XCV2000E-6FG680I Overview
The package that contains this software is called 680-LBGA Exposed Pad. This kind of FPGA is composed of FIELD PROGRAMMABLE GATE ARRAY. Its 512 I/Os help it transfer data more efficiently. To form a fundamental building block, there are 43200 logic elements/cells. In order to operate fpga chips, a voltage supply of 1.8V volts is required. In this case, the FPGA part belongs to the Field Programmable Gate Arrays family. The Surface Mount-slot on the development board allows you to attach the FPGA module. Fpga chips operates at a voltage of 1.71V~1.89V and uses a battery to supply power. This is a type of FPGA that is part of the Virtex?-E series of FPGAs. Operating temperatures should be maintained within the -40°C~100°C TJ range at all times when the unit is in use. There are 512 outputs incorporated in this device. Using the Tray layout, this FPGA model can be contained in a very small amount of space. In total, it has 680 terminations on each end. The RAM bits that are offered by this fpga chips are 655360. For related parts, use its base part number XCV2000E. This FPGA module has a RAM si80kBe of 80kB that is sufficient to make sure that the program is able to run normally. This FPGA is built as an array of 9600 LABs/CLBs. In order for this FPGA to work properly in accordance with its specifications, it is necessary that it is mounted in Surface Mount. The 1.8V supply voltage provides designers with full flexibility in their designs. Fpga semiconductor is made up of 2541952 gates as fpga semiconductors basic building block. As far as the pin count is concerned, it has 680 pins. A crystal oscillating at 357MHz is one of the most common components of this device. There are 518400 equivalent gates in the FPGA that implement the design.
XCV2000E-6FG680I Features
512 I/Os
Up to 655360 RAM bits
XCV2000E-6FG680I Applications
There are a lot of Xilinx Inc. XCV2000E-6FG680I FPGAs applications.
- Server Applications
- Automation
- DO-254
- Artificial intelligence (AI)
- Data center search engines
- Development Boards and Shields for Microcontrollers
- Integrating multiple SPLDs
- Random logic
- High Performance Computing
- Distributed Monetary Systems
