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Journal of Zhejiang University SCIENCE A 2008 Vol.9 No.10 P.1398-1405

http://doi.org/10.1631/jzus.A0720130


A recoverable stress testing algorithm for compression and encryption cards


Author(s):  Bao-jun ZHANG, Xue-zeng PAN, Jie-bing WANG, Ling-di PING

Affiliation(s):  Network and Security Lab, School of Computer Science and Technology, Zhejiang University, Hangzhou 310027, China

Corresponding email(s):   zbjhover@zju.edu.cn

Key Words:  Stress testing, Random sequence, Chaos function, Synchronization, Concurrency


Bao-jun ZHANG, Xue-zeng PAN, Jie-bing WANG, Ling-di PING. A recoverable stress testing algorithm for compression and encryption cards[J]. Journal of Zhejiang University Science A, 2008, 9(10): 1398-1405.

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Abstract: 
This study proposes a recoverable stress testing algorithm (RSTA) for such special devices as compression/decompression card and encryption/decryption card. It uses a chaos function to generate a random sequence, and then, according to the random sequence, generates an effective command sequence. The dispatch of command obeys a special schedule strategy we designed for such devices, i.e., the commands are sent according to the command sequence, and the complete commands are put in a buffer for further result check. RSTA is used to test the HIFN compression acceleration card SAICHI-1000. Test results show that RSTA can make the card work continuously and adequately.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1] Barber, J.S., Gehner, K.R., 1992. Age-and-test procedures for true reliability improvement, feasibility and economic justification. IIE Trans., 24(5):81-87.

[2] Bose, R., Banerjee, A., 1999. Implementing Symmetric Cryptography Using Chaos Functions. Proc. 7th Int. Conf. Advanced Computing and Communications, p.318-321.

[3] Chan, H.A., 1995. The benefits of stress testing. IEEE Trans. on Comp., Pack., Manuf. Technol., Part A, 18(1):23-29.

[4] Chan, H.A., 2004. Accelerated Stress Testing for both Hardware and Software. Proc. Annual Reliability and Maintainability Symp., p.346-351.

[5] Cui, Y., Xu, K., Xu, M.W., Wu, J.P., 2002. Stress Testing of OSPF Protocol Implementation Based on Large-scale Routing Simulation. Proc. 10th IEEE Int. Conf. on Networks, p.63-68.

[6] Cui, Y., Xu, K., Xu, M.W., Wu, J.P., 2003. Internet Routing Emulation System and Stress Testing. Proc. 10th Int. Conf. on Telecommunications, 2:1020-1026.

[7] Elbert, M., Mpagazehe, C., Weyant, T., 1994. Stress Testing and Reliability. Conf. Record, Southcon’94, p.357-362.

[8] Gullo, L.J., Davis, R.J., 2004. Accelerated Stress Testing to Detect Probabilistic Software Failures. Proc. Annual Reliability and Maintainability Symp., p.249-255.

[9] Hobbs, G.K., 1987. Development of Stress Screens. Proc. Annual Reliability and Maintainability Symp., p.115-118.

[10] Hobbs, G.K., 1992. Highly Accelerated Stress Screens— HASS. National Electronic Packaging and Production Conf.-Proc. Technical Program. Cahner Exposition Group, Des Plaines, IL, USA, p.1565-1572.

[11] Liu, L., Lin, J., Li, Z.T., Li, J.C., 2006. State Machine Based CDMA Stress Testing Service System. Asia-Pacific Services Computing Conf., South China University of Technology, Guangzhou, China, p.625-628.

[12] McLinn, J.A., 1998. Ways to Improve the Analysis of Step-stress Testing. Proc. Annual Reliability and Maintainability Symp., p.358-364.

[13] Pachucki, D.E., 1994. Environmental Stress Screening Experiment Using Taguchi Method. Proc. 43rd Electronic Components and Technology Conf.. IEEE Computer Society, New York, p.1028-1036.

[14] Roy, K., Roy, R.K., Chatterjee, A., 1995. Stress Testing of Combinational VLSI Circuits Using Existing Test Sets. VLSI Technology. Proc. Technical Papers, Int. Symp. on VLSI Technology Systems and Applications, p.93-98.

[15] Shinner, C., 1988. The board electronic STRIFE test (B.E.S.T.) program. Am. Soc. Qual. Control Rel. Rev., p.3-6.

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