Welcome to AI Pulse, your go-to podcast for the latest in artificial intelligence.
Join us as we explore emerging AI trends, innovative tools, and future predictions shaping the tech landscape.
Each episode features expert insights, practical advice, and engaging conversations with industry leaders and AI pioneers. Whether you're a tech professional, enthusiast, or curious about AI's impact, AI Pulse delivers the knowledge you need to stay informed and inspired.
This podcast is 80% done by AI and 20% done by humans. But it doesn't mean that it has a high-quality standard in terms of the content shared on each episode.
Subscribe now and stay ahead of the curve in the dynamic world of AI.
Hosted on Acast. See acast.com/privacy for more information.
Welcome to AI Pulse, your go-to podcast for the latest in artificial intelligence.
Join us as we explore emerging AI trends, innovative tools, and future predictions shaping the tech landscape.
Each episode features expert insights, practical advice, and engaging conversations with industry leaders and AI pioneers. Whether you're a tech professional, enthusiast, or curious about AI's impact, AI Pulse delivers the knowledge you need to stay informed and inspired.
This podcast is 80% done by AI and 20% done by humans. But it doesn't mean that it has a high-quality standard in terms of the content shared on each episode.
Subscribe now and stay ahead of the curve in the dynamic world of AI.
Hosted on Acast. See acast.com/privacy for more information.
Microsoft announced the creation of Majorana 1, a quantum processor using topological qubits.
This processor aims to scale to one million qubits using a novel material called a topoconductor.
A related research paper details the creation and measurement of fermion parity in indium arsenide-aluminum heterostructures, using an interferometric technique with quantum dots coupled to a nanowire, achieving a single-shot measurement with a 1% error probability.
This parity measurement is a crucial element for measurement-based topological quantum computing.
The technology achieves reliable quantum computation through simplified quantum error correction using digital pulses.
These advancements mark significant progress in building a fault-tolerant quantum computer, with DARPA recognizing Microsoft's approach
Hosted on Acast. See acast.com/privacy for more information.