XC2S50E-6FTG256I Overview
A 256-LBGA package is provided with this component. A FIELD PROGRAMMABLE GATE ARRAY-based FPGA is one of these types. The device has 182 I/O ports for more coherent data transfer. A fundamental building block consists of 1728 logic elements/cells. Supply voltage is 1.8V volts. There is a Field Programmable Gate Arrays family component in this FPGA part. Surface Mount-connectors can be used to attach this FPGA module to the development board. There is a 1.71V~1.89V-volt supply voltage required for the device to operate. It is a type of FPGA that belongs to the Spartan?-IIE 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 182 outputs incorporated in this device. In order to save space, this FPGA model has been contained in Tray. Total terminations are 256. A device like this one offers 32768 RAM bits, which is a considerable amount of memory. XC2S50E is the base part number that can be used to identify related parts. The FPGA module's RAM si4kBe reaches 4kB in order to ensure that the program operates in a normal manner. In order to make it work, 256 pins have been designed. A total of 384 LABs/CLBs make up this FPGA array. In my opinion, this FPGA could produce fantastic results if mounted in Surface Mount, provided that its specifications are followed. Designers can fully utilize its flexibility with 1.8V supply voltage. Among its basic building blocks, there are 50000 gates that are included in it. There are a total of 256 pins on this device. Usually, fpga semiconductor uses a 357MHz crystal. The architecture of the system is based on 384 CLBs. In order to implement this design, 23000 equivalent gates are used in the FPGA.
XC2S50E-6FTG256I Features
182 I/Os
Up to 32768 RAM bits
256 LABs/CLBs
XC2S50E-6FTG256I Applications
There are a lot of Xilinx Inc. XC2S50E-6FTG256I FPGAs applications.
- Automotive driver's assistance
- Telecommunication
- Scientific Instruments
- High Performance Computing
- Data Center
- ASIC prototyping
- Data center search engines
- Data center hardware accelerators
- Random logic
- Medical imaging