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Value
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Features
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Computing acceleration
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Data centers need to optimize workloads to dynamically change the throughput, latency, and power requirements of various virtualization software applications. Virtex UltraScale+ FPGAs can be used as a scalable and reconfigurable acceleration platform that can be optimized for complex workloads. The large amount of raw computing power and I/O flexibility in Virtex UltraScale+ FPGAs are suitable for computationally intensive workloads in data center applications.
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5G baseband
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Flexible hardware acceleration, low-latency work and high-speed switching are the keys to 5G baseband. Virtex UltraScale FPGAs provide scalable and dynamic solutions for the evolving 5G infrastructure.
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Wired communication
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Up to 128 power-optimized high-speed transceivers and Nx100G network core help to realize 1Tb line cards in a small package. The integrated 100G Ethernet MAC supporting FEC and OTN modes can provide a highly flexible interface for coherent optical products to design a robust system.
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Radar
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The combination of beamforming and other radar functions can bring huge signal processing requirements and precise tracking and/or guidance in a spectrum competition environment. With Virtex UltraScale+ FPGAs, radar designers do not have to choose between performance and SWaP-C. Virtex UltraScale+ FPGAs can provide higher performance through enhanced DSP resources, on-chip memory, and a high degree of interconnectivity. Unlike general-purpose processors, FPGAs can be reprogrammed to change waveforms and algorithms to achieve more parallel processing.
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Test and measurement
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Virtex UltraScale+ FPGA has massive DSP bandwidth and a large number of transceivers, which can provide high-performance data processing and analysis for network/protocol analyzers, signal generators and wired communication testers . Massive on-chip embedded memory is ideal for data classification and coefficient tables and FIFO
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