
New Error Mitigation Approach helps Quantum Computers Level Up
Noise estimation circuits, in conjunction with other error mitigation methods, produce reliable results for quantum computer-based materials simulations
Noise estimation circuits, in conjunction with other error mitigation methods, produce reliable results for quantum computer-based materials simulations
Researchers enable real-time adjustments to communication among three remote nodes in a quantum network.
Scientists use gate set tomography to discover and validate a silicon qubit breakthrough.
Physicists use the Summit supercomputer to better understand a family of superconductors.
A team using the nation’s fastest supercomputer to look at protein binding finds that some binding processes are simpler than expected.
Interactions of quantum “quasiparticles” demonstrate unusual fluid flow.
Multi-institutional team provides a foundation for unraveling the mysteries of magnetic materials.
Indirect encoding of neural network components creates a pathway to complex applications for neural networks.
3D Coded SUMMA replaces traditional fault tolerances methods with coded computation-based matrix multiplication
X-ray scattering measures the positions of atoms as they vibrate in a two-dimensional cover sheet.
Scientists reveal oxygen’s hidden talent for filling atomic gaps in 2D semiconductors and the surprising role of electron spin in electronic conductivity
Forming a staircase in the edge of the plasmas can boost the performance of a fusion reactor
Signup for the Office of Science’s GovDelivery email service, and check the box for the Advanced Scientific Computing Research Program in your subscriber preferences.
Subscribe