CPU‑Optimized Genomics: Lenovo GOAST v4.0

Researchers at the US-based Lawrence Berkeley National Lab (LBNL) recently reported a new approach to error mitigation in a quantum computer (QC) that targets error-producing noise, a ubiquitous problem that can severely limit the performance and utility of existing and near-future quantum computers. The method developed at LBNL consists of taking an initial noisy target circuit and constructing an analogous estimation circuit that is configured specifically for accurate noise characterization. The information gathered from running the estimation circuit is then applied to correct the noise in the original target circuit.

The Israel Innovation Authority and the Israel Ministry of Defense (IMOD) recently announced a $62 million USD collaborative effort to establish a domestic quantum computing (QC) infrastructure. The two-pronged approach calls for the Israel Innovation Authority, part of Israel's Ministry of Economy charged with fostering domestic industrial R&D, to focus on developing QC algorithms, applications, and a related software stack to support both on-premises or cloud QC access models. For its part, the IMOD will stand up a national center to develop a complete quantum computer including a quantum processor expected to consist of 30-40 qubits, quantum control capabilities, and I/O interfacing hardware.