Apply today for free access to cutting-edge IBM quantum capabilities| IBM Research
IBM® researchers have devised the fastest, most accurate decoding algorithm for quantum LDPC code error correction.| IBM Research
We predict the quantum community will uncover quantum advantage by the end of 2026, but how will we know when it's arrived?| IBM Research
IBM® and Moderna achieve one of the largest and most advanced variational executions ever realized on quantum hardware.| IBM Research
New study confirms algorithmic speedup for an oracle-based mathematical problem, showing the potential for algorithm development to enable quantum advantage.| IBM Research
Qiskit Function templates are realistic code examples that speed up development via modular pipelines for building high-quality, reusable quantum workflows.| IBM Research
The Fast Fourier Transform forever changed the landscape of modern computing. What lessons can it teach us when it comes to quantum algorithm development?| IBM Research
IBM has developed a detailed framework for achieving large-scale fault-tolerant quantum computing by 2029, and we’re updating our roadmap to match.| IBM Research
Two new additions to the Qiskit Functions Catalog are the latest of many application functions that integrate quantum computing into application workflows.| IBM Research
Understanding the basics of quantum error correction and fault tolerance.| IBM Research
Researchers conduct chemistry simulations with sample-based quantum diagonalization (SQD), a prime candidate for near-term demonstrations of quantum advantage.| IBM Research
The Quantum Optimization Working Group presents ten problem classes — an “intractable decathlon” — to enable the search for quantum advantage in optimization.| IBM Research
How Quantum Innovation Centers like Keio University in Tokyo are helping large enterprise research organizations explore utility-scale quantum computing.| IBM Research
A collaborative paper published in _Nature Physics_ highlights the value of measurement-based protocols in quantum computing research.| IBM Research
An efficient strategy for connecting distant qubits in quantum chips.| IBM Research
The US House Committee on Science, Space, and Technology has unanimously approved a bipartisan bill to reauthorize the National Quantum Initiative, aimed at enhancing quantum research. The bill, co-sponsored by Committee Chairman Frank Lucas and ranking member Zoe Lofgren, is intended to maintain US competitiveness against China and Russia in quantum systems. The bill also includes amendments to consider the use of AI and machine learning in quantum science and technology. The National Scienc...| Quantum Zeitgeist