Opposite least squares mathematical streamlining, 3D/4D inside enhancement, and 3D/4D graphical improvement programming and calculation programming have been introduced in a progression of past articles on the utilizations of the BCS hypothesis of superconductivity and TC double/ multiobjective advancements. This review manages the correlation/approval of the advancement results utilizing a few distinct strategies, in particular, old style reverse least squares (ILS), hereditary calculations (GA), 3D/4D inside enhancement, and 2D/3D/4D graphical streamlining procedures. The outcomes involve Tikhonov regularization calculations and numerical techniques for all the examination subjects. The discoveries of the numerical programming for streamlining type I chrome isotope superconductors are approved with the hereditary calculations and contrasted with past consequences of 3D/4D inside advancement. Extra decisions present a speculation of the new 'sub-atomic impact' model/calculation expected to be demonstrated for Hg-cuprate-type high-temperature superconductors. In atomic impact streamlining, converse least squares and reverse least squares polynomial techniques are applied with OK mathematical and 2D graphical improvement arrangements. For the BCS isotope impact and atomic impact, linearization logarithmic changes for model equation programming are executed in unambiguous projects. The arrangements show precision with low programming residuals and affirm these discoveries. The outcomes involve two strands, the displaying for the isotope impact and sub-atomic impact speculations and the advancement of hereditary calculations and opposite least squares-further developed programming strategies. Electronic material science applications in superconductors and high-temperature superconductors rose up out of the decisions. Extrapolated applications for new displaying for the hypothesis of superconductivity arose out of the mathematical and picture information acquired.
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