Xilinx Virtex-4Updated: Dec 30, 2013 |
Access and use Xilinx Virtex-4 FPGA devices in your designs.
Virtex-4 FPGAs are the first multi-platform FPGA family based on the revolutionary Advanced Silicon Modular Block (ASMBL) architecture. Between its different platforms (FX, LX and SX), the Virtex-4 family offers a programmable logic solution closely matching designers needs.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-5Updated: Dec 30, 2013 |
Access and use Xilinx Virtex-5 FPGA devices in your designs.
Virtex-5 FPGAs are the ultimate system integration platforms utilizing the second generation ASMBL (Advanced Silicon Modular Block) architecture. Between its different platforms (FXT, LX, LXT, SXT and TXT), the Virtex-5 family offers a programmable logic solution closely matching designers needs.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-6Updated: Dec 30, 2013 |
Access and use Xilinx Virtex-6 FPGA devices in your designs.
Virtex-6 FPGAs are the high-performance silicon foundation for Targeted Design Platforms, utilizing the third generation ASMBL (Advanced Silicon Modular Block) architecture. Consuming 50% lower power and delivering 20% lower cost than the previous generation, the new family is built with the right mix of programmability, integrated blocks for DSP, memory, and connectivity support. Between its different platforms (HXT, LXT, and SXT), the Virtex-6 family offers a programmable logic solution closely matching designers needs.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-7Updated: Mar 09, 2014 |
Access and use Altera Virtex-7 FPGA devices in your designs.
Virtex-7 FPGA family is built on the state-of-the-art 28nm HPL process technology for breakout performance, capacity and system integration with up to 2000000 logic cells and up to 68Mb BRAM.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-EUpdated: Dec 30, 2013 |
Access and use Xilinx Virtex-E FPGA devices in your designs.
The Virtex-E FPGA family delivers high-performance, high-capacity programmable logic solutions. Dramatic increases in silicon efficiency result from optimizing the new architecture for place-and-route efficiency and exploiting an aggressive 6-layer metal 0.18 µm CMOS process.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-IIUpdated: Dec 30, 2013 |
Access and use Xilinx Virtex-II FPGA devices in your designs.
The Virtex-II family is a platform FPGA developed for high performance from low-density to high-density designs that are based on IP cores and customized plugins. The family delivers complete solutions for telecommunication, wireless, networking, video, and DSP applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx Virtex-II ProUpdated: Dec 30, 2013 |
Access and use Xilinx Virtex-II Pro FPGA devices in your designs.
The Virtex-II Pro family contains platform FPGAs for designs that are based on IP cores and customized plugins. The family incorporates multi-gigabit transceivers and PowerPC CPU blocks. It empowers complete solutions for telecommunication, wireless, networking, video, and DSP applications.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx XA Spartan-3AUpdated: Dec 30, 2013 |
Access and use Xilinx Automotive Spartan-3A FPGA devices in your designs.
The Xilinx Automotive (XA) Spartan-3A family of FPGAs is ideally suited for use in high-volume, cost-sensitive, I/O-intensive automotive electronics applications, including infotainment, driver information, and driver assistance plugins. The four-member family offers densities ranging from 200,000 to 1.4 million system gates, and I/Os ranging from 195 to 375, with support for industry standard and emerging I/O standards.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx XA Spartan-3A DSPUpdated: Dec 30, 2013 |
Access and use Xilinx Automotive Spartan-3A DSP FPGA devices in your designs.
The Xilinx Automotive (XA) Spartan-3A DSP family of FPGAs is ideally suited for high-volume, cost-sensitive DSP algorithmic and co-processing applications in the automotive electronics arena, including infotainment, driver information, and driver assistance plugins. Significant DSP performance is delivered through embedded MAC blocks. The two-member family offers densities of 1.8 million and 3.4 million system gates respectively.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |
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Xilinx XA Spartan-3EUpdated: Dec 30, 2013 |
Access and use Xilinx Automotive Spartan-3E FPGA devices in your designs.
The Xilinx Automotive (XA) Spartan-3E family of FPGAs is ideally suited for use in high-volume, cost-sensitive automotive electronics applications, including infotainment, driver information, and driver assistance plugins. The five-member family offers densities ranging from 100,000 to 1.6 million system gates, and I/Os ranging from 66 to 376.
Specific device support and detailed information thereof, can be accessed from the Browse Physical Devices dialog, accessed from the Tools menu in the Devices view (View»Devices View). |