August 30, 2018 | International, Aerospace, Naval, Land
JOUY-EN-JOSAS, Yvelines, 29 août (Reuters) - L'Union européenne doit renforcer les synergies en matière d'équipements militaires pour optimiser les dépenses de défense des Etats membres, ce qui passe notamment par une consolidation du secteur à l'échelle européenne, estime le ministre allemand des Finances, Olaf Scholz.
Au-delà des progrès déjà enregistrés en matière de politique commune de défense et de sécurité, des mesures complémentaires sont nécessaires, déclare le vice-chancelier d'Allemagne, selon le texte d'un discours qu'il devait prononcer mercredi à l'université d'été du Medef, à Jouy-en-Josas (Yvelines).
Cela passe par “une approche commune pour le matériel militaire, ce qui signifiera davantage de coopération et un processus de consolidation de l'industrie militaire européenne, y compris via des fusions”, dit-il.
“Nous devons encourager les fusions pas seulement lorsqu'elles se font au bénéfice de nos propres champions nationaux”, poursuit-il.
A ses yeux, cela permettra de mettre sur pied une politique de défense commune plus intégrée, à même de permettre à l'Union européenne de garantir sa sécurité mais aussi de devenir un “acteur sérieux” de l'architecture militaire mondiale.
La France et l'Allemagne ont donné l'été dernier, peu après l'accession d'Emmanuel Macron à l'Elysée, un grand coup d'accélérateur à leur coopération dans le domaine de la défense en convenant de développer ensemble un avion de combat de prochaine génération, mais aussi de concevoir en commun des chars, hélicoptères et autres matériels.
Toujours dans le domaine aéronautique, le bilan de l'avion de transport militaire A400M d'Airbus est pour l'instant mitigé, le programme européen ayant connu des années de dérapage des coûts, de problèmes techniques et de retards multiples.
A rebours du discours volontariste du dirigeant allemand, la France semble adopter une position plus mesurée dans le projet de rapprochement auquel oeuvrent les groupes français Naval Group et italien Fincantieri.
Le ministre français de l'Economie et des Finances Bruno Le Maire a assuré lors d'un déplacement à Rome au début du mois que la France et l'Italie partageait “le même désir de boucler la fusion STX-Fincantieri, qui donnera naissance à l'un des plus gros chantiers navals civils du monde”.
Mais une source gouvernementale française, s'exprimant sous condition d'anonymat, avait déclaré que Naval Group (dont Thales détient 35%) ne pouvait pas être privatisé et précisé que certaines de ses activités, comme la construction de sous-marins nucléaires, constituaient des actifs stratégiques ne pouvant pas passer sous pavillon étranger. (Myriam Rivet, Leigh Thomas et Matthieu Protard, édité par Sophie Louet)
https://fr.reuters.com/article/frEuroRpt/idFRL8N1VK2SM
September 17, 2021 | International, Naval
'I understand Frances's disappointment at the cancellation of the diesel-electric deal,' Wallace said at the DSEI defense exhibit in London on Sept. 16.
April 29, 2019 | International, Aerospace, Naval, Land, C4ISR, Security, Other Defence
By: Aaron Mehta WASHINGTON — Overall military expenditures rose 2.6 percent between 2017 and 2018, to hit a total of $1.82 trillion dollars, according to new research from the Stockholm International Peace Research Institute. The total from 2018 is 5.4 percent higher than 2009, and represents a 76 percent increase over 1998, a 20-year period. Sixty percent of global military spending came from five countries: The United States ($649 billion), China ($250 billion), Saudi Arabia ($67.6 billion), India ($66.5 billion) and France ($63.8 billion). Russia ($61.4 billion) and the United Kingdom ($50 billion) were the other two countries to spend $50 billion or more on defense. However, there are ups and downs among the biggest spenders. While the U.S. (4.6 percent, the first overall growth since 2010), China (5 percent) and India (3.1 percent) increased their respective military spending year over year, Saudi Arabia cut its spending by 6.5 percent, France by 1.4 percent and Russia by 3.5 percent. And overall defense spending per gross domestic product fell to 2.1 percent in 2018, representing $239 per global citizen, a 0.1 percent decrease over one year and a 0.5 percent decrease over 10 years. Notably, Russia ranked outside the top five for the first time since 2006. China, meanwhile, increased its military spending for the 24th consecutive year, and its spending is almost 10 times higher than it was in 1994; however, researchers warn that Chinese growth may slow in the coming year. “The annual rate of growth of China's military spending has slowed steadily since it reached a post-2009 high of 9.3 percent in 2013. The growth of 5.0 percent in 2018 was the lowest annual increase since 1995,” the authors note. “China has followed a policy of linking growth in military spending with economic growth. With its economic growth slowing in 2018 to the lowest level in 28 years, slower rates of growth in the coming years can be expected if China continues to follow this policy.” SIPRI, which is widely considered to be the authority on military expenditures and exports, having gathered such data for decades. Other key developments, as noted by the researchers: Military spending in South America rose by 3.1 percent in 2018. This was mainly due to the increase in Brazilian spending (by 5.1 percent), the second increase in as many years. Military expenditure in Africa fell by 8.4 percent in 2018, the fourth consecutive annual decrease since the peak in spending in 2014. There were major decreases in spending by Algeria (–6.1 percent), Angola (–18 percent) and Sudan (–49 percent). Military spending by states in the Middle East, for which data is available, fell by 1.9 percent in 2018. Total military expenditure by all 29 NATO members was $963 billion in 2018, which accounted for 53 percent of world spending. Military spending in Turkey increased by 24 percent in 2018 to $19 billion, the highest annual percentage increase among the world's top 15 military spenders. Six of the 10 countries with the highest military burden (military spending as a proportion of GDP) in the world in 2018 are in the Middle East: Saudi Arabia (8.8 percent of GDP), Oman (8.2 percent), Kuwait (5.1 percent), Lebanon (5 percent), Jordan (4.7 percent) and Israel (4.3 percent). https://www.defensenews.com/global/2019/04/28/heres-how-much-global-military-spending-rose-in-2018
August 19, 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/