Webb Wright@Quanta Magazine
//
Researchers are making significant strides in reducing the costs associated with quantum randomness, a crucial element for cryptography and simulations. Traditionally, obtaining true quantum randomness has been complex and expensive. However, the exploration of "pseudorandomness" offers a practical alternative, allowing researchers to utilize computational algorithms that mimic randomness, thus sidestepping the high costs of pure quantum randomness. This development broadens the accessibility of randomness, enabling researchers to pursue new scientific investigations.
The team from JPMorganChase, Quantinuum, multiple national labs, and UT Austin demonstrated a certified quantum randomness protocol. They showcased the first successful demonstration of a quantum computing method to generate certified randomness. Using a 56-qubit quantum machine, they output more randomness than they initially put in. What makes this truly remarkable is that this feat is considered impossible for even the most powerful classical supercomputers. This groundbreaking achievement could open new doors for quantum computing and cryptography research.
References :
- The Quantum Insider: Joint Research Team Achieves Certified Quantum Randomness, Turns Once Theoretical Experiments Into First Commercial Applications For Quantum Computing
- Quanta Magazine: The High Cost of Quantum Randomness Is Dropping
- hetarahulpatel.medium.com: Random Numbers Just Got Real, Thanks to Quantum Magic!
Classification:
|
- My Reflection on Locally Running LLMs - Nishanth Tharakan
- Investigate that Tech: LinkedIn - Nishanth Tharakan
- How Do Models Think, and Why Is There Chinese In My English Responses? - Nishanth Tharakan
- CERN - Nishanth Tharakan
- The Intersection of Mathematics, Physics, Psychology, and Music - Nishanth Tharakan
- Python: The Language That Won AI (And How Hype Helped) - Nishanth Tharakan
- Beginner’s Guide to Oscillations - Nishanth Tharakan
- Russian-American Race - tanyakh
- The Evolution of Feminized Digital Assistants: From Telephone Operators to AI - Nishanth Tharakan
- Epidemiology Part 2: My Journey Through Simulating a Pandemic - Nishanth Tharakan
- The Mathematics Behind Epidemiology: Why do Masks, Social Distancing, and Vaccines Work? - Nishanth Tharakan
- The Game of SET for Groups (Part 2), jointly with Andrey Khesin - tanyakh
- Pi: The Number That Has Made Its Way Into Everything - Nishanth Tharakan
- Beginner’s Guide to Sets - Nishanth Tharakan
- How Changing Our Perspective on Math Expanded Its Possibilities - Nishanth Tharakan
- Beginner’s Guide to Differential Equations: An Overview of UCLA’s MATH33B Class - Nishanth Tharakan
- Beginner’s Guide to Mathematical Induction - Nishanth Tharakan
- Foams and the Four-Color Theorem - tanyakh
- Beginner’s Guide to Game Theory - Nishanth Tharakan
- Forever and Ever: Infinite Chess And How to Visually Represent Infinity - Nishanth Tharakan
- Math Values for the New Year - Annie Petitt
- Happy 2025! - tanyakh
- Identical Twins - tanyakh
- A Puzzle from the Möbius Tournament - tanyakh
- A Baker, a Decorator, and a Wedding Planner Walk into a Classroom - Annie Petitt
- Beliefs and Belongings in Mathematics - David Bressoud
- Red, Yellow, and Green Hats - tanyakh
- Square out of a Plus - tanyakh
- The Game of SET for Groups (Part 1), jointly with Andrey Khesin - tanyakh
- Alexander Karabegov’s Puzzle - tanyakh
|
NishMath - #randomness
