Title :
CAD system for cylindrically symmetric electric devices
Author :
Calitz, M.F. ; Du Toit, A.G.
Author_Institution :
Nat. Phys. Res. Lab., Pretoria, South Africa
fDate :
1/1/1988 12:00:00 AM
Abstract :
A CAD system based on a supermicrocomputer with an integrated array processor (AP) is described. The boundary-element method is used to calculate the electric fields. Details of the structure, performance, and limitations of the system are given, particularly the enhancement in performance effected by the AP, which gives a maximum computational speed of 10 MFLOPS. A comparison is made with the performance of a 6.8-MIPS mainframe computer. Optimization of the electrode configuration of an image intensifier tube is given. The system can be utilized for the design and evaluation of other cylindrically symmetric electrical devices, e.g. electron guns
Keywords :
CAD; boundary-value problems; electric fields; electrical engineering computing; electron guns; image intensifiers; microcomputer applications; optimisation; parallel processing; 10 MFLOPS; 6.8 MIPS; CAD system; boundary-element method; computational speed; cylindrically symmetric electric devices; electric fields; electrode configuration; electron guns; image intensifier tube; integrated array processor; optimisation; supermicrocomputer; Africa; Application software; Boundary element methods; Design automation; Electrodes; Electron tubes; Electrons; Electrostatic analysis; Finite difference methods; Focusing; Integral equations; Laboratories;
Journal_Title :
Magnetics, IEEE Transactions on
