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12 \newblock Fpga implementation of pseudo random number generators for monte
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13 carlo methods in quantitative finance.
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31 Abdelkarim Cherkaoui, Viktor Fischer, Alain Aubert, and Laurent Fesquet.
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32 \newblock Comparison of self-timed ring and inverter ring oscillators as
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33 entropy sources in fpgas.
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34 \newblock In {\em Design, Automation \& Test in Europe Conference \& Exhibition
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38 Abdelkarim Cherkaoui, Viktor Fischer, Alain Aubert, and Laurent Fesquet.
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52 \newblock A chaos-based pseudo-random bit generator implemented in fpga device.
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53 \newblock In {\em Design and Diagnostics of Electronic Circuits \& Systems
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58 Pawel Dabal and Ryszard Pelka.
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59 \newblock Fpga implementation of chaotic pseudo-random bit generators.
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60 \newblock In {\em Mixed Design of Integrated Circuits and Systems (MIXDES),
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65 Pawel Dabal and Ryszard Pelka.
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66 \newblock A study on fast pipelined pseudo-random number generator based on
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67 chaotic logistic map.
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68 \newblock In {\em Design and Diagnostics of Electronic Circuits Systems, 17th
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72 Ishaan~L Dalal, Jared Harwayne-Gidansky, and Deian Stefan.
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73 \newblock On the fast generation of long-period pseudorandom number sequences.
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75 Long Island}, pages 1--9. IEEE, 2008.
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78 Markus Dichtl and Jovan~Dj Goli{\'c}.
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79 \newblock {\em High-speed true random number generation with logic gates only}.
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80 \newblock Springer, 2007.
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82 \bibitem{dogaru2010algebraic}
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83 Ioana Dogaru and Radu Dogaru.
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84 \newblock Algebraic normal form for rapid prototyping of elementary hybrid
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85 cellular automata in fpga.
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86 \newblock In {\em Electrical and Electronics Engineering (ISEEE), 2010 3rd
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87 International Symposium on}, pages 277--280. IEEE, 2010.
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89 \bibitem{echeverria2013high}
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90 Pedro Echeverr{\'\i}a and Marisa L{\'o}pez-Vallejo.
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91 \newblock High performance fpga-oriented mersenne twister uniform random number
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96 E.~Erkek and T.~Tuncer.
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97 \newblock The implementation of asg and sg random number generators.
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101 \bibitem{fischer2003true}
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102 Viktor Fischer and Milo{\v{s}} Drutarovsk{\`y}.
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103 \newblock True random number generator embedded in reconfigurable hardware.
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107 \bibitem{gonzalez2011pseudorandom}
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108 Victor~R Gonzalez-Diaz, Fabio Pareschi, Gianluca Setti, and Franco Maloberti.
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115 Sheng-Uei Guan and Syn~Kiat Tan.
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116 \newblock Pseudorandom number generator--the self programmable cellular
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121 \bibitem{hariprasad2013fpga}
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122 NagaDeepa Hariprasad et~al.
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123 \newblock Fpga implementation of a cryptography technology using pseudo random
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126 Technology}, volume~2. ESRSA Publications, 2013.
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128 \bibitem{ioana2014fpga}
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129 Dogaru Ioana and Dogaru Radu.
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130 \newblock Fpga implementation and evaluation of two cryptographically secure
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131 hybrid cellular automata.
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132 \newblock In {\em Communications (COMM), 2014 10th International Conference
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137 \newblock Fpga implementation of gaussian-distributed pseudo-random number
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143 Raj~S Katti and Sudarshan~K Srinivasan.
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144 \newblock Efficient hardware implementation of a new pseudo-random bit sequence
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149 \bibitem{klein2009design}
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150 Cristian Klein, Octavian Cret, and Alin Suciu.
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151 \newblock Design and implementation of a high quality and high throughput trng
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155 \bibitem{kohlbrenner2004embedded}
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156 Paul Kohlbrenner and Kris Gaj.
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157 \newblock An embedded true random number generator for fpgas.
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158 \newblock In {\em Proceedings of the 2004 ACM/SIGDA 12th international
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161 \bibitem{kotoulas20061}
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162 Leonidas Kotoulas, Demetrios Tsarouchis, Georgios~Ch Sirakoulis, and Ioannis
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164 \newblock 1-d cellular automaton for pseudorandom number generation and its
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165 reconfigurable hardware implementation.
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166 \newblock In {\em Circuits and Systems, 2006. ISCAS 2006. Proceedings. 2006
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169 \bibitem{lee2014metastability}
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170 Donggeon Lee, Hwajeong Seo, and Howon Kim.
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171 \newblock Metastability-based feedback method for enhancing fpga-based trng.
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172 \newblock {\em International Journal of Multimedia \& Ubiquitous Engineering},
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175 \bibitem{li2012efficient}
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176 Yuan Li, Jiang Jiang, Hanqiang Cheng, Minxuan Zhang, and Shaojun Wei.
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177 \newblock An efficient hardware random number generator based on the mt method.
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178 \newblock In {\em Computer and Information Technology (CIT), 2012 IEEE 12th
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179 International Conference on}, pages 1011--1015. IEEE, 2012.
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181 \bibitem{majzoobi2011fpga}
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182 Mehrdad Majzoobi, Farinaz Koushanfar, and Srinivas Devadas.
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183 \newblock Fpga-based true random number generation using circuit metastability
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184 with adaptive feedback control.
