正在加载视频...

视频加载失败

返回首页

Quantum computer outpaces traditional methods in solving complex puzzles using advanced quantum search algorithms.

hamptonism's profile picture

ₕₐₘₚₜₒₙ — e/acc

166,211 subscribers

172,382 次观看 • 1 年前 •via X (Twitter)

科学技术
LIVE

Anya Rossi• Live Now

Private livecam show

10 条评论

Stuart Ray 的头像
Stuart Ray1 年前

Ok this video isn’t very truthful though its just Breadth-First Search algo vs single path. Not really showing us anything “quantum”. BFS is linear time, don’t need quantum for that.

Joanna Accordi 的头像
Joanna Accordi1 年前

Just pour water....

ₕₐₘₚₜₒₙ — e/acc 的头像
ₕₐₘₚₜₒₙ — e/acc1 年前

😂right

Ingólfur Andreessen Ari 的头像
Ingólfur Andreessen Ari1 年前

Normal maze search is just the A* algorithm, searching randomly and checking every path is just pure nonsense

Ammar_Morad 的头像
Ammar_Morad1 年前

So BFS is now called Quantum Search?

Albert Renshaw • e/acc 的头像
Albert Renshaw • e/acc1 年前

Quantum Tunneling would be faster

LiteBlackEagle 的头像
LiteBlackEagle1 年前

funny video even though it is not quantum.

Olof S 的头像
Olof S1 年前

Quantum search does not work like that, it is much much weirder. There's no parallelization going on, you do O(sqrt(N)) guesses and have them interfere with each other so that the wrong answers cancel out and you are only left with the correct ones

Olive Oil 的头像
Olive Oil1 年前

From brute force to brutal force

growthesque 的头像
growthesque1 年前

Sounds like basic async event looping in JS tbh.

相关视频

Advanced Insights: Season 2 Rewind Quantum has reached quantum advantage. With hundreds of qubits, today’s systems already run algorithms supercomputers can’t. IBM VP of Quantum AI Adoption Scott Crowder breaks it down on Advanced Insights with Mark Papermaster:
1:04

Advanced Insights: Season 2 Rewind Quantum has reached quantum advantage. With hundreds of qubits, today’s systems already run algorithms supercomputers can’t. IBM VP of Quantum AI Adoption Scott Crowder breaks it down on Advanced Insights with Mark Papermaster:

AMD

11,256 次观看 • 5 个月前

“The agreement that we signed yesterday with Swiss Quantum Technology is all about placing a D-Wave quantum computer, and Advantage2 quantum computer, our latest generation system, here in this region,” D-Wave Quantum CEO Alan Baratz says.
8:20

“The agreement that we signed yesterday with Swiss Quantum Technology is all about placing a D-Wave quantum computer, and Advantage2 quantum computer, our latest generation system, here in this region,” D-Wave Quantum CEO Alan Baratz says.

Yahoo Finance

118,187 次观看 • 7 个月前

Tentang Computer Quantum
3:23

Tentang Computer Quantum

Angga Andinata

17,076 次观看 • 1 年前

Normal search vs Quantum search
1:08

Normal search vs Quantum search

S.T.E.M Explorer

1,392,308 次观看 • 2 个月前

Normal Search VS Quantum Search
1:05

Normal Search VS Quantum Search

Interesting As Fuck

68,331 次观看 • 9 个月前

Assembling a Quantum Computer:
0:32

Assembling a Quantum Computer:

ₕₐₘₚₜₒₙ

236,678 次观看 • 2 个月前

Normal vs Quantum computer
0:26

Normal vs Quantum computer

Learn Something

153,814 次观看 • 1 年前

DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:
0:20

DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:

DARPA

262,792 次观看 • 2 年前

What did Google’s Quantum Computer, Sycamore, do?
1:26

What did Google’s Quantum Computer, Sycamore, do?

What If..?

15,520 次观看 • 3 个月前

We just published a peer-reviewed milestone study in Nature, demonstrating a significant advancement in quantum computing systems using our commercial-grade annealing-based quantum computer with over 5,000 qubits. The study provides evident of quantum annealing's unrivaled performance. Check out our blog and video to learn more about this groundbreaking research! Read the blog here: #QuantumComputing #DWave #QuantumAnnealing #Quantum
0:56

We just published a peer-reviewed milestone study in Nature, demonstrating a significant advancement in quantum computing systems using our commercial-grade annealing-based quantum computer with over 5,000 qubits. The study provides evident of quantum annealing's unrivaled performance. Check out our blog and video to learn more about this groundbreaking research! Read the blog here: #QuantumComputing #DWave #QuantumAnnealing #Quantum

D-Wave

10,663 次观看 • 3 年前

Today we’re taking a quantum leap into the future. These Australian geniuses are building the world's first commercial-scale quantum computer in Brisbane.
0:41

Today we’re taking a quantum leap into the future. These Australian geniuses are building the world's first commercial-scale quantum computer in Brisbane.

