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Processes of Quantum Associative Memory (QuAM) Through New Maximally Entangled States (Singh-Rajput MES) |
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| Authors: | Manu?Pratap?Singh,B.?S.?Rajput author-information" > author-information__contact u-icon-before" > mailto:bsrajp@gmail.com" title=" bsrajp@gmail.com" itemprop=" email" data-track=" click" data-track-action=" Email author" data-track-label=" " >Email author |
| Affiliation: | 1.Department of Computer Science, Institute of Engineering & Technology,DR. BR Ambedkar University, Khandari Campus,Agra,India;2.Department of Physics,Kumaun University,Nainital,India;3.Kumaun University,Greater Noida,India |
| Abstract: | Using Singh-Rajput MES as memory states in the evolutionary process of pattern storage and the non-evolutionary process of pattern recall (the two fundamental constituents of QuAM), the suitability and superiority of these MES over Bell’s MES have been demonstrated in both these processes. It has been shown that, under the operations of all the possible memorization operators for a two-qubit system, the first two states of Singh-Rajput MES are useful for storing the pattern |11> and the last two of these MES are useful in storing the pattern |10> while Bell’s MES are not much suitable as memory states in a valid memorization process. The recall operations have also been conducted by separately choosing Singh-Rajput MES and Bell’s MES as memory states for possible various queries and it has been shown that in each case the choices of Singh-Rajput MES as valid memory states are much more suitable than those of Bell’s MES. |
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