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| June 2, 2011 | |
| Now available for on demand viewing! | |
| Approximately one hour | |
| Steve Patterson, VP, Defense Product Management , Mercury Computer Systems German Linares, Senior Manager, Systems Engineering , Mercury Computer Systems Anne Mascarin, Solution Marketing Manager , Mercury Computer Systems |
Radar is one of the defense industry’s most challenging applications - and it’s easy to understand why. Targets are smaller and faster and growing in number, yet they must be tracked over wider areas of surveillance. As a result, digital signal processing for radar is a highly complex and compute-intensive task.
Given today’s do-more-with-less environment, there exists an elevated demand for high-performance processing - with both specialized and general purpose processors - and low-latency, high-bandwidth data movement. Adding to the challenge are ever-tightening SWaP (Size, Weight and Power) constraints, which are ratcheted up every time a radar program adds multi-mission or multi-mode requirements.
So as budgets shrink and the list of new requirements lengthen, defense primes must find new ways to solve these difficult problems.
| Steve Patterson VP, Defense Product Management Mercury Computer Systems |
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| German Linares Senior Manager, Systems Engineering Mercury Computer Systems |
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| Anne Mascarin Solution Marketing Manager Mercury Computer Systems |
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