Derivation and implication of a novel DRAM bit cost model

Author

Nakatsuka, Haruo

Author_Institution

Toshiba Corp., Tokyo, Japan

Volume

15

Issue

2

fYear

2002

fDate

5/1/2002 12:00:00 AM

Firstpage

279

Lastpage

284

Abstract

A model for the cost/performance of a large-scale integrated circuit (LSI) is derived using critical area with 1/x³ defect size distribution and common industry trends for device parameters and process parameters. The model predicts that dynamic random access memory bit cost will begin to increase sometime after 2005, if the current bit capacity increase rate of four times every three years remains effective. It is suggested that the rate is reduced to two times every two years, which will ensure a bit cost reduction beyond 2010. However, if the defect density can be reduced faster than the past trends, a four times bit capacity increase every three years can still remain cost effective

Keywords

DRAM chips; costing; integrated circuit economics; integrated circuit yield; large scale integration; semiconductor process modelling; DRAM bit cost model; DRAM cost trend; LSI; bit capacity increase rate; bit cost reduction; cost effectiveness; cost/performance model; critical area; defect density; defect size distribution; device parameters; dynamic random access memory bit cost; industry trends; large-scale integrated circuit; process parameters; technology roadmap; yield model; Costs; DRAM chips; Integrated circuit modeling; Integrated circuit technology; Integrated circuit yield; Large scale integration; Manufacturing; Predictive models; Random access memory; Roads;

fLanguage

English

Journal_Title

Semiconductor Manufacturing, IEEE Transactions on

Publisher

ieee

ISSN

0894-6507

Type

jour

DOI

10.1109/66.999606

Filename

999606