Architecture All Access Quantum Computing Intel Technology


Architecture All Access Quantum Computing Intel Technology

Architecture All Access Quantum Computing Intel Technology

Quantum Computing has the potential to change our lives and far exceed the capabilities of today’s supercomputers. Join James Clarke, Director of Quantum Computing at Intel Labs, as he runs through the basics of quantum mechanics, what components make up a quantum computer, when we’ll achieve quantum practicality, and more.

During his 20 years at Intel James Clarke has been a process engineer, led advanced interconnect research, and launched Intel’s Quantum Computing efforts with a focus on leveraging our in-house transistor process and manufacturing capabilities to create scalable qubit arrays. He’s co-authored over 50 papers and holds multiple patents.

Architecture All Access is a master class technology series featuring Senior Intel Technical Leaders taking an educational approach to the historical impact and future innovations of key architectures that will continue to be at the center of ‘world-changing technology that enriches the lives of every person on earth.’ If you are interested in CPUs, FPGAs, Quantum Computing and beyond, subscribe and hit the bell to get new episode notifications.

0:00 How Can Quantum Computers Change Our Lives?
0:31 James Clarke: Chemist at Heart
0:46 Topics In This Video
1:30 What is Quantum Superposition?
2:16 What is Quantum Entanglement?
3:07 Qubits Are Incredibly Fragile
3:33 Quantum’s Potential
4:17 Protein Folding in Cancer Research
5:15 Three Ways to Make a Qubit
6:15 Why Transistors Matter for Qubits
8:32 Spin Qubits
9:58 Controlling a Qubit
10:24 Dilution Refrigerators Get Colder Than Space
11:11 How a Qubit is Like a Sports Car
11:45 Cryogenic Chips
12:04 Future of Quantum
12:43 Recap and Challenges

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