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). |
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Xilinx XC18V00Updated: Dec 30, 2013 |
Access and use Xilinx XC18V00 In-System Programmable Configuration PROM devices in your designs.
The XC18V00 3.3V family of in-system programmable configuration PROMs include a 4-megabit, a 2-megabit, a 1-megabit, and a 512-kilobit PROM that provide an easy-to-use, cost-effective method for re-programming and storing Xilinx FPGA configuration bitstreams.
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 XC9500Updated: Dec 30, 2013 |
Access and use Xilinx XC9500 In-System Programmable CPLD devices in your designs.
The XC9500 CPLD family provides advanced in-system programming and test capabilities for high performance, general purpose logic integration. All devices are in-system programmable for a minimum of 10,000 program/erase cycles.
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 XC9500XLUpdated: Dec 30, 2013 |
Access and use Xilinx XC9500XL High Performance CPLD devices in your designs.
The FastFLASH XC9500XL family is a 3.3V CPLD family targeted for high-performance, low-voltage applications in leading edge communications and computing systems, where high device reliability and low power dissipation is important.
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 XC9500XVUpdated: Dec 30, 2013 |
Access and use Xilinx XC9500XV High Performance CPLD devices in your designs.
The XC9500XV family is a 2.5V CPLD family targeted for high-performance, low-voltage applications in leading edge communications and computing systems, where high device reliability and low power dissipation is important.
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 XCFUpdated: Dec 30, 2013 |
Access and use Xilinx XCF Platform Flash In-System Programmable Configuration PROM devices in your designs.
The XCF Platform Flash family of in-system programmable configuration PROMs provide an easy-to-use, cost-effective method for reprogramming and storing large Xilinx FPGA configuration bitstreams. The family includes 3.3V XCFxxS (4Mb, 2Mb, 1Mb) and 1.8V XCFxxP (32Mb, 16Mb, 16Mb) flavors of PROM device.
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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