XC2V80-4FGG256I Overview
A 256-BGA package contains it, and it is available for download. An FPGA of this type is made up of FIELD PROGRAMMABLE GATE ARRAY gates. Having 120 I/Os makes data transfers more coherent. Fpga chips is powered from a supply voltage of 1.5V. This FPGA part belongs to the family of Field Programmable Gate Arrays. The Surface Mount-slot connector on the FPGA module can be connected to the development board. In order for it to operate, the supply voltage must be 1.425V~1.575V . It is a type of FPGA that belongs to the Virtex?-II series of FPGAs. Fpga chips is important to maintain the operating temperature wFpga chipshin the range of -40°C~100°C TJ when operating the machine. In this device, there are 120 outputs that can be used. It is for space saving reasons that this FPGA model is contained in Tray. As a whole, it has 256 terminations. The RAM bits that this device offer is 147456. Related parts can be found by using its base part number XC2V80. There is a maximum RAM si18kBe of 18kB on this FPGA module, which is necessary to ensure the normal operation of the program. 256 pins are designed into the device. A total of 128 LABs/CLBs make up this FPGA array. According to its specifications, this FPGA will be able to work fantastically as long as it is mounted in Surface Mount. When operating with the supply voltage of 1.5V, designers can fully make use of its flexibility. Fpga electronics operates from a 1.51.5/3.33.3V power supply. Its basic building block contains 80000 gates. There are a total of 256 pins on this device. Usually, fpga semiconductor uses a 650MHz crystal. In order to store and transfer data, a total of 1024 registers are used. Its architecture is based on 128 CLBs. In order for the building block to work, fpga semiconductor consists of 1152 logic cells.
XC2V80-4FGG256I Features
120 I/Os
Up to 147456 RAM bits
256 LABs/CLBs
1024 registers
XC2V80-4FGG256I Applications
There are a lot of Xilinx Inc. XC2V80-4FGG256I FPGAs applications.
- Filtering and communication encoding
- High Performance Computing
- Computer hardware emulation
- Data center hardware accelerators
- Medical Applications
- Data center search engines
- ASIC prototyping
- Military Temperature
- Embedded Vision
- Ecosystem