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185 \newblock In {\em Cryptographic Hardware and Embedded Systems--CHES 2011},
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186 pages 17--32. Springer, 2011.
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188 \bibitem{mansingka2013fibonacci}
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189 Abhinav~S Mansingka, Mohamed~L Barakat, M~Affan Zidan, Ahmed~G Radwan, and
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191 \newblock Fibonacci-based hardware post-processing for non-autonomous signum
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192 hyperchaotic system.
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193 \newblock In {\em IT Convergence and Security (ICITCS), 2013 International
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196 \bibitem{mao2006design}
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197 Yaobin Mao, Liu Cao, and Wenbo Liu.
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198 \newblock Design and fpga implementation of a pseudo-random bit sequence
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199 generator using spatiotemporal chaos.
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200 \newblock In {\em Communications, Circuits and Systems Proceedings, 2006
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201 International Conference on}, volume~3, pages 2114--2118. IEEE, 2006.
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203 \bibitem{merahcoupling}
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204 Lahcene Merah, Adda ALI-PACHA, and Naima~HADJ SAID.
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205 \newblock Coupling two chaotic systems in order to increasing the security of a
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206 communication system-study and real time fpga implementation.
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208 \bibitem{peris2010cryptographically}
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209 Pedro Peris-Lopez, Enrique San~Millan, Jan~CA van~der Lubbe, and Luis~A
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211 \newblock Cryptographically secure pseudo-random bit generator for rfid tags.
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212 \newblock In {\em Internet Technology and Secured Transactions (ICITST), 2010
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215 \bibitem{raut2013stream}
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216 Lakshman Raut and David~HK Hoe.
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217 \newblock Stream cipher design using cellular automata implemented on fpgas.
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218 \newblock In {\em System Theory (SSST), 2013 45th Southeastern Symposium on},
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221 \bibitem{sewak2012fpga}
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222 Khushboo Sewak, Praveena Rajput, and Amit~Kumar Panda.
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223 \newblock Fpga implementation of 16 bit bbs and lfsr pn sequence generator: A
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225 \newblock In {\em Electrical, Electronics and Computer Science (SCEECS), 2012
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228 \bibitem{vsimka2005embedded}
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229 Martin {\v{S}}imka, Milo{\v{s}} Drutarovsk{\`y}, and Viktor Fischer.
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230 \newblock Embedded true random number generator in actel fpgas.
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231 \newblock In {\em Workshop on Cryptographic Advances in Secure
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234 \bibitem{simka2011testing}
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235 Martin Simka, Milos Drutarovsk{\`y}, Viktor Fischer, et~al.
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236 \newblock Testing of pll-based true random number generator in changingworking
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238 \newblock {\em RADIOENGINEERING,}, 20:94--101, 2011.
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240 \bibitem{thomas2014fpga}
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242 \newblock Fpga gaussian random number generators with guaranteed statistical
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247 \bibitem{thomas2010fpga}
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248 David~B Thomas and Wayne Luk.
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249 \newblock Fpga-optimised uniform random number generators using luts and shift
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251 \newblock In {\em Field Programmable Logic and Applications (FPL), 2010
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254 \bibitem{thomas2013lut}
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255 David~B Thomas and Wayne Luk.
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256 \newblock The lut-sr family of uniform random number generators for fpga
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258 \newblock {\em Very Large Scale Integration (VLSI) Systems, IEEE Transactions
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261 \bibitem{thomas2008fpga}
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262 David~Barrie Thomas and Wayne Luk.
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263 \newblock Fpga-optimised high-quality uniform random number generators.
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267 \bibitem{tian2009mersenne}
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268 Xiang Tian and Khaled Benkrid.
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269 \newblock Mersenne twister random number generation on fpga, cpu and gpu.
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270 \newblock In {\em Adaptive Hardware and Systems, 2009. AHS 2009. NASA/ESA
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273 \bibitem{tsoi2003compact}
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274 Kuen~Hung Tsoi, KH~Leung, and Philip Heng~Wai Leong.
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275 \newblock Compact fpga-based true and pseudo random number generators.
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276 \newblock In {\em Field-Programmable Custom Computing Machines, 2003. FCCM
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279 \bibitem{varchola2008hardware}
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280 Michal Varchola, Milos Drutarovsky, Robert Fouquet, and Viktor Fischer.
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281 \newblock Hardware platform for testing performance of trngs embedded in actel
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283 \newblock In {\em Radioelektronika, 2008 18th International Conference}, pages
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286 \bibitem{vasyltsov2008fast}
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287 Ihor Vasyltsov, Eduard Hambardzumyan, Young-Sik Kim, and Bohdan Karpinskyy.
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288 \newblock Fast digital trng based on metastable ring oscillator.
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289 \newblock In {\em Cryptographic Hardware and Embedded Systems--CHES 2008},
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290 pages 164--180. Springer, 2008.
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292 \bibitem{wu2013hardware}
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293 Shengfei Wu, Jiang Jiang, and Yuzhuo Fu.
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294 \newblock Hardware architecture for the parallel generation of long-period
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295 random numbers using mt method.
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296 \newblock In {\em Computer Engineering and Technology}, pages 8--15. Springer,
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300 Ziqi Zhu and Hanping Hu.
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301 \newblock A dynamic nonlinear transform arithmetic for improving the properties
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303 \newblock In {\em Intelligent Control and Automation (WCICA), 2010 8th World
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306 \end{thebibliography}
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