Defense Speak Interpreted: If CHIPS Cuts Back, What Happens to Electronics Packaging Funds?
American Made Advocacy: Where’s the Budget for a Modern Military Run on Microelectronics?
Beyond the Board: Orbital High Ground—Why Space Superiority Is Slipping Away
Cubic Awarded Area Weapon Effects Simulation (AWES) Contract Extension
April 19, 2023 | Business WireEstimated reading time: 1 minute
Cubic Defence UK, operating as part of Cubic Mission and Performance Solutions (CMPS), was awarded a contract extension to continue to support training for the British Army. The contract entails supporting and repairing the Area Weapons Effects Simulator (AWES) system at Salisbury Plain Training Area (SPTA) in the United Kingdom and for select overseas deployment as required.
AWES and its integrated Tactical Engagement Simulation (TES) system simulates large-scale force-on-force combat exercises, including the effects of direct fire, artillery, mortar fire, mines and air-delivered munitions, as well as nuclear, biological and chemical weapons.
"Our longstanding partnership with the British Army is of the utmost value. We are pleased to be continuing our training support," said Mark Graper, vice president of CMPS Global Solutions. "The contract ensures that we can build on the foundation of the work we've already accomplished together as we continue to advance the British Ministry of Defence training experience and standard through flexible, globally deployable technology interoperable with other simulations."
The contract extension will allow Cubic to continue delivering world-class combined arms maneuver training from the sub-unit to battalion level and permit a flexible delivery model that allows the British Army to deliver its training wherever it is required. The contract also solidifies Cubic's market position in the U.K. at the early stages of the Collective Training Transformation Programme (CTTP), which will radically transform the training experience in the U.K. over the next few years by enhancing soldier training through strategic immersion in cutting-edge technologies.
Share on:
Testimonial
"The I-Connect007 team is outstanding—kind, responsive, and a true marketing partner. Their design team created fresh, eye-catching ads, and their editorial support polished our content to let our brand shine. Thank you all! "
Sweeney Ng - CEE PCBSuggested Items
Fresh PCB Concepts: Designing for Success at the Rigid-flex Transition Area
08/28/2025 | Team NCAB -- Column: Fresh PCB ConceptsRigid-flex PCBs come in all shapes and sizes. Manufacturers typically use fire-retardant, grade 4 (FR-4) materials in the rigid section and flexible polyimide materials in the flex region. Because of the small size, some rigid-flex PCBs, like those for hearing aid devices, are among the most challenging to manufacture. However, regardless of its size, we should not neglect the transition area between the rigid and flexible material.
Global Flexible PCB Output Expected to Surpass $20 Billion by 2025, with AI Glasses Emerging as a New Growth Driver
08/25/2025 | TPCAThe Taiwan Printed Circuit Association (TPCA) and the Industrial Technology Research Institute (ITRI) released the "2025 Global Flexible PCB Industry Outlook" in August.
Nano Silver Inks Market Forecast Report 2025-2030
08/20/2025 | Globe NewswireThe Nano Silver Inks Market is expected to grow from USD 427.415 million in 2025 to USD 836.160 million in 2030, at a CAGR of 14.36%.
Flexible Circuit Technologies to Host Free Flex Heater Webinar
08/18/2025 | Flexible Circuit TechnologiesGlobal Supplier of flexible circuits, flex design services, and assembly/box-build services, Flexible Circuit Technology will host their latest webinar, "Thermal Precision Meets Flexibility: The Technology Behind Heater Circuits" on Tuesday, August 26th, 2025 at 11 AM EDT.
Trouble in Your Tank: Metallizing Flexible Circuit Materials—Mitigating Deposit Stress
08/04/2025 | Michael Carano -- Column: Trouble in Your TankMetallizing materials, such as polyimide used for flexible circuitry and high-reliability multilayer printed wiring boards, provide a significant challenge for process engineers. Conventional electroless copper systems often require pre-treatments with hazardous chemicals or have a small process window to achieve uniform coverage without blistering. It all boils down to enhancing the adhesion of the thin film of electroless copper to these smooth surfaces.