| Autor: |
Shukla, Ritvik, Bose, Salini, Shukla, Shubham, Upadhyay, Kamal Kishor, Mishra, Nikhlesh Kumar, Singh, Ashutosh Kumar, Tiwari, Pradeep, Tripathi, Animesh, Arun, Vanya, Shukla, N. K. |
| Zdroj: |
Journal of Optical Communications; January 2021, Vol. 44 Issue: Supplement 1 ps303-s314, 12p |
| Abstrakt: |
In the current era of data communication everyone deals with the huge amount of data in form of text, audio, video and different other formats in which everyone want a secure and higher bandwidth channel to transmit and receive so, only the optical channel provides the solution of above said problem. The only difficulty with the existing model that the data from electrical domain first converted in form of light (optical domain) at the transmission end while after receiving the data at the receiver end it will be further converted in form of electrical signal for extracting the message. This type of conversion from one domain to other gives the energy loss. In the current research article, we proposed a model of optical processor which transmit and receive the data without conversion which provides an energy efficient optical technology. By adding reversibility, heat bender can be further reduced. In this manuscript, an arithmetical logic unit has been created, a photonic reversible complete subtractor and an irregular logic portal. SOA-MZI structure is the basic component of the architecture. The method is mainly carried out by the semiconductor Amplifier, using nonlinear properties such as cross-gain modulation and cross-phase modulation. The efficiency deciding factor for the whole system is 21.23 and 53.27 dB in the average extinction ratio. The cost of the arithmetic logic unit optically constructed is 9. |
| Databáze: |
Supplemental Index |
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