the DOE's NEER Program. The project has developed innovative and automated algorithms, codes, and tools for solving the discrete ordinates particle transport method efficiently in parallel environments. Using a number of benchmark and real-life problems, the performance and accuracy of the new algorithms have been measured and analyzed
Integral transport theory is used to compute transfer matrix elements for neutral particle streaming...
ilbstract A review of methods developed for solution of particle transport problem is made. These ar...
ACKNOWLEDGMENT I am greatly indebted to Dr. Richard Fujimoto for his guidance and support throughout...
There is a growing need to accurately simulate physical systems whose evolutions depend on the trans...
Scalable parallel algorithm for particle transport is one of the main application fields in high-per...
The centerpiece of the Discrete Ordinates Oak Ridge System (DOORS), the three-dimensional neutral pa...
This paper describes the use of a ''mesh potential'' function for automatic coarsening of meshes in ...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
This paper describes the reduction in memory and computational time for the simulation of complex ra...
A numerically stable, accurate, and robust form of the exponential characteristic (EC) method, used ...
ARES is a multidimensional parallel discrete ordinates particle transport code with arbitrary order ...
The shielding calculation of neutron streaming problems with ducts is characterized by the strong an...
Introduction Discrete optimization problems (DOPs) arise in various applications such as planning, s...
The performance of discrete element method (DEM) simulations is highly dependent on the requirements...
Discrete optimization problems (DOPs) arise in various applications such as planning, scheduling, co...
Integral transport theory is used to compute transfer matrix elements for neutral particle streaming...
ilbstract A review of methods developed for solution of particle transport problem is made. These ar...
ACKNOWLEDGMENT I am greatly indebted to Dr. Richard Fujimoto for his guidance and support throughout...
There is a growing need to accurately simulate physical systems whose evolutions depend on the trans...
Scalable parallel algorithm for particle transport is one of the main application fields in high-per...
The centerpiece of the Discrete Ordinates Oak Ridge System (DOORS), the three-dimensional neutral pa...
This paper describes the use of a ''mesh potential'' function for automatic coarsening of meshes in ...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
This paper describes the reduction in memory and computational time for the simulation of complex ra...
A numerically stable, accurate, and robust form of the exponential characteristic (EC) method, used ...
ARES is a multidimensional parallel discrete ordinates particle transport code with arbitrary order ...
The shielding calculation of neutron streaming problems with ducts is characterized by the strong an...
Introduction Discrete optimization problems (DOPs) arise in various applications such as planning, s...
The performance of discrete element method (DEM) simulations is highly dependent on the requirements...
Discrete optimization problems (DOPs) arise in various applications such as planning, scheduling, co...
Integral transport theory is used to compute transfer matrix elements for neutral particle streaming...
ilbstract A review of methods developed for solution of particle transport problem is made. These ar...
ACKNOWLEDGMENT I am greatly indebted to Dr. Richard Fujimoto for his guidance and support throughout...