Can quantum computers assist in the decipherment of Minoan Linear A?” Keynote article on

(Click on the graphical link below to download this ground-breaking article on the application of potentially superintelligent quantum quantum computers to the decipherment, even partial, of the ancient Minoan Linear A syllabary):


This is a major new article on the application of quantum computers to the AI (artificial intelligence) involvement in the decipherment of the unknown ancient Minoan Linear A syllabary (ca. 2800 – 1500 BCE). This article advances the hypothesis that quantum computers such as the world’s very first fully functional quantum computer, D-Wave, of Vancouver, B.C., Canada, may very well be positioned to assist human beings in the decipherment, even partial, of the Minoan Linear A syllabary. This article goes to great lengths in explaining how quantum computers can expedite the decipherment of Minoan Linear A. It addresses the critical questions raised by Nick Bostrom, in his ground-breaking study, Superintelligence: Paths, Dangers, Strategies (Oxford University Press, 2014),


in which he advances the following hypothesis:

Nick Bostrom makes it clear that artificial superintelligence (AS) does not necessarily have to conform to or mimic human intelligence. For instance, he says:
1. We have already cautioned against anthropomorphizing the capabilities of a superintelligent AI. The warning should be extend to pertain to its motivations as well. (pg 105)
and again,
2. This possibility is most salient with respect to AI, which might be structured very differently than human intelligence. (pg. 172) ... passim ... It is conceivable that optimal efficiency would be attained by grouping aggregates that roughly match the cognitive architecture of a human mind. It might be the case, for example, that a mathematics module must be tailored to a language module, in order for the three to work together... passim ... There might be niches for complexes that are either less complex (such as individual modules), more complex (such as vast clusters of modules), or of  similar complexity to human minds but with radically different architectures. 

... among others respecting the probable advent of superintelligence within the next 20-40 years (2040-2060).

This is a revolutionary article you will definitely not want to miss reading, if you are in any substantial way fascinated by the application of supercomputers and preeminently, quantum computers, which excel at lightning speed pattern recognition, which they can do so across templates of patterns in the same domain, to the decipherment of Minoan Linear A, an advanced technological endeavour which satisfies these scientific criteria. In the case of pattern recognition across multiple languages, ancient and modern, in other words in cross-comparative multi-language analysis, the astonishing capacity of quantum computers to perform this operation in mere seconds is an exceptional windfall we simply cannot afford not to take full advantage of.  Surely quantum computers’ mind-boggling lightning speed capacity to perform such cross-comparative multi-linguistic analysis is a boon beyond our wildest expectations.