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Physical Sciences and Mathematics Commons™
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Full-Text Articles in Physical Sciences and Mathematics
Quantum Computing Vs. Conventional Computing: Near-Term Solution Is Smart Distributed Systems, Seyed M.H. Mansourbeigi, Stephen W. Clyde
Quantum Computing Vs. Conventional Computing: Near-Term Solution Is Smart Distributed Systems, Seyed M.H. Mansourbeigi, Stephen W. Clyde
Computer Science Student Research
Are we getting to the end of Moore's law????? Moore's law which is held for 50 years tells computer power doubling every 18 months may begin to expire in the next 10 or so years. Imagine you buy a computer having the same power as the last year and the year before last year. Would you buy a new computer? Or upgrade? The present computer model is CPU with I/O's and combination of logical gates, and software which controls these I/O's based on finite automata and Turing machine. Basically the above hard-ware software model manipulates the 0 and 1 bits.
Cofibrations In The Category Of Noncommutative Cw Complexes, Vida Milani, Ali Asghar Rezaei, Seyed M.H. Mansourbeigi
Cofibrations In The Category Of Noncommutative Cw Complexes, Vida Milani, Ali Asghar Rezaei, Seyed M.H. Mansourbeigi
Computer Science Student Research
Cofibration in the category of noncommutative CW complexes is defined. The C*-algebraic counterparts of topological mapping Cylinder and mapping cone are presented as examples of noncommutative CW complex cofibres. As a generalization, the concepts of noncommutative mapping cylindrical and conical telescope are introduced to provide more examples of NCCW complex cofibres. Their properties and K-theoretic behavior are also studied in detail. We will see that they carry the properties similar to the topological properties of their CW complex counterparts.