XCV100E-7FG256C Overview
Fpga chips is supplied in the 256-BGA package. There are FIELD PROGRAMMABLE GATE ARRAY transistors in this type of FPGA. This device features 176 I/Os in order to transfer data in a more efficient manner. A fundamental building block contains 2700 logic elements or cells. Supply voltage is 1.8V volts. The Field Programmable Gate Arrays family of FPGAs includes this part. FPGA modules can be attached to development boards using a Surface Mount-connector. There is a 1.71V~1.89V-volt supply voltage required for the device to operate. An FPGA belonging to the Virtex?-E series is referred to as an FPGA. Operating temperatures should be maintained within the 0°C~85°C TJ range at all times when the unit is in use. A device such as this one has 176 outputs built into it. A model of this FPGA is contained in Tray for the purpose of saving space. In total, it has a total of 256 terminations. As far as the RAM bits are concerned, this device offers you a total of 81920. For related parts, use its base part number XCV100E. It is crucial that the RAM si10kBe of this FPGA module reaches 10kB so that the program can run normally. It has a total of 256 pins that are designed for it. A total of 600 LABs/CLBs make up this FPGA array. As long as this FPGA is mounted in Surface Mount, it should be able to function as it should in terms of its specifications, as well as its capabilities. In the case of 1.8V supply voltage, designers can take full advantage of its flexibility. Fpga semiconductor is made up of 128236 gates as fpga semiconductors basic building block. In addition to this, it has 256 pins. Normally, fpga semiconductor uses an oscillator, which oscillates at 400MHz, to create the signal. For its architecture, 600 CLB modules are used. 32400 equivalent gates are used to implement the design in the FPGA.
XCV100E-7FG256C Features
176 I/Os
Up to 81920 RAM bits
256 LABs/CLBs
XCV100E-7FG256C Applications
There are a lot of Xilinx Inc. XCV100E-7FG256C FPGAs applications.
- Automotive advanced driver assistance systems (ADAS)
- Computer hardware emulation
- Aerospace and Defense
- ADAS
- Voice recognition
- Military Temperature
- Medical imaging
- Medical Applications
- Industrial IoT
- Bioinformatics