Anthony Albanese

134,037 次观看 • 2 年前

The secret behind quantum search efficiency
1:08

The secret behind quantum search efficiency

Science girl

3,239,198 次观看 • 3 个月前

QUANTUM COMPUTING: THE FUTURE IS NOW IBM recently announced a quantum computer capable of solving problems in minutes that would take today's supercomputers millions of years. Developed by IBM, Google, and others, quantum computers push the boundaries of science and engineering, utilizing atomic forces to achieve unprecedented computational power. A simple maze shows how quantum computing can outpace classic computers. Michio Kaku: “All the big boys who are in this race to create a workable, operationally efficient quantum computer because the nation or company that does this will rule the world economy.” Source: 60 Minutes
1:16

QUANTUM COMPUTING: THE FUTURE IS NOW IBM recently announced a quantum computer capable of solving problems in minutes that would take today's supercomputers millions of years. Developed by IBM, Google, and others, quantum computers push the boundaries of science and engineering, utilizing atomic forces to achieve unprecedented computational power. A simple maze shows how quantum computing can outpace classic computers. Michio Kaku: “All the big boys who are in this race to create a workable, operationally efficient quantum computer because the nation or company that does this will rule the world economy.” Source: 60 Minutes

Mario Nawfal

327,790 次观看 • 1 年前

D-Wave announced a scientific breakthrough published in the esteemed journal Science Magazine, confirming that its annealing quantum computer outperformed one of the world’s most powerful classical supercomputers in solving a complex magnetic materials simulation problem with relevance to materials discovery. The new landmark peer-reviewed paper, “Beyond-Classical Computation in Quantum Simulation,” validates this achievement as the world’s first and only demonstration of quantum computational supremacy on a useful problem. An international collaboration of scientists led by D-Wave performed simulations of quantum dynamics in programmable spin glasses—a computationally hard magnetic materials simulation problem with known applications to business and science—on both D-Wave’s Advantage2™ prototype annealing quantum computer and the Frontier supercomputer at the Department of Energy’s Oak Ridge Lab. D-Wave’s quantum computer performed a complex simulation in minutes and with a level of accuracy that would take nearly a million years using the supercomputer. In addition, it would require more than the world’s annual electricity consumption to solve this problem using the supercomputer, which is built with graphics processing unit (GPU) clusters. For decades, scientists have aspired to build a quantum computer capable of solving complex materials simulation problems beyond the reach of classical computers. D-Wave's advancements in quantum hardware have made it possible for its annealing quantum computers to process these types of problems for the first time. Magnetic materials simulations, like those conducted in this work, use computer models to study how tiny particles not visible to the human eye react to external factors. Magnetic materials are widely used in medical imaging, electronics, superconductors, electrical networks, sensors, and motors. This is an incredibly important achievement. Please join us in congratulating the D-Wave team and our global collaborators on this remarkable milestone. It’s a significant moment for the quantum computing industry. Learn more about this monumental achievement: Read the press release here: #QuantumSupremacy #QuantumRealized #QuantumComputing #DWave #Technology #Innovation #Optimization #MaterialsDiscovery #ScientificBreakthrough $QBTS
3:26

D-Wave announced a scientific breakthrough published in the esteemed journal Science Magazine, confirming that its annealing quantum computer outperformed one of the world’s most powerful classical supercomputers in solving a complex magnetic materials simulation problem with relevance to materials discovery. The new landmark peer-reviewed paper, “Beyond-Classical Computation in Quantum Simulation,” validates this achievement as the world’s first and only demonstration of quantum computational supremacy on a useful problem. An international collaboration of scientists led by D-Wave performed simulations of quantum dynamics in programmable spin glasses—a computationally hard magnetic materials simulation problem with known applications to business and science—on both D-Wave’s Advantage2™ prototype annealing quantum computer and the Frontier supercomputer at the Department of Energy’s Oak Ridge Lab. D-Wave’s quantum computer performed a complex simulation in minutes and with a level of accuracy that would take nearly a million years using the supercomputer. In addition, it would require more than the world’s annual electricity consumption to solve this problem using the supercomputer, which is built with graphics processing unit (GPU) clusters. For decades, scientists have aspired to build a quantum computer capable of solving complex materials simulation problems beyond the reach of classical computers. D-Wave's advancements in quantum hardware have made it possible for its annealing quantum computers to process these types of problems for the first time. Magnetic materials simulations, like those conducted in this work, use computer models to study how tiny particles not visible to the human eye react to external factors. Magnetic materials are widely used in medical imaging, electronics, superconductors, electrical networks, sensors, and motors. This is an incredibly important achievement. Please join us in congratulating the D-Wave team and our global collaborators on this remarkable milestone. It’s a significant moment for the quantum computing industry. Learn more about this monumental achievement: Read the press release here: #QuantumSupremacy #QuantumRealized #QuantumComputing #DWave #Technology #Innovation #Optimization #MaterialsDiscovery #ScientificBreakthrough $QBTS

D-Wave

64,988 次观看 • 1 年前

Scott Aaronson on practical quantum speedups: "Billions of dollars are being invested in quantum computing in hopes to accelerate machine learning, optimization, finance, AI. As a quantum algorithms person, honesty compels me to report that the situation is much, much iffier."
0:45

Scott Aaronson on practical quantum speedups: "Billions of dollars are being invested in quantum computing in hopes to accelerate machine learning, optimization, finance, AI. As a quantum algorithms person, honesty compels me to report that the situation is much, much iffier."

Dulwich Quantum Computing

149,268 次观看 • 2 年前

Best quantum computing explanation I've seen. Shows exactly how quantum search is better than normal search. Explained for an 8-year-old. Source: agi_lambda
1:03

Best quantum computing explanation I've seen. Shows exactly how quantum search is better than normal search. Explained for an 8-year-old. Source: agi_lambda

Aadit Sheth

884,409 次观看 • 1 年前

Willow marks a significant step forward in quantum computing. Learn how Quantum AI is advancing towards a large-scale, error-corrected quantum computer—a tool that could one day address challenges previously thought beyond reach. Learn more →
0:29

Willow marks a significant step forward in quantum computing. Learn how Quantum AI is advancing towards a large-scale, error-corrected quantum computer—a tool that could one day address challenges previously thought beyond reach. Learn more →

Google Quantum AI

26,970 次观看 • 1 年前