Addressing the processing needs of Space 2.0 applications
The heavens may be infinite, but in Earth’s neighbourhood things are getting crowded. Space 2.0, a new era of exploration and development driven more by commercial interests than government action, is fuelling rapid innovation in reusable rockets, satellite internet connectivity, Earth observation platforms, navigation, space tourism and many more applications. As a result, our skies are rapidly becoming much busier than ever before.
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FPGAs fit for space
The arrival of Space 2.0 has democratised the use of satellites and opened up an array of applications that can be serviced by electronics in low-Earth orbit (LEO) as well as those on higher trajectories such as geosynchronous equatorial orbit (GEO). Although launch costs have fallen rapidly, development cost and time present their own challenges. Even if deployed in large constellations of several hundred satellites like some of the LEO communications networks now orbiting, space electronics designs are intrinsically low-volume applications.
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Radiation-hardened processors for space
Lower launch costs have helped open up a raft of applications for satellites that, by featuring advanced sensors and computing, are able to deliver novel communications and remote-monitoring services. Limited communication bandwidth to ground stations and the increasing resolution of sensors mean that sophisticated compression and onboard analysis techniques are mandated.
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Overcoming the radiation challenges of space electronics
To deploy systems into orbit that will be reliable requires a focus on radiation hardening of electronics during the design process. Radiation represents the biggest reliability challenge for electronic hardware in space and the small satellites in low-Earth orbits (LEOs) can be particularly under threat. The radiation environment close to Earth is divided into two main categories.
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Webinars
AMD Versal for Space and its Ecosystem
Join Avnet Silica’s AMD Versal for Space and its Ecosystem webinar to learn more about the features of the XQR Versal devices and its ecosystem with our leading supplier partners.
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Renesas Intersil Space Update
The Renesas High Reliability Business Unit (former Intersil) will be providing an update on their recently released or soon to be released space grade integrated circuit solutions. Join us for an update on our advanced power management, analog mixed signal, and RF products specifically designed, qualified and screened for space applications.
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Radar Signal Processing with AMD Versal SoCs
AMD has developed a new class of heterogenous product which combines VLIW SIMD processors (named AI Engines) with traditional FPGA fabric in a single device. While these devices can provide new capabilities for existing systems, they also require new design methodologies to extract the highest performance from the device.
In this informative webinar, AMD will demonstrate a Space-Time Adaptive Processing algorithm design implemented on the AMD Versal devices
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Podcasts
Episode 43: The Tech Odyssey: Reshaping Space Missions with AMD and Avnet Silica
As we push the boundaries of what's possible in space, two pivotal challenges stand out: the hardware components that can withstand the extremities of space and the sophisticated processing power required to execute space missions.
With our guests, we will explore the transformation in satellite technology, the vital role of Commercial Off-the-shelf components, and the evolution in processing needs for ambitious space applications.
Joining us from AMD is Ken O’Neill, Space Systems Architect. Representing Avnet Silica, we have Paul Leys, Market Segment Manager, Aerospace and Defence. Together, we'll journey to understand the New Space movement’s intricacies, challenges, and future.
Episode 40: The Next Space Age: Intelligent Systems, Data, and the Journey Beyond
While Space might seem a world away from our everyday experiences with the Internet of Things (IoT), artificial intelligence (AI), and data, our guest bridges that gap today. We're excited to introduce Kate Underhill, a rocket scientist from the European Space Agency (ESA).
Kate works with the 'Future Launchers Preparatory Programme' at ESA, blending cutting-edge technology with space exploration, from implementing AI in non-destructive hardware inspections to creating intelligent propulsion systems.
We'll explore if the answer to our global challenges is written in the stars.
Episode 33: Connecting the Unconnected - The Power of Satellite IoT
A critical aspect of IoT that is often overlooked but critical for connecting the unconnected: is satellite IoT. With the growing demand for reliable and secure connectivity in remote and underserved areas, satellite IoT is increasingly important in bridging the gap and providing real-time access to critical information and data.
We'll discuss the evolution of satellite IoT, its key concepts and technologies, real-world use cases and benefits, and future trends that are likely to emerge. Our guest this week is Gianluca Redolfi, CCO at Sateliot.