Defense contractors and agencies need the power of programmability to develop state-of-the-art capabilities while leveraging design resources across platforms in the global missiles and munitions (M&M) market. For more than two decades, AMD has helped M&M project teams meet—and exceed—mission requirements with the flexibility and integration capabilities of FPGAs.
The broad AMD portfolio of commercial and defense-grade devices makes it easy to match the right product to each project. Clear migration paths let developers get started today with the latest 7 series devices including the AMD Zynq 7000 SoC family. With industry-leading levels of integration, AMD devices enable the rapid delivery of complex capabilities with reduced risk.
AMD COTS and defense-grade devices meet the connectivity and power requirements for most M&M applications including guidance, control, targeting, and communications applications. Latest 7 series and Zynq SoC built on the statdefensee-of-the-art 28nm HPL process provide the ideal solutions:
Integration of functions is continuing to increase. The 2x capacity of Virtex™ 7 increase over competing solutions will push integration to new heights.
Increased performance of Virtex 7 allows greater situational awareness and improved target engagement envelope.
On-gimbal electronics cannot be cooled by conventional means due to mechanical isolation and vacuum environment. 22% power reduction of 7 series over previous generations.
Off-the-shelf, pre-government Anti-tamper review greatly enhances product viability at much short design cycle time.
For demanding applications, designers have a choice of AMD defense-grade devices with ruggedized packaging for protection against caustic cleaning processes and ‘tin-whiskering’. These devices are full-range temperature tested and qualified with anti-counterfeiting features.
Requirement | AMD Device Feature Highlights |
Differing Design Sizes |
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Multi-Channel A/D Interfacing |
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External Memory Interfaces |
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Low-Power Requirements |
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Extended Temperature Ranges |
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DSP Parallel Filtering/Processing |
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Security |
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CPU Interface |
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Miniaturization |
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