Title :
Fault simulation for fault-tolerant multi-Mbit RAMs
Author_Institution :
IBM, Essex Junction, VT, USA
Abstract :
A simulation method that generates clusters with negative binomial distributions was first described by F. Flack (see Solid-State Electron., vol.28, p.555-9, June 1985). The present author found that the results were not accurate enough for mimicking the clusters observed on actual chips. An alternative technique was developed and is described. The model presented makes three important changes. First, the method of generating faults as a function of time in the manufacturing process is applied to small areas within chips, instead of entire chips. Second, the parameter c is allowed to vary with position on chips and wafers, thus becoming a susceptibility function c(x,y). The third modification is the inclusion of a distance dependence on nearby faults. The yield models developed make it possible to project the productivity increases expected from future memory chips.
Keywords :
circuit reliability; fault tolerant computing; integrated memory circuits; random-access storage; DRAM; clusters; distance dependence; fault generation; fault simulation; fault-tolerant multi-Mbit RAMs; memory chips; model; negative binomial distributions; productivity increases; susceptibility function; yield models; Circuit faults; Circuit simulation; Engineering management; Fault tolerance; Production planning; Random access memory; Redundancy; Rivers; Testing; Virtual manufacturing;
Conference_Titel :
Microelectronic Test Structures, 1989. ICMTS 1989. Proceedings of the 1989 International Conference on
Print_ISBN :
0-87942-714-0
DOI :
10.1109/ICMTS.1989.39288
