The NASA JPL EMIT mission maps the surface mineralogy of arid dust source regions and aids in improving forecasts of the role of mineral dust in the warming and cooling of Earth's atmosphere. JPL required a reliable, radiation-tolerant storage device with high-speed data processing and large storage capacity. Mercury delivered the high-performance RH3440 solid-state data recorder with proven reliability in high-radiation environments to enable on-orbit data processing and storage.
Today's space imaging systems require radiation-tolerant NAND flash components with advanced error correcti...
Learn more on Mercury and NASA manufacturing high-performance ZBLAN optical fibers in space aboard the International Space Station (ISS).
Today's space imaging systems require radiation-tolerant NAND flash components with advanced error correction, packaged in lightweight, rugged VPX form factors.
NASA's Jet Propulsion Laboratory selects Mercury technology for critical science mission
Whether you application demands space-level reliability for RF components or storage devices, we have the design, manufacturing and test expertise to deliver the right solution.
Memory solutions matter for mission-critical applications. High-quality, high-reliability and ruggedness are key for aerospace and defense industry applications. Hear how Mercury and Micron...
Few technology applications are positioned to benefit from high-power RF GaN device insertion to the extent as space payloads.
We leverage HD 2.5D system-in-package technology, custom silicon interposers, 2D die stacking integration, leading semiconductor manufacturers, and trusted manufacturing in harsh environments.
Comparing Intel Xeon server-class processors for Space Time Adaptive Processing (STAP) applications.
This white paper describes AI and cognitive computing (CC) and introduces the underlying largely commercially developer IP that enables them.
Innovation that's embedded - this brief explores's Mercury's "five S's" of secure data storage for military embedded systems: SWaP, Speed, Security, Sanitize and Self-Destruct.
GaN-based power amplifiers are ideal choice when your program requires high power, at high frequencies and in a small space.
By working at the chip level and leveraging new 2.5D system-in-package capabilities, designers can combine complex semiconductor dies into a single component while maintaining trust and security.
In order to minimize cost and time-to-market, the hardware must be flexible and modular. To address this emerging-need, we have developed a multi-channel, coherent system architecture.
An overview of Mercury’s broad RF, microwave and mixed-signal solutions including compact components and highly integrated, modular assemblies.