This article will address the issue of IBM Q System One, an issue of great relevance today. IBM Q System One has captured the attention of experts and the general public, generating a wide debate in various areas. Over the years, IBM Q System One has been the subject of extensive research and has undergone significant changes, prompting increased interest in understanding its impact and scope. In this context, it is essential to analyze in detail the implications of IBM Q System One and its influence in different contexts. This article will seek to exhaustively explore the different facets of IBM Q System One, delving into its most relevant aspects and providing a comprehensive view of its importance in the current panorama.
Developer | IBM Research |
---|---|
Manufacturer | IBM |
Type | Quantum computer |
Release date | January 2019 |
Units shipped | 5 (4 in progress) |
Successor | IBM Quantum System Two |
Website | research |
IBM Quantum System One is the first circuit-based commercial quantum computer, introduced by IBM in January 2019.
This integrated quantum computing system is housed in an airtight borosilicate glass cube that maintains a controlled physical environment. Each face of the cube is 9 feet (2.7 m) wide and tall. A cylindrical protrusion from the center of the ceiling is a dilution refrigerator, containing a 20-qubit transmon quantum processor. It was tested for the first time in the summer of 2018, for two weeks, in Milan, Italy.
IBM Quantum System One was developed by IBM Research, with assistance from the Map Project Office and Universal Design Studio. CERN, ExxonMobil, Fermilab, Argonne National Laboratory and Lawrence Berkeley National Laboratory are among the clients signed up to access the system remotely.
From April 6 to May 31, 2019, the Boston Museum of Science hosted an exhibit featuring a replica of the IBM Quantum System One. On June 15, 2021, IBM deployed the first unit of Quantum System One in Germany at its headquarters in Ehningen.