Title :
Synthesis and Analysis of a Cost Effective, Ultrareliable, High Speed, Semiconductor Memory System
Author :
Husband, E.W. ; Szygenda, S.A.
Author_Institution :
School of Sciences and Technologies//University of Houston at Clear Lake City//Houston, Texas 77058 USA.
Abstract :
This paper provides a detailed synthesis and analysis of a cost effective, ultrareliable, high speed, semiconductor memory system. The memory system has the capability of detecting and correcting over 99% of all single faults. The memory cycle time of 250 ns is not compromised unless a fault is encountered. The increase in circuitry for the fault-tolerent system, over the simplex system, is less than 20%. These results have been achieved through the use of special coding implementations, virtual codes, and selective redundance.
Keywords :
Automatic testing; Circuit faults; Circuit synthesis; Circuit testing; Costs; Electrical fault detection; Fault detection; Logic testing; Semiconductor memory; System testing; Decoder; Error; Fault-tolerance; Mask; Memory; Parity; Semiconductor;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.1976.5215049
