{"title":"Algorithm Design and Performance Evaluation of Equivalent CMOS Model","authors":"Parvinder S. Sandhu, Iqbaldeep Kaur, Amit Verma, Inderpreet Kaur, Birinderjit S. Kalyan","volume":28,"journal":"International Journal of Electrical and Computer Engineering","pagesStart":649,"pagesEnd":655,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/14943","abstract":"This work is a proposed model of CMOS for which\r\nthe algorithm has been created and then the performance evaluation\r\nof this proposition has been done. In this context, another commonly\r\nused model called ZSTT (Zero Switching Time Transient) model is\r\nchosen to compare all the vital features and the results for the\r\nProposed Equivalent CMOS are promising. In the end, the excerpts\r\nof the created algorithm are also included","references":"[1] Betty Prince, \"Emerging Memories Technologies and Trends\", Kluwer\r\nPublications, 2002.\r\n[2] J. F. Scott, \"Ferroelectric Memories\", Springer Verlag, 2000.\r\n[3] S. L. Miller, J. R. Schwank, R. D. Nasby, and M. S. Rodgers,\r\n\"Modeling ferroelectric capacitor switching with asymmetric\r\nnonperiodic input signals and arbitrary initial conditions,\" J. Appl.\r\nPhys., 70 (5), pp. 2849-2860, 1 Sep. 1991.\r\n[4] B. Jiang, P. Zurcher, R. E. Jones, S. J. Gillespie, and J. C. Lee,\r\n\"Computationally efficient Ferroelectric Capacitor model for Circuit\r\nSimulation\" , VLSI Technology Symposium , pp. 242 - 245, 1998.\r\n[5] S. M .Yoon & H. Ishiwara, \"A Novel FET- Type Ferroelectric Memory\r\nwith excellent Data retention Characteristics \", IEDM , December 2000.\r\n[6] Ali Sheikholeslami and P.Glenn Gulak, \"Transient Modeling of\r\nFerroelectric Capacitor for Non-Volatile Memories\", IEEE Trans.\r\nUltrason., Ferroelect., Freq. Contr., vol. 43, pp. 450-456, May 1996.\r\n[7] J. F. Scott , \"Ferroelectric memories\", Springer Verlag, edition 1st,2000\r\n[8] H. Ishiwara , M. Okuyama , Y.Arimoto , \"Ferroelectric Random Access\r\nMemories Fundamental and Application\", Springer, 2004.\r\n[9] Ali Sheikholeslami and P.Glenn Gulak, \"A Survey of Behavioral\r\nModeling of Ferroelectric Capacitors\", IEEE Transactions on\r\nUltrasonics, Ferroelectrics, and Frequency Control. Vol. 44, No. 4, pp.\r\n917-924, July 1997.\r\n[10] Ali Sheikholeslami, P. Glenn Gulak, Hideki Takauchi , Hirotaka\r\nTamura , Hiroshi Yoshioka and Tetsuro Tamura, \"Pulse- Based Parallel\r\nElement Macromodel for Ferroelectric Capacitor\", IEEE Transactions\r\non Ultrasonics, Ferroelectrics, and Frequency Control, 47(4), July 2000,\r\npp. 784-791\r\n[11] H. Ishiwara , \"Current Status and Prospects of ferroelectric Memories\",\r\nIEDM , December 2001.\r\n[12] Enoch O. Hwang, Enoch, O. Hwang-la Sierra University, \"Digital Logic\r\nand Microprocessor Design With VHDL\", 1st edition, Nelson\r\nEngineering, 2007.\r\n[13] Volnei A. Pedroni, \"Circuit design with VHDL\", 1st edition, MIT Press,\r\n2004.\r\n[14] John F. Wakerly, \"Digital Design: Principles and Practices\", 4th edition,\r\nPrentice Hall Publications, 2005.\r\n[15] Kenneth J. Ayala, \"The 8051 Microcontroller Architecture,\r\nProgramming, and Applications\", Delmar Learning, 2nd edition, 1996.\r\n[16] B. Ram , \"Fundamentals of Microprocessors And Microcomputers\",\r\n2nd edition, Dhanpat Rai & Sons, 2000.\r\n[17] J. Bhaskar , \"A VHDL Primer\" , Bell Labs., 3rd edition, 1998.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 28, 2009"}