In Physics, quantum noise refers to the noise of uncertainty arising from random fluctuations in a system. Tapping into these random fluctuations as a unique realm of possibilities and predictions, Refik Anadol’s Quantum Memories: Noise utilizes Google AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. These algorithms allow Refik Anadol to speculate alternative modalities inside the most sophisticated computer available, and create new quantum noise-generated datasets as building blocks of these modalities. The piece is both inspired by and a speculation of the Many-Worlds Interpretation in quantum physics – a theory that holds that there are many parallel worlds that exist at the same space and time as our own.
In Physics, quantum noise refers to the noise of uncertainty arising from random fluctuations in a system. Tapping into these random fluctuations as a unique realm of possibilities and predictions, Refik Anadol’s Quantum Memories: Noise utilizes Google AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. These algorithms allow Refik Anadol to speculate alternative modalities inside the most sophisticated computer available, and create new quantum noise-generated datasets as building blocks of these modalities. The piece is both inspired by and a speculation of the Many-Worlds Interpretation in quantum physics – a theory that holds that there are many parallel worlds that exist at the same space and time as our own.
Quantum Memories - Noise 2nd Edition of 5 + 2AP
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Quantum Memories - Noise 2nd Edition of 5 + 2AP
- PrecioPrecio en USDCantidadVencimientoDe
- PrecioPrecio en USDCantidadDiferencia de sueloVencimientoDe
In Physics, quantum noise refers to the noise of uncertainty arising from random fluctuations in a system. Tapping into these random fluctuations as a unique realm of possibilities and predictions, Refik Anadol’s Quantum Memories: Noise utilizes Google AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. These algorithms allow Refik Anadol to speculate alternative modalities inside the most sophisticated computer available, and create new quantum noise-generated datasets as building blocks of these modalities. The piece is both inspired by and a speculation of the Many-Worlds Interpretation in quantum physics – a theory that holds that there are many parallel worlds that exist at the same space and time as our own.
In Physics, quantum noise refers to the noise of uncertainty arising from random fluctuations in a system. Tapping into these random fluctuations as a unique realm of possibilities and predictions, Refik Anadol’s Quantum Memories: Noise utilizes Google AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. These algorithms allow Refik Anadol to speculate alternative modalities inside the most sophisticated computer available, and create new quantum noise-generated datasets as building blocks of these modalities. The piece is both inspired by and a speculation of the Many-Worlds Interpretation in quantum physics – a theory that holds that there are many parallel worlds that exist at the same space and time as our own.