Title :
Test time reduction methods for yield test structures
Author :
Hess, Christopher ; Read, Howard ; Ren, John ; Weiland, Lars H. ; Cheng, Jianjun ; Gan, Chock ; Karbasi, Hossein ; Winters, Steven
Author_Institution :
PDF Solutions Inc., San Jose, CA, USA
Abstract :
Complexity of integrated circuits has led to hundreds of millions of transistors, wiring lines, and layer to layer via connections on every chip. To allow accurate yield evaluation, it is required that process characterization test chips grow in complexity as well which has let to a significant bottleneck in testing them. Wafers that could be tested in less than two hours in a 0.35μm technology now require 10 hours and more in a 0.13μm technology. This paper will present methods how test structures can be redesigned to better support testing. Based on those we will present modified test algorithms that will significantly reduce the test time by 50% and more, which will accelerate data analysis and increases efficient use of parametric test systems.
Keywords :
integrated circuit measurement; integrated circuit testing; integrated circuit yield; wiring; 0.13 micron; 0.35 micron; data analysis; layer to layer via connections; parametric test systems; process characterization test chips; test algorithms; test structures; test time; test time reduction methods; wiring lines; yield test structures; Circuit testing; Data analysis; Electrical resistance measurement; Failure analysis; Integrated circuit testing; Integrated circuit yield; Relays; Semiconductor device measurement; System testing; Wiring;
Conference_Titel :
Microelectronic Test Structures, 2003. International Conference on
Print_ISBN :
0-7803-7653-6
DOI :
10.1109/ICMTS.2003.1197384
