Title :
Fault models and test strategies for a two-bit per cell DRAM
Author :
Redekert, M. ; Cockburn, Bruce F. ; Elliott, Duncan G.
Author_Institution :
Dept. of Electr. & Comput. Eng., Alberta Univ., Edmonton, Alta., Canada
Abstract :
This paper describes the development of a fault model and testing strategies for a 2-bit per cell dynamic random-access memory (DRAM). Multilevel DRAM technology may become an important way of increasing the storage density of semiconductor memory for a given process and minimum feature size. The Gillingham multilevel DRAM that we consider employs a multi-step sensing and restoring technique that re-uses many proven elements from a conventional 1-bit per cell DRAM cell array. Starting with a list of reported DRAM physical defects, we develop a logical fault model using both manual circuit analysis and analog circuit simulation. Several alternative testing strategies are proposed that make different trade-offs between testing cost and possible design for testability enhancements
Keywords :
DRAM chips; design for testability; fault diagnosis; integrated circuit noise; integrated circuit testing; DFT enhancements; DRAM physical defects; design for testability; dynamic random-access memory; fault models; logical fault model; multilevel DRAM technology; multistep sensing/restoring technique; semiconductor memory; storage density; test strategies; two-bit per cell DRAM; Analog circuits; Analytical models; Circuit analysis; Circuit faults; Circuit simulation; Circuit testing; Costs; Design for testability; Random access memory; Semiconductor memory;
Conference_Titel :
Memory Technology, Design and Testing, 1998. Proceedings. International Workshop on
Conference_Location :
San Jose, CA
Print_ISBN :
0-8186-8494-1
DOI :
10.1109/MTDT.1998.705952
