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Efficient Implementation Of Gate Oxide With And Without Breakdown In SRAM – BISR For Word Oriented Memories

M. Devipriya*, S. Lavanya**, Aswin Tilak A.***

* Department of ECE, Knowledge Institute of technology, Anna University, Salem, Tamilnadu, India.

** Assistant Professor, Department of Electronics and Communication Engineering, Vedantha Institute of Technology, Villupuram Tamilnadu.

*** Ph.D Scholar, Jodhpur National University, Jodhpur, India.

Periodicity:March - May'2014
DOI : https://doi.org/10.26634/jele.4.3.2677

Abstract

Scaling of the CMOS [Complementary Metal Oxide Semiconductor] technology associated with gate oxide thickness has become a major barrier for the design of circuit in nanoscale Static Random Access Memory (SRAM), especially in lower voltages. The operation of SRAM arrays are critical in reducing the power consumption. The Gate Oxide Breakdown caused by excessive electric field in the gate oxide causes increased vulnerability of the circuit performance, during breakdown. The devices are characterized by increased minimum voltage due to increase the static write failure as the voltage decreases. The design circuits were schematized using the DSCH2 schematic design tool, and their layouts were generated with the Micro wind 2 VLSI layout CAD tool. The proposed structures are simulated using Xilinx ISE design suite.

Keywords

SRAM(Static Random Access Memory), GOBD(Gate Oxide Breakdown), HBD(Hard Breakdown), SBD(Soft Breakdown), BSIR(Built In Self Repair), PVT(Process, Voltage and Temperature).

How to Cite this Article?

.Devipriya, M., Lavanya, S., and Tilak, A.A. (2014). Efficient Implementation Of Gate Oxide With And Without Breakdown In SRAM – BISR For Word Oriented Memories. i-manager's Journal on Electronics Engineering, 4(3), 20-28. https://doi.org/10.26634/jele.4.3.2677

References

[1]. Fahad Ahmed and Linda Milor, (2012). “Analysis and On-Chip Monitoring of Gate Oxide Breakdown in SRAM Cells” IEEE transactions on Very Large Scale Integration (VLSI) systems, Vol. 20, No. 5.

[2]. Jaeyong Chung, ,Joonsung Parkand Jacob A. Abraham, (2011). “A Built-In Repair Analyzer With Optimal Repair Rate for Word-Oriented Memories” IEEE transactions on Very Large Scale Integration (VLSI) systems.

[3]. W. Jeong, J. Lee, T. Han, K. Lee, and S. Kang, (2010). “An advanced BIRA for memories with an optimal repair rate and fast analysis speed by using a branch analyzer,” IEEE Trans. Comput.-Aided Design Integr. Circuits Syst., Vol. 29, No. 12, pp. 2014–2026.

[4]. P. Oehler, A. Bosio, G. D. Natale, and S. Hellebrand, (2008). “A modular memory BIST for optimized memory repair,” in Proc. Int. On-Line Test. Symp., pp. 171–172.

[5]. A. Kerber, M. Rohner, T. Pompl, R. Duschi, and M. Kerber, (2007). “Lifetime prediction for CMOS devices with ultra-thin gate oxides based on progressive breakdown,” in Proc. IEEE Int. Reliab. Phys. Symp., pp.217–220.

[6]. M. Rohner, A. Kerber, and M. Kerber (2006), “Voltage acceleration of TDB and its correlation to post breakdown conductivity of N- and P-channel MOSFETs,” in Proc. IEEE Int. Reliab. Phys. Symp., 2006, pp. 76–8.

[7]. Rasras . M, Kaczer . B, Degraeve . R, Van de Mieroop . K, Roussel P . J, and Groeseneken .G (2002). 'Impact of MOSFET gate oxide breakdown on digital circuit operation and reliability,' IEEE Trans. Electron Devices, Vol. 49, No. 3, pp. 500–506. (1999).

[8]. Stathis. J, (1999). 'Percolation models for gate oxide breakdown 'J. Appl. Phys., Vol. 86, pp. 5757–5766.

[9]. E.Wu, E. Nowak, J. Aitken, W. Abadeer, L. K. Han, and S. Lo, (1998). “Structural dependence of dielectric breakdown in ultra-thin gate oxides and its relationship to soft breakdown modes and device failure,” in Proc.IEEE Int. Electron Devices Meet., pp. 187–190.

[10]. Wu . E, Nowak .E, Aitken . J, Abadeer . W, Han L . K, and Lo . S (1998). 'Structural dependence of dielectric breakdown in ultra-thin gate oxides and its relationship to soft breakdown modes and device failure,' in Proc. IEEE Int. Electron Devices Meet., pp. 187–190.

[11]. J. Segura and A. Rubio,(1997). “A detailed analysis of CMOS SRAM's with gate oxide short defects,” IEEE J. Solid- State Circuits, Vol. 32, No. 10, pp. 1543–1550.

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Efficient Implementation Of Gate Oxide With And Without Breakdown In SRAM – BISR For Word Oriented Memories

Abstract

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