Monday, December 23

Quantum Computing

Fujitsu Quantum Simulator Challenge: Winners Revealed in Global Competition
Quantum Computing

Fujitsu Quantum Simulator Challenge: Winners Revealed in Global Competition

Fujitsu Quantum Simulator Challenge Winners Announced Main ideas: Fujitsu concludes its global competition, the "Fujitsu $100,000 Quantum Simulator Challenge." The competition aimed at advancing research in quantum technologies using Fujitsu's 39 qubit quantum simulator. Four winning teams were revealed during the Fujitsu Quantum Day event held on January 25, 2024, in Delft, The Netherlands. There were 43 participating teams from startups and research institutions worldwide. Author's take: Fujitsu's global quantum simulator challenge concluded with the announcement of the four winning teams, further advancing research in quantum technologies. With over 40 participating teams and the use of a 39 qubit quantum simulator, this competition shows the growing interest and potential of quantum ...
Qrypt Awarded STTR Phase 1 Contract by AFWERX and Department of Air Force to Enhance National Defense Against Quantum Threats
Quantum Computing

Qrypt Awarded STTR Phase 1 Contract by AFWERX and Department of Air Force to Enhance National Defense Against Quantum Threats

Qrypt Awarded STTR Phase 1 Contract by AFWERX and Department of Air Force to Enhance National Defense Against Quantum Threats Main Ideas: Qrypt has been granted an STTR Phase 1 contract by AFWERX and the Department of Air Force (DAF) to strengthen national defense against quantum threats. Together with the University of Texas at San Antonio, Qrypt will focus on enhancing cybersecurity using its quantum-secure encryption solution. The collaboration aims to address weaknesses in traditional encryption methods and develop stronger protection against potential quantum attacks. Author's Take: Qrypt's partnership with the University of Texas at San Antonio through the STTR Phase 1 contract provides an opportunity to advance cybersecurity capabilities against quantum threats. By focusing on qua...
Fujitsu and Delft University of Technology Establish Fujitsu Advanced Computing Lab Delft for Quantum Computing
Quantum Computing

Fujitsu and Delft University of Technology Establish Fujitsu Advanced Computing Lab Delft for Quantum Computing

Fujitsu and Delft University of Technology Establish Fujitsu Advanced Computing Lab Delft for Quantum Computing Main Ideas: Fujitsu and Delft University of Technology have launched the Fujitsu Advanced Computing Lab Delft in collaboration with QuTech. The lab will focus on diamond-spin quantum computing and aim to develop scalable quantum computing solutions. It will also explore the use of quantum applications in computational fluid dynamics. Vivek Mahajan, Fujitsu's SEVP, CTO, and CPO, emphasizes the importance of partnerships in advancing quantum computing and highlights the lab's commitment to delivering real-world applications. Author's Take: The collaboration between Fujitsu and Delft University of Technology to establish the Fujitsu Advanced Computing Lab Delft highlights their c...
IonQ’s Forte Quantum Processor Performance Upgraded to #AQ35
Quantum Computing

IonQ’s Forte Quantum Processor Performance Upgraded to #AQ35

IonQ Increases their Quantum Processor Performance from #AQ29 to #AQ35 Key Points: IonQ has improved the performance of their Forte quantum processor from #AQ29 to #AQ35. The #AQ performance metric is based on a quantum performance benchmark developed by QED-C. The improvement in performance can be seen in the picture of the Forte processor. Author's Take: IonQ's latest update to their Forte quantum processor, increasing its performance from #AQ29 to #AQ35, is an exciting development in the world of quantum computing. This improvement showcases IonQ's commitment to advancing quantum technology and highlights the progress being made in this field. With each upgrade, quantum processors are becoming more powerful, paving the way for future breakthroughs and applications. Click here for the ...
Phasecraft’s Quantum Materials Modeling Algorithm and Complexity Database Revolutionize Quantum Computing
Quantum Computing

Phasecraft’s Quantum Materials Modeling Algorithm and Complexity Database Revolutionize Quantum Computing

Phasecraft Develops a More Efficient Quantum Materials Modeling Algorithm and Publishes a Materials Modeling Quantum Complexity Database Main ideas/summary: Phasecraft, a UK-based quantum computing startup, has developed an improved algorithm for quantum materials modeling. The algorithm aims to make quantum materials modeling more efficient by reducing the required number of qubits. Phasecraft has also published a Materials Modeling Quantum Complexity Database, which highlights the complexity of various materials modeling problems and provides insights into the number of qubits needed. The database includes examples from different domains, such as physics and chemistry. This development is significant as it paves the way for near-term commercial applications of quantum computing in mater...
PsiQuantum, MUFG, and Mitsubishi Chemical Collaborate for Quantum Alliance in Energy-Efficient Material Design
Quantum Computing

