IBM’s Starling Quantum System Could Potentially Accelerate Timeline for Bitcoin Cryptography Challenges

The post IBM’s Starling Quantum System Could Potentially Accelerate Timeline for Bitcoin Cryptography Challenges appeared on BitcoinEthereumNews.com.

IBM’s groundbreaking Starling quantum computer project aims to accelerate the arrival of fault-tolerant quantum computing, potentially challenging Bitcoin’s cryptographic security sooner than expected. The Starling system will leverage advanced error correction techniques to execute 100 million quantum operations with 200 error-corrected qubits, marking a significant step toward scalable quantum computing. According to Rosa Di Felice, technical director at IBM Quantum Innovation Center, the new processor’s enhanced connectivity and error correction capabilities could revolutionize quantum computations across multiple industries. IBM’s Starling quantum computer targets fault tolerance by 2029, potentially impacting Bitcoin’s cryptography and accelerating quantum computing advancements. ‘, ‘ 🚀 Advanced Trading Tools Await You!Maximize your potential. Join now and start trading! ‘, ‘ 📈 Professional Trading PlatformLeverage advanced tools and a wide range of coins to boost your investments. Sign up now! ‘ ]; var adplace = document.getElementById(“ads-bitget”); if (adplace) { var sessperindex = parseInt(sessionStorage.getItem(“adsindexBitget”)); var adsindex = isNaN(sessperindex) ? Math.floor(Math.random() * adscodesBitget.length) : sessperindex; adplace.innerHTML = adscodesBitget[adsindex]; sessperindex = adsindex === adscodesBitget.length – 1 ? 0 : adsindex + 1; sessionStorage.setItem(“adsindexBitget”, sessperindex); } })(); IBM Starling: Pioneering Fault-Tolerant Quantum Computing to Challenge Bitcoin Security IBM’s ambitious Starling project is set to redefine the quantum computing landscape by introducing the world’s first fault-tolerant quantum computer. Scheduled for full deployment by 2029, Starling aims to overcome the critical challenge of quantum error correction—a hurdle that has long limited the practical application of quantum machines. Unlike current quantum computers, which suffer from high error rates and decoherence, Starling will utilize Bivariate Bicycle codes, a sophisticated quantum low-density parity-check (LDPC) code, to reduce the physical qubit overhead by up to 90%. This innovation is pivotal for executing complex algorithms capable of threatening Bitcoin’s cryptographic foundations, which rely heavily on classical computational hardness assumptions. Advanced Error Correction and Modular Architecture: The Backbone of Starling…