Title :
Improved Yield Through Use of a Scalable Parametric Measurement Macro
Author :
Bickford, Jeanne Paulette ; Habib, Nazmul ; Goss, John R. ; Bickford, Rebecca A.
Author_Institution :
IBM Syst. & Technol. Group, Essex Junction, VT, USA
fDate :
5/1/2011 12:00:00 AM
Abstract :
Incorporating a scalable parametric measurement (SPM) macro in semiconductor products enables N to P ratio screening at wafer test where each die can be tested. While in line scribe line measurements provide valuable feedback to correct manufacturing problems, in line test sample sizes and the need to disposition entire wafers limit the usefulness of this technique as a product screen. Functional patterns applied at module test provide a measure of protection against escapes to system level, but module yield loss results in higher cost than wafer yield loss because of the added loss of package and module test costs. Use of a SPM macro for N to P ratio disposition maximizes yield and minimizes false rejects and false accepts.
Keywords :
semiconductor device manufacture; semiconductor device measurement; semiconductor device packaging; semiconductor device testing; functional patterns; module test costs; module yield loss; scalable parametric measurement macro; scribe line measurements; semiconductor products; wafer test screening; wafer yield loss; Current measurement; Loss measurement; Manuals; Manufacturing; Metals; Semiconductor device measurement; Voltage measurement; Design for manufacture; semiconductor device manufacture; semiconductor device measurement; semiconductor device testing;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2011.2116127