PsiQuantum, MUFG, and Mitsubishi Chemical Collaborate for Quantum Alliance in Energy-Efficient Material Design

PsiQuantum, MUFG, and Mitsubishi Chemical Form Quantum Alliance for Energy-Efficient Material Design Main Ideas: PsiQuantum has partnered with Mitsubishi UFJ Financial Group (MUFG) and Mitsubishi Chemical for the Qlimate initiative. The collaboration aims to use PsiQuantum's quantum computing capabilities to model and analyze excited states of photochromic molecules. Photochromic molecules have potential applications in smart windows, energy-efficient data storage, and solar energy. Author's Take: This collaboration between PsiQuantum, MUFG, and Mitsubishi Chemical showcases the potential of quantum computing in material design for energy-efficient applications. By leveraging PsiQuantum's fault-tolerant quantum computing capabilities, the joint project aims to explore the possibilities o...
University of New Mexico and Sandia National Laboratories Launch Quantum New Mexico Institute to Establish State as National Quantum Hub
Quantum Computing

University of New Mexico and Sandia National Laboratories Launch Quantum New Mexico Institute to Establish State as National Quantum Hub

University of New Mexico and Sandia National Laboratories Launch Quantum New Mexico Institute to Help Establish the State as a National Quantum Hub Main Ideas: The University of New Mexico (UNM) and Sandia National Laboratories are partnering to create the Quantum New Mexico Institute (QNM-I). The goal of the QNM-I is to position New Mexico as a leading hub for quantum information science (QIS) research. The institute will promote interdisciplinary collaboration across departments such as Chemistry, Computer Science, Electrical Engineering, Mathematics, and Physics. UNM has already produced more than 40 QIS leaders and aims to further foster quantum research in the state. Author's Take: The University of New Mexico's collaboration with Sandia National Laboratories to establish the Quantu...
Rescale and IonQ Forge Strategic Partnership for Hybrid Quantum Computing Advancements
Quantum Computing

Rescale and IonQ Forge Strategic Partnership for Hybrid Quantum Computing Advancements

Rescale and IonQ Forge Strategic Partnership for Hybrid Quantum Computing Advancements Main Ideas: Rescale, a cloud-based high-performance computing (HPC) leader, partners with IonQ, a quantum computing expert. The collaboration aims to integrate accelerated cloud computing with quantum technology. The partnership focuses on addressing complex challenges in various sectors including product development, healthcare, finance, and more. Rescale's cloud platform, which hosts over 1,000 R&D applications, complements IonQ's advanced quantum computers like the 29-qubit IonQ Forte. Author's Take: The partnership between Rescale and IonQ brings together the power of cloud computing and quantum technology to tackle intricate challenges across industries. With Rescale's robust cloud platform and Io...
D-Wave and Deloitte Forge Alliance to Propel Quantum Adoption in Canada
Quantum Computing

D-Wave and Deloitte Forge Alliance to Propel Quantum Adoption in Canada

D-Wave and Deloitte Forge Alliance to Propel Quantum Adoption in Canada Main Ideas: D-Wave Quantum Inc. and Deloitte Canada have partnered to promote the use of quantum computing solutions in the Canadian public sector and businesses. The partnership aims to leverage D-Wave's expertise in quantum computing and Deloitte's experience in public sector services to address complex challenges faced by the Canadian government. The collaboration will involve joint go-to-market efforts to drive the adoption of quantum solutions and accelerate innovation in various industries. The alliance hopes to foster the growth of quantum technology as a strategic advantage for Canadian businesses while advancing the country's position in the global quantum landscape. Author's Take: The partnership between D-...
Developing High Efficiency Error Correction Codes Using Cat Qubits and LDPC: Advancing Fault-Tolerant Quantum Computing
Quantum Computing

Developing High Efficiency Error Correction Codes Using Cat Qubits and LDPC: Advancing Fault-Tolerant Quantum Computing

Developing High Efficiency Error Correction Codes Using Cat Qubits and LDPC By: Quantum Computing Report - Alice & Bob, a company specializing in quantum computing, has collaborated with Inria, a French research institute, to develop high efficiency error correction codes for fault-tolerant quantum computers. - The focus of the collaboration is on improving the Physical-to-Logical (P-to-L) ratio, which measures the number of physical qubits required to implement a logical qubit. - By utilizing a combination of cat qubits and low-density parity check (LDPC) codes, the researchers aim to reduce the P-to-L ratio and enhance the fault tolerance of quantum computers. - LDPC codes are known for their ability to correct errors in data transmission, making them a promising option for quantum erro...