23 mars 2021 | International, Aérospatial, Naval, Terrestre, C4ISR, Sécurité
As a result of the relatively limited economic impact of the COVID-19 pandemic in Asia-Pacific (APAC) compared to other regions around the world, Aviation Week analysts expect that defence budgets throughout the region will continue to expand at robust rates over the next five years, following a brief slowdown.
https://aviationweek.com/defense-space/apac-defense-budgets-least-affected-covid-19
5 avril 2023 | International, Aérospatial
The aircraft support contract is valued at approximately ?147M and will ensure and enhance the UK F-35 fleet?s availability and capability to conduct combat missions worldwide
9 septembre 2020 | International, C4ISR, Sécurité
Andrew Eversden WASHINGTON — The U.S. Defense Information Systems Agency released its draft request for proposals Sept. 4 for a single-award contract potentially worth $11.7 billion to consolidate the networks at 22 Pentagon agencies. The 10-year, indefinite delivery, indefinitely quantity contract from DISA, called Defense Enclave Services, will transition many so-called fourth estate agencies to common IT systems under a single vendor. Fourth estate agencies are Defense Department entities that do not sit squarely under the military departments, such as the Missile Defense Agency or the Defense Logistics Agency. DISA's effort is meant to reduce redundant IT costs, improve cybersecurity and standardize IT support services among the fourth estate agencies. “DISA desires to partner with industry to provide commercial Information Technology (IT) services, decrease redundant IT costs, enhance cybersecurity posture, and standardize IT services across disparate networks,” the draft RFP stated. “Defense Enclave Services will unify the 4th Estate's Common Use IT systems, personnel, functions, and program elements associated with the support of those systems and technologies under a Single Service Provider (SSP) architecture managed, operated, and supported by DISA.” Under the draft RFP, the single provider will provide “all required transition, infrastructure, network operations and management engineering and innovation, cybersecurity, and technical refresh support services" under nine performance areas. Migration to a consolidated network will take place in two phases. Agencies involved in the first phase will complete “integration and sustainment” by fiscal 2025, and those involved in the second phase will complete migration by fiscal 2026. The network will include the Non-classified Internet Protocol Router Network and the Secret Internet Protocol Router Network. DISA estimates the performance period will be from Dec. 7, 2021, to Dec. 6, 2031, with a four-year base period and three two-year options. According to a pre-solicitation industry day script from August, five agencies will be part of the first task order: Defense Media Activity, Defense Technical Information Center, Defense Information Systems Agency, Defense POW/MIA Accounting Agency and Defense Microelectronics Activity. Those five components include 20,000 users, 81 global sites and 40,000 end points, the presentation stated. DISA has been under pressure from lawmakers and top Pentagon officials in recent years to find ways to save money. Last year, DISA officials told reporters that the agency's Fourth Estate Network Optimization initiative would provide cost savings to the agency. The initiative was directed by the deputy secretary of defense in August last year. Phase one agencies include: Defense Information Systems Agency (DISA-HQ) Defense Technical Information Center (DTIC) Defense Prisoner of War/Missing in Action Accounting Agency (DPAA) Defense Microelectronics Activity (DMEA) Defense Media Activity (DMA) Defense Information Systems Agency (DISA-Field Sites) Defense Contract Management Agency (DCMA) Defense Contract Audit Agency (DCAA) Defense Human Resources Agency/Defense Manpower Data Center (DHRA/DMDC) Defense Finance and Accounting Service (DFAS) Defense Threat Reduction Agency (DTRA) Defense Logistics Agency (DLA) Defense Advanced Research Projects Agency (DARPA) Missile Defense Agency (MDA) Phase two agencies include: Defense Health Agency (DHA) Defense Legal Services Agency (DLSA) Defense Security Cooperation Agency (DSCA) Defense Technology Security Agency (DTSA) Joint Chiefs of Staff (JCS) Office of Secretary of Defense (OSD) Personnel Force Protection Agency (PFPA) Washington Headquarters Services (WHS) Joint Service Provider (JSP) According to the posting on beta.sam.gov, the final RFP will be released the last week of September. https://www.c4isrnet.com/it-networks/2020/09/08/disa-releases-draft-solicitation-for-117-billion-it-contract/
19 août 2020 | International, C4ISR
Andrew Eversden Correction: An earlier version of this story misspelled the name of Sara Gamble, a program manager in quantum information science at the Army Research Office. WASHINGTON — A research project funded by the U.S. Army has developed a new approach to manufacturing quantum computer chips, representing a significant step forward toward making quantum processors at the scale needed to deliver rapid processing capabilities to the battlefield. The new approach could impact how the service builds quantum networks and distributed sensing capabilities. Quantum processors use a qubit to store information. The researchers were looking to increase the amount of qubits placed onto a photonic chip. Prior to the experiment, researchers were only able to get two or three qubits into one photonic chip, said Sara Gamble, a program manager in quantum information science at the Army Research Office, an element of the Army Research Laboratory at Combat Capabilities Development Command. “Currently we can exert control and successfully manipulate handfuls of qubits, like very countable numbers of them. But when it comes to the millions or billions of qubits that we need for applications of actual interest, how to get to those millions or billions of qubits is a major research challenge,” Gamble said in an interview with C4ISRNET. In this study, researchers succeeded in integrating 128 qubits onto a photonic chip by making small quantum “chiplets” and placing them onto a larger circuit. The chiplets were able to carry quantum information through artificial atoms created by scientists by exploiting defects in diamonds. The increase to 128 is a large jump, but well short of the thousands, millions or billions of qubits needed to successfully complete the applications the service sees as useful in the future. For example, qubits could be used for distributed sensing through networks of quantum systems on the battlefield to allow for greater situational awareness, though Gamble noted that quantum information science research is still in the early stage. “We know that a lot of these qubit types are also excellent sensors. So for things like electric and magnetic fields, these quantum sensors can sense those fields ... with a higher sensitivity than you can get out of classical sensor,” Gamble said. “And then if you network those quantum sensor systems together, that increase you can get in your signal goes up even more. “So we need those isolated qubit sensors. But then we also need a way for those qubit sensors to talk to each other over a quantum network.” Being able to process data at quantum speeds would benefit the military as it seeks to make decisions based on large sets of data coming in from the battlefield in near-real time, and as it moves toward multidomain operations. “It's a fundamentally different way to gather, process and share information,” Gamble said. The research was completed by scientists at the Massachusetts Institute of Technology and Sandia National Laboratories. The new technology still needs to undergo tests to ensure the qubits in the chip can be controlled in a way that would help the Army. Gamble said the research team is also considering how to automate parts of the production process. “Thinking about how we can automate these processes to make them even more repeatable is going to be exciting,” Gamble said, “and something that's going to be necessary if you really want to do this for, you know, millions to billions of qubits instead of 128.” https://www.c4isrnet.com/battlefield-tech/it-networks/2020/08/17/us-army-funded-research-project-makes-inroads-on-scaling-quantum-processors/