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ASPSERVEUR launches the Quantum Cloud®
April 2013 by Emmanuelle Lamandé
ASPSERVEUR came up with a technical solution allowing Cloud Computing services to reach a 100% availability, and to avoid failures and data loss.
The term « Quantum Cloud® » was made up by ASPSERVEUR to refer to a Cloud Computing service whose data coexists in real time in multiple Datacenters.
It makes a reference to the quantum physics, and more specifically to « intricate particles ».
Born after 4 years of researches, which were granted the « Research Tax Credit », the Quantum Cloud® considers two intricate Datacenters as a unique system ; this new technology allows to merge/add the Datacenters’ availabilities (an average of 99.982% per year) to get a real 100% availability.
This is not all Quantum Cloud®‘s benefits: since the data coexists in real time in multiple DataCenters, it makes it possible to offer a perfect resiliency (company data loss is made impossible).
With Quantum Cloud®, the production and backup environments are considered as a single unique entity; therefore, there isn’t any failover time/delay when a failure occurs.
Conclusive tests were conducted using the services of IP-LABEL, an independent monitoring organization, and others are currently taking place with CEDEXIS, a company specialized in Cloud performance measurement. ASPSERVEUR intends to prove that its solution overtakes the availability and resiliency level of big international players such as Amazon Web Services or Rackspace.
PS : Quantum entanglement is a phenomenon observed in quantum mechanics in which the state of 2 objects is described globally, without distinguishing one object from the other: each member of the pair is properly described by the same quantum mechanical description, even though the entangled pair may have been separated by arbitrarily large distances. There is a correlation between the results of measurements performed on entangled pairs, and it is observed even when the two particles have been separated by large distances. This correlation would not be present if we could assign individual attributes to each of these two objects S1 and S2. Therefore, even if they’re far away, the two systems aren’t independent, and one must consider S1+S2 as one unique system.
