Title :
Feasibility of current measurements in sub 0.25-micron VLSIs
Author :
Keshavarzi, Ali ; Borkar, Shekhar ; De, Vivek
Author_Institution :
Microprocessor Res. Lab., Intel Corp., USA
Abstract :
This paper examines the impact of technology scaling on testability of deep submicron CMOS integrated circuits (ICs). Each new scaled technology generation demands higher intrinsic leakage on ICs to provide higher performance. This trend challenges the effectiveness of current based test techniques such as IDDQ measurement. We characterized transistor and circuit leakage by measuring their sensitivities across channel length, threshold voltage, temperature, body bias and frequency. Fundamental transistor parameters are correlated and may be used for testing of ICs or to improve the testing sensitivity. We propose adopting a high-parameter IDDQ combined with FMAX test solution for high performance IC applications. This test technique will prolong the life of IDDQ measurement in sub 0.25 micron process technology generations. This method provides a means to discriminate fast ICs from the defective ones
Keywords :
CMOS integrated circuits; VLSI; electric current measurement; integrated circuit measurement; leakage currents; 0.25 micron; CMOS integrated circuits; body bias; channel length; circuit leakage; current measurements; fundamental transistor parameters; intrinsic leakage; process technology; scaled technology generation; sub-micron VLSI; technology scaling; testability; testing sensitivity; threshold voltage; CMOS integrated circuits; CMOS technology; Circuit testing; Current measurement; Frequency measurement; Integrated circuit measurements; Integrated circuit technology; Integrated circuit testing; Length measurement; Very large scale integration;
Conference_Titel :
Defect Based Testing, 2000. Proceedings. 2000 IEEE International Workshop on
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7695-0637-2
DOI :
10.1109/DBT.2000.843683
