NFT Name
Quantum Memories: Noise C
Collection
Status
valid
NFT Id
10417
Edition Name
Edition Number
External Link
Owner
Last Updated
15/12/2024, 23:17
Description
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 series uses Google Quantum AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. For this project RAS developed a custom procedural coherent noise implementation by utilizing beyond classical measurements for computing surflets. These data and algorithms allow 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.
Traits
editionID
90
format
Image (.jpg)
royaltyPercentage
2.0
nftType
Type C
artist
Refik Anadol
mimetype
image/jpg
royaltyAddress
0x8a5e1b5357d5dd84
decentralizedMediaFiles
https://ipfs.io/ipfs/QmfQFrQEQTZofy7qG8Ut884hYZhx1qfdrXf6k6eMR1FM8P
merchantID
25
decentralizedMediaFiles_1647788392913
https://ipfs.io/ipfs/QmfQFrQEQTZofy7qG8Ut884hYZhx1qfdrXf6k6eMR1FM8P
property
Courtesy the artist and KÖNIG GALERIE
mediaURL
https://dkuxa1i6sgo8h.cloudfront.net/koenig/misa/QM-Noise-C.jpg
medium
Generative AI Data Painting
year
2020
Levels
resolution
0/1
length
0/1
Collection Information
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 series uses Google Quantum AI’s most cutting-edge, publicly available quantum computation research data and algorithms to explore the possibility of a parallel world. For this project RAS developed a custom procedural coherent noise implementation by utilizing beyond classical measurements for computing surflets. These data and algorithms allow 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.