#Ibm Quantum Computer

Así es una computadora cuántica (Quantum Computing) presentada por IBM en el #ces2020

Quantum computers 👾🔥 It is a multidisciplinary field comprising aspects of computer science, physics, and mathematics that utilizes quantum mechanics to solve complex problems faster than on classical computers. The field of quantum computing includes hardware research and application development. Quantum computers are able to solve certain types of problems faster than classical computers by taking advantage of quantum mechanical effects, such as superposition and quantum interference. Some applications where quantum computers can provide such a speed boost include machine learning (ML), optimization, and simulation of physical systems. Eventual use cases could be portfolio optimization in finance or the simulation of chemical systems, solving problems that are currently impossible for even the most powerful supercomputers on the market. What is the quantum computing advantage? Currently, no quantum computer can perform a useful task faster, cheaper, or more efficiently than a classical computer. Quantum advantage is the threshold where we have built a quantum system that can perform operations that the best possible classical computer cannot simulate in any kind of reasonable time. Quantum computing is a rapidly-emerging technology that harnesses the laws of quantum mechanics to solve problems too complex for classical computers. Today, IBM Quantum makes real quantum hardware — a tool scientists only began to imagine three decades ago — available to hundreds of thousands of developers. 📌Do follow Me for more Informations and edits 📌 Don't repost our video with our permission those Audio and video are under copyright projected material 📌 Disclaimer under fair Use of educational purposes #quantumcomputing #quantumphysics #quantum #physics #quantumentanglement #computer #supercomputer #ai #artificialintelligence #technology #pc #future #robotics #scifi #science #instagram #reels

IBM recently hit a HUGE milestone with their quantum computer. they showed a way to deal with quantum noise - tiny random fluctuations in energy that exist everywhere in nature and result in errors during quantum calculations. here’s how and why it matters for the future of quantum computing... If you like this video, you might love our longer Huge If True episode explaining computing with @mkbhd (it got nominated for a Streamy!) and if you’d like to support optimistic tech stories, follow for more :) #stem #tech #quantum

Microsoft just made a massive breakthrough that will change technology forever. It’s called the Majorana 1, a quantum chip that’s the first of its kind in quantum computing. And what this thing can do is absolutely insane. Imagine a world where you could invent concrete that could heal itself. Or you could design a phone battery that could be charged one time, and then never run out of juice. That sounds like science fiction, but it’s not. This chip is gonna make it possible with quantum computing. Here’s how quantum computing works (ELI5). Imagine the process to invent the material for an infinite battery was actually a giant maze. If you solve the maze, you invent the formula for a new battery technology. A normal computer would have to try every single pathway in the maze, one at a time. And it could take centuries to find the right path all the way through. But a quantum computer works differently, because it can try every single path in the maze at the same time. This is essentially the difference between a bit and a qubit (the quantum bits that power quantum computers) Now this new Majorana chip has an architecture that can sustain up to 1 million qubits at the same time. That’s 1 million different pathways through the maze, every moment, until it’s solved. And what this means, is pretty incredible. When a scientist goes into a lab to create a material or a design new drug, they won’t need to run experiments. Because this chip will just give them the right answer the very first time. And It’s hard to wrap your head around what this means, but essentially, it’s new medicines, new iPhone screens that can never crack, new metals for planes that fly at supersonic speeds. Everything will change because of quantum computers. And we just entered the Quantum Era. Follow @kallaway and @kallawaytech for more videos like this! #ai #artificialintelligence #tech #technology #microsoft #quantum #computer #google #techtrends

IBM’s new quantum computers are so powerful that they need to be stored in giant freezers. #IBM #Computers #Tech

⚛️ What makes a quantum computer so different from a classical one? @MIT Professor Will Oliver breaks it down in under a minute in this bite-sized explainer. 🎥 Watch now and tap the link in our bio for more short educational videos. #QuantumComputing #STEM #LifelongLearning #Innovation #STEMeducation #ScienceShorts #FutureOfTech

