Title :
Comparison of FDTD particle pushing and direct differencing of Boltzmann´s equation for SGEMP problems
Author :
Holland, Richard
Author_Institution :
Shield Rite Inc., New Mexico, NM, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
Now that personal computers (PCs) have become so powerful, the question has arisen as to whether particle-pushing or Boltzmann´s equation codes are more efficient/accurate for solving self-consistent SGEMP problems on a PC. In this article, in the interest of achieving a code comparison, similar 2-D problems are treated using the two approaches on a PC. When enough modeling detail is included to cause the two codes to yield similar accuracy, it appears the particle-pushing code is about five times faster than the Boltzmann code. This result is probably qualitatively applicable to most SGEMP problems, except those where secondary-emission effects are important. When significant secondary emission occurs, particle pushers would lose at least half of their efficiency advantage. It is likely that the conclusions presented here do not carry-over to massively parallel computer architectures
Keywords :
Boltzmann equation; electrical engineering computing; electromagnetic pulse; finite difference time-domain analysis; microcomputer applications; secondary electron emission; space charge; 2D problems; Boltzmann´s equation; FDTD particle pushing; SGEMP problems; code comparison; direct differencing; efficiency; modeling; personal computers; secondary-emission effects; space charge; Boltzmann equation; Computer architecture; Difference equations; Differential equations; Electrons; Finite difference methods; Geometry; Maxwell equations; Microcomputers; Time domain analysis;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
