Abstract
The memory device is very important as they store various values either temporary or permanently. Optical flip-flop memories form a fundamental building block for all-optical packet switches in the next generation communication networks. All-optical flip-flop memory with the help of Terahertz Optical Asymmetric Demultiplexer (TOAD) is proposed and described. Principles and possibilities of all-optical circuits for TOAD based S–R, J–K, D and T flip-flop are reported. Numerical simulation confirming described method is also given in this paper.
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Agrwal GP (2001) Applications of nonlinear fibre optics. Academic Press, India (an imprint of Elsevier, San Diego)
Avramopoulos H, Whitaker NA (1993) Addressable fiber-loop memory. Opt Lett 18(1):22–24
Chattopadhyay T, Taraphdar C, Roy JN (2009a) Quaternary Galois field adder based all-optical multi-valued logic circuits. Appl Opt 48(22):E35–E44
Chattopadhyay T, Roy JN, Chakraborty AK (2009b) Polarization encoded all-optical quaternary R–S flip-flop using binary latch. Opt Commun 282:1287–1293
Clavero R, Ramos F, Martinez JM, Marti J (2005) All-optical flip-flop based on a single SOA-MZI. IEEE Photon Technol Lett 17:843–845
Dagens B, Labrousse A, Brenot R, Lavigne B, Renaud M (2003a) Theoretically predicted performance and frequency-scaling rule of a Symmetric-Mach-Zehnder optical 3R gating. In: Optical fiber communication conference OSA, Technical Digest, Atlanta, ThX1, pp 23–28
Dagens B, Labrousse A, Brenot R, Lavigne B, Renaud M (2003b) SOA-based devices for all-optical signal processing. In: Optical fiber communication conference proceedings, ThX1, pp 582–583
Dolev S, Haist T, Oltean M (eds) (2008) In: Proceedings: optical supercomputing: first international workshop, Vienna, Austria. Springer, New York, pp 33–45
Eiselt M, Pieper W, Weber HG (1995) SLALOM: semiconductor laser amplifier in a loop mirror. J Lightwave Technol 13(10):2099–2112
Gayen DK, Roy JN (2008) All-optical arithmetic unit with the help of terahertz optical asymmetric demultiplexer (TOAD) based tree architecture. Appl Opt 47(7):933–943
Glesk I, Runser RJ, Prucnal PR (2001a) New generation of devices for all-optical communications. Acta Phys Slov 51(2):151–162
Glesk I, Runser RJ, Prucnal PR (2001b) New generation of devices for all-optical communication. Acta Phys Slov 51:151–162
Hardy J, Shamir J (2007) Optics inspired logic architecture. Opt Express 15(1):150–165
Hill MT, de Waardt H, Khoe GD, Dorren HJS (2001) Fast optical flip-flop by use of Mach–Zehnder interferometers. Microwave Opt Technol Lett 31(6):411–415
Hill MT, Dorren HJS, de Vries T, Leijtens XJM, den Besten JH, Smalbrugge B, Oei YS, Binsma H, Khoe GD, Smit MK (2004) A fast low-power optical memory based on coupled micro-ring lasers. Nature 432:206–209
Houbavlis T, Zoiros KE (2003a) SOA-assisted Sagnac switch and investigation of its roadmap from 10 to 40 GHz. Opt Quant Electron 35:1175–1203
Houbavlis T, Zoiros KE (2003b) Ultrafast pattern-operated all-optical Boolean XOR with semiconductor optical amplifier-assisted Sagnac switch. Opt Eng 42(12):3415–3416
Houbavlis T, Zoiros KE (2004) Numerical simulation of semiconductor optical amplifier assisted Sagnac gate and investigation of its switching characteristics. Opt Eng 43(7):1622–1627
Huang YK, Glesk I, Shankar R, Prucnal PR (2006) Simultaneous all-optical 3R regeneration scheme with improved scalability using TOAD. Opt Express 14(22):10339–10344
Hunter DK, Chia MC, Andonovic I (1998) Buffering in optical packet switches. J Lightwave Technol 16(12):2081–2094
Huybrechts K, Morthier G, Baets R (2008) Fast all-optical flip-flop based on a single distributed feedback laser diode. Opt Express 16(15):11405–11410
Jung YJ, Lee S, Park N (2008) All-optical 4-bit gray code to binary coded decimal converter. In: Optical components and materials, proceedings of the SPIE, vol 6890, 68900S
Kang KI, Chang TG, Glesk I, Prucnal PR (1996) Comparison of Sagnac and Mach-Zehnder ultrafast all-optical interferometric switches based on a semiconductor resonant optical nonlinearity. Appl Opt 35(3):417–426
Karim MA, Awal AAS (1992) Optical computing: an introduction. Wiley, New York
Leuthold J, Besse PA, Eckner J, Gamper E, Dülk M, Melchior H (1998) All-optical space switches with gain and principally ideal extinction ratios. IEEE J Quantum Electron 34(4):622–633
