La NSA y la CIA, ¿podrán revelar la frase que mi texto encriptado oculta? Cifrando / Descifrando mediante "ogDVfoCRVwdovk". No. Cierto, ¡no debo revelar nombres ni métodos!

Si la NSA o la CIA pueden descifrar mi código adjunto, al pie de este artículo, se ganan un viaje a:

"rozzx5oLPELoTyEmgL75EzCfwnwryS7QulkvyZoFSgoDOQLVdToVFo6oCP97otgULomoqotozecuC1sJoYZo".

La anterior captura de pantalla de mi programa, muestra un novedoso sistema de cifrado/descifrado que he estado desarrollando, basado en algo que nadie ha usado hasta ahora, creo yo (quizás me equivoque) y sin utilizar los métodos de encriptación de terceros. El método, cálculos y resultados, se obtienen exclusivamente de procesos pensados desde cero, por mi, y con base en 35 años de experiencia en programación (y respecto del anterior link, vea los videos demo, de mis Sistemas, de Gestión Empresarial, de Búsqueda Web de 3 etapas tal como Google, entre otros, accediendo a este link) y sin dejar de lado, las matemáticas avanzadas, métodos de probabilidades y estadísticas (estudiadas y aprobadas todas en la universidad), sin olvidar la física cuántica, de la que soy autodidacta desde niño, cuando comencé a programar, a los 13 años (millones de líneas de código en múltiples lenguajes, desde C de bajo nivel, C++, Java, RM-COBOL85, PHP, VB.NET en sus variadas versiones, sumado a ser un Full Stack Developer).

Por supuesto, este programa, como todo en este mundo, espera varias innovaciones de mi parte, las que ya tengo en mente.

Primero, puedes mirar un pequeño video, de este programa, en pleno proceso de cifrado/descifrado (si se ven demoras en los procesos, es debido al hecho de mostrar el texto codificado, en un control ListBox, y no así, al proceso interno):

Codigo:

"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"

Programa, idea, código fuente, métodos, procedimientos, variables, constantes, arreglos, átomos y bosones, Copyright 2014 - 2018 - by Nelson Ressio.