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Error Tolerance of DNA Self-Assembly by Monomer Concentration Control
Arlington, Virginia, USA October 04-October 06
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/DFT.2006.2921st IEEE International Symposium on ...
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Byunghyun Jang, Yong-Bin Kim, Fabrizio Lombardi, "Error Tolerance of DNA Self-Assembly by Monomer Concentration Control," Defect and Fault-Tolerance in VLSI Systems, IEEE International Symposium on, pp. 89-97, 21st IEEE International Symposium on Defect and Fault-Tolerance in VLSI Systems (DFT'06), 2006.
 
 
BibTex
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@article{ 10.1109/DFT.2006.29,
author = {Byunghyun Jang and Yong-Bin Kim and Fabrizio Lombardi},
title = {Error Tolerance of DNA Self-Assembly by Monomer Concentration Control},
journal ={Defect and Fault-Tolerance in VLSI Systems, IEEE International Symposium on},
volume = {0},
year = {2006},
issn = {1550-5774},
pages = {89-97},
doi = {http://doi.ieeecomputersociety.org/10.1109/DFT.2006.29},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
x 
 
TY - CONF
JO - Defect and Fault-Tolerance in VLSI Systems, IEEE International Symposium on
TI - Error Tolerance of DNA Self-Assembly by Monomer Concentration Control
SN - 1550-5774
SP89
EP97
A1 - Byunghyun Jang,
A1 - Yong-Bin Kim,
A1 - Fabrizio Lombardi,
PY - 2006
KW - null
VL - 0
JA - Defect and Fault-Tolerance in VLSI Systems, IEEE International Symposium on
ER -
 
Byunghyun Jang, Northeastern University, USA
Yong-Bin Kim, Northeastern University, USA
Fabrizio Lombardi, Northeastern University, USA
This paper proposes the control of monomer concentration as a novel improvement of the kinetic Tile Assembly Model (kTAM) to reduce the error rate in DNA self-assembly. Tolerance to errors in this process is very important for manufacturing highly dense ICs; the proposed technique significantly decreases error rates (i.e. it increases error tolerance) by controlling the concentration of monomers. A stochastic analysis based on a new state model is presented. Error rates reductions of at least 10% are found by evaluating the proposed scheme comparing to a scheme with constant concentration. One of the significant advantages of the proposed scheme is that it doesn?t entail an overhead such as increase in size and a slow growth, while still achieving a significant reduction in error rate.
Citation:
Byunghyun Jang, Yong-Bin Kim, Fabrizio Lombardi, "Error Tolerance of DNA Self-Assembly by Monomer Concentration Control," dft, pp.89-97, 21st IEEE International Symposium on Defect and Fault-Tolerance in VLSI Systems (DFT'06), 2006
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