Li W, Zhang M, Ye P (2005) Simulation of an all-optical XOR gate with a semiconductor optical amplifier Mach-Zehnder Interferometer sped up by a continuous-wave assistant light. J Opt Netw 4(8):524–530
Menon VM, Tong W, Li C, Xia F, Glesk I, Prucnal PR, Forrest SR (2003) All-optical wavelength conversion using a regrowth-free monolithically integrated Sagnac interferometer. IEEE Photon Technol Lett 15(2):254–256
Park SY, Kim HK, Lyu GY, Kang SM, Shin SY (1998) Dynamic gain and output power control in a gain-flattened erbium-doped fiber amplifier. IEEE Photon Technol Lett 10(6):787–789
Ramaswami R, Sivarajan KN (2001) Optical networks: a practical perspective. Morgan Kaufmann, San Francisco
Roy JN, Gayen DK (2007) Integrated all-optical logic and arithmetic operations with the help of TOAD based interferometer device—alternative approach. Appl Opt 46(22):5304–5310
Roy JN, Maity GK, Gayen D, Chattopadhyay T (2008) Terahertz optical asymmetric demultiplexer based tree-net architecture for all-optical conversion scheme from binary to its other 2n radix based form. Chin Opt Lett 6(7):536–540
Shen ZY, Wu LL (2008) Reconfigurable optical logic unit with a terahertz optical asymmetric demultiplexer and electro-optic switches. Appl Opt 47(21):3737–3742
Sokoloff JP, Prucnal PR, Glesk I, Kane M (1993) A terahertz optical asymmetric demultiplexer (TOAD). IEEE Photon Technol Lett 5(7):787–789
Sokoloff JP, Glesk I, Prucnal PR, Boneck RK (1994) Performance of a 50 gbit/s optical time domain multiplexed system using a terahertz optical asymmetric demultiplexer. IEEE Photon Technol Lett 6(1):98–100
Stubkjaer KE (2000) Semiconductor optical amplifier-based all-optical gates for high-speed optical processing. IEEE J Sel Top Quantum Electron 6(6):1428–1435
Takenaka M, Raburn M, Nakano Y (2005) All-optical flip-flop multimode interference bistable laser diode. IEEE Photon Technol Lett 17:968–970
Van Caenegem R, Martinez JA, Colle D, Pickavet M, Demeester P, Ramos F, Marti J (2006) From IP over WDM to all-optical packet switching: economical view. J Lightwave Technol 24:1638–1645
Vasile FI, Schiopua P (2004) The determination of the saturation power for erbium doped fiber amplifier. J Optoelectron Adv Mater 6(4):1207–1212
Wang BC, Baby V, Tong W, Xu L, Friedman M, Runser RJ, Glesk I, Pruncnal PR (2002) A novel fast optical switch based on two cascaded terahertz asymmetric demultiplexers (TOAD). Opt Express 10(1):15–23
Whitaker NA Jr, Gabriel MC, Avramopoulos H, Huang A (1991) All-optical, all-fiber circulating shift register with an inverter. Opt Lett 16(24):1999–2001
Xu Q, Almeida VR, Lipson M (2005) Micrometer-scale all-optical wavelength converter on silicon. Opt Lett 30(20):2733–2735
Yu FTS, Jutamulia S, Yin S (eds) (2001) Introduction to information optics. Academic Press, San Diego
Zavalin AI, Shamir J, Vikram CS, Caulfield HJ (2006) Achieving stabilization in interferometric logic operations. Appl Opt 45:360–365
Zhang S, Lenstra D, Liu Y, Ju H, Li Z, Khoe GD, Dorren HJS (2007) Multi-state optical flip-flop memory based on ring lasers coupled through the same gain medium. Opt Commun 270(1):85–95
Zhao Y (1997) Gain clamped erbium-doped fiber amplifiers—modeling and experiment. IEEE J Quantum Electron 3(4):1008–1012
Zoiros KE, Houbavlis T, Kalyvas M (2004) Ultra-high speed all-optical shift registers and their applications in OTDM networks. Opt Quant Electron 36:1005–1053
Zoiros KE, Papadopoulos G, Houbavlis T, Kanellos GT (2006) Theoretical analysis and performance investigation of ultrafast all-optical Boolean XOR gate with semiconductor optical amplifier-assisted Sagnac interferometer. Opt Commun 258(2):114–134
Zoiros KE, Chasiotia R, Koukourlisb CS, Houbavlisa T (2007) On the output characteristics of a semiconductor optical amplifier driven by an ultrafast optical time division multiplexing pulse train. Optik 118:134–146
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Authors gratefully acknowledge the important and valuable suggestions given by the reviewers regarding this paper.
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Maity, G.K., Chattopadhyay, T., Gayen, D.K. et al. All-optical binary flip-flop with the help of Terahertz Optical Asymmetric Demultiplexer. Nat Comput 9, 903–916 (2010). https://doi.org/10.1007/s11047-009-9162-8
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DOI: https://doi.org/10.1007/s11047-009-9162-8