How to Access IBM’s Quantum Computer for Free (Step‑by‑Step) : Most people have no idea you can run code on a real quantum computer for free. IBM now lets you access real quantum processors from a normal laptop, just through the browser. Here’s exactly how to start (step by step): 1️⃣ Go to quantum.ibm.com and sign up with your email. Choose the free “open” tier, which gives you access to small real quantum chips plus powerful simulators each month. 2️⃣ After logging in, open the IBM Quantum Platform dashboard. Here you can see available backends: real quantum devices (with qubits, queue length, error rates) and simulators for testing your circuits safely. 3️⃣ Click on “Experiments” / “Circuits” to start building. You can drag‑and‑drop quantum gates visually or switch to code mode and write quantum programs using Qiskit-style syntax in Python. 4️⃣ If you like coding, connect with Qiskit in Python. Install Qiskit in your local environment or a cloud notebook, then create an API token from your IBM Quantum account and paste it into your script to run jobs directly on IBM backends. 5️⃣ Learn the basics with built‑in tutorials. Start with concepts like single‑qubit gates, superposition, measurement, and entanglement, then try standard demos such as Bell states or simple quantum algorithms. 6️⃣ Run on a simulator first, then move to real hardware. Simulators let you debug your circuit, and once it works, you can switch the backend to a real quantum chip and compare ideal vs noisy results. 7️⃣ Track each job’s results in the dashboard. You can see histograms of measurement outcomes, device error metrics, queue position, and past runs, which is perfect for learning how real hardware behaves. You don’t need a physics degree to begin—just basic programming and curiosity. Save this, share it with a friend who loves deep tech, and start your first quantum experiment tonight. #QuantumComputing #QuantumComputers #QuantumPhysics #QuantumMechanics #Quantum #IBMQuantum #Science #Technology #Tech #Physics #FutureTech #Innovation #Qubits #Superposition #Entanglement #AI #TechNews #QuantumRevolution #DataScience #BigData #NASA #Astronomy #Math #Chemistry #CloudComputing

Quantum computing is no longer science fiction — it’s becoming real infrastructure. IBM’s quantum computers are opening new possibilities in research, healthcare, cryptography, and optimization. The next era of computing won’t just be faster — it will be fundamentally different. #QuantumComputing #IBM #DeepTech #innovation

Scientists Reverse Time by 1 Second Using a Quantum Computer 🔬⏳ Scientists have reversed time by one second inside a quantum computer. It sounds like science fiction, but it's a real breakthrough. In this video, we break down the incredible experiment where physicists used an IBM quantum processor to "rewind" the state of a particle, effectively rolling time backward. We'll explain how this is possible by exploiting the bizarre rules of quantum mechanics, even though it defies the everyday laws of physics we experience. What does this mean for the future? This isn't about building a time machine, but it opens doors to revolutionary new technologies: 🔬 Quantum Error Correction: Restoring lost information to make quantum computers more stable and powerful. ⏳ The Arrow of Time: Challenging our fundamental understanding of time itself. ⚛️ Future Tech: Paving the way for advancements we can only begin to imagine. We’ll explore how they did it, why you can't use this to go back in time, and what it truly means for the future of science and technology. #quantumcomputer #timetravel #science #physics #ibm #quantummechanics #breakthrough

How do you think it will change the future? #quantum #ibm #quantumphysics #computer #fyp #fypシ

IBM plays with all the cool toys Pre-order my book “The Iron Dreamers” coming out June 17! If you order now and email the receipt to [email protected] you’ll get a free bonus chapter Sources: 1. “IBM aims to build the world’s first large-scale, error-corrected quantum computer by 2028,” – MIT Technology Review 2. “Tour de gross: A modular quantum computer based on bivariate bicycle codes” - arXiv 3. “How IBM will build the world’s first large-scale, fault-tolerant quantum computer” – IBM #math #mathematics #maths #science #physics #girlsinstem #womeninstem #astronomy #didyouknow #showerthoughts #wow #okay #foryou #discover #explore #stem #space #how #technology #futuretech #ibm #quantum

Computing as we know it uses 1’s and 0’s to complete functions. Quantum computation, however, takes on richer states that go far beyond just a simple 1 or 0. In our latest discovery, our Quantum AI researchers hit a breakthrough that significantly shifts how we understand and operate quantum computing. Just ask Yu Chen, Lead Scientist in Quantum Metrology, who breaks down the bits and bobs of an enhanced quantum computer. At the link in bio, learn more about our recent milestone.