![Aerospace & Defense Technology Aerospace & Defense Technology](/sites/default/files/styles/cards_listing_mobile/public/2022-03/fifty-aerospace-and-defense-technology.png?itok=4TgFTJpv)
Ruggedization of Electronics for Deployed Military Environments
Some environmental constraints for deployed military computing systems are operational temperature, humidity, sand, dust, vibration, shock/basic, leakage (immersion), steam and water jet cleaning, rapid decompression, contamination by fluids (e.g. oil, fuel, cleaning), nuclear hardness, and input voltage.
![Military Embedded Systems Military Embedded Systems](/sites/default/files/styles/cards_listing_mobile/public/2022-03/fifty-military-embedded-systems.png?itok=ai_xm4XT)
Military Displays: Balancing Innovation and SWaP-C Constraints
Military-display designers continue to face stringent size, weight, power, and cost (SWaP-C) constraints while integrating commercial innovations like HD – and soon 4K – into systems that must work with legacy sensors and interfaces while also complying with a variety of open architectures and standards.
![Curtiss-Wright Debuts Fully Rugged Cisco IOS-XE Network Appliance/Backbone that Combines Network Router and Switch for Military and Aerospace Applications Curtiss-Wright Debuts Fully Rugged Cisco IOS-XE Network Appliance/Backbone that Combines Network Router and Switch for Military and Aerospace Applications](/sites/default/files/styles/cards_listing_mobile/public/2021-09/DuraMAR-6300-3300_front_0.png?itok=vsi_3lZi)
Curtiss-Wright Debuts Rugged Cisco IOS-XE Network Appliance/Backbone that Combines Network Router and Switch
High-performance router + switch integrates secure Cisco ESR-6300 embedded services router (ESR) and ESS-3300 embedded services switch (ESS) technology into single SWaP-optimized ultra-rugged chassis.
![Military Embedded Systems Military Embedded Systems](/sites/default/files/styles/cards_listing_mobile/public/2022-03/fifty-military-embedded-systems.png?itok=ai_xm4XT)
It’s Time: Time Sensitive Networking and Deterministic Networking
Time Sensitive Networking (TSN) is a set of Ethernet networking capabilities used to transmit time-sensitive data across standard Ethernet networks. Originally, TSN grew out of the IEEE 802.1 standard working groups on Audio Video Bridging (AVB) to make sure that independent networks streams for audio and video data arrive at the correct times to ensure synchronization.