Title :
Power-gating current test for static RAM in nanotechnologies
Author :
Chao, Yuan-Wei ; Chen, Hsin-Ling ; Chen, Chih-Jong ; Huang, Tsung-Chu
Author_Institution :
Dept. of Electron. Eng., Nat. Changhua Univ. of Educ., Changhua
Abstract :
Current test resolution is confined by leakage elevation and variation in the nanometer static RAM. In this paper, we develop a novel scheme to highly improve the resolution by applying current test in power-gating sleep mode. A novel fine-grain power-gated adaptive-retention memory cell structure in the double threshold technology is designed for current testability. An LSB-selected decoder is also developed for fast test generation. Analyses on transistor level bridging faults prove the test effectiveness. The proposed scheme can explore the current resolution improvement up to the generic switch intensity ratio of the double threshold-voltage CMOS technology. From simulations in a 0.13 mum technology, the current resolution can be improved by about 40 dB, i.e., 100 times. Once current test can be renascent for embedded memory, the test time can be dramatically reduced.
Keywords :
CMOS integrated circuits; nanoelectronics; random-access storage; transistors; LSB-selected decoder; double threshold-voltage CMOS; embedded memory; fine-grain power-gated adaptive-retention memory cell; leakage elevation; leakage variation; nanometer static RAM; nanotechnologies; power-gating current test; power-gating sleep mode; switch intensity ratio; test generation; test resolution; threshold technology; transistor; Acceleration; CMOS technology; Circuit testing; Decoding; Electronic equipment testing; Energy management; Logic testing; Random access memory; Read-write memory; Switches;
Conference_Titel :
Memory Technology, Design and Testing, 2007. MTDT 2007. IEEE International Workshop on
Conference_Location :
Taipei
Print_ISBN :
978-1-4244-1656-1
Electronic_ISBN :
1087-4852
DOI :
10.1109/MTDT.2007.4547614
