AX1000-FG676M Overview
In the package 676-BGA, this product is provided. This kind of FPGA is composed of FIELD PROGRAMMABLE GATE ARRAY. A total of 418 I/Os are programmed to ensure a more coherent data transfer. An electrical supply voltage of 1.5V powers it. A Field Programmable Gate Arrays-series FPGA part. Surface Mount-connectors can be used to attach this FPGA module to the development board. There is a 1.425V~1.575V-volt supply voltage required for the device to operate. It is a type of FPGA that belongs to the Axcelerator series of FPGAs. When operating the machine, it is important to keep the temperature within -55°C~125°C TA range. A total of 516 outputs are incorporated into this device. Fpga chips is designed to maximiTraye space efficiency by containing the FPGA model in Tray. Total terminations are 676. This device is equipped with 165888 RAM bits in terms of its RAM si165888e. In order to find related parts, use the part number AX1000 as a base. It is crucial that the RAM si20.3kBe of this FPGA module reaches 20.3kB so that the program can run normally. The device is designed with 676 pins in total. 18144 LABs and CLBs are built into this FPGA. In order for this FPGA to work properly in accordance with its specifications, it is necessary that it is mounted in Surface Mount. When operating with the supply voltage of 1.5V, designers can fully make use of its flexibility. Power is provided by a 1.51.5/3.32.5/3.3V battery that is included with the device. Its basic building block contains 1000000 gates. To store and transfer data, there are 12096 registers that are used. High efficiency is achieved by operating at a frequency of 649MHz.
AX1000-FG676M Features
418 I/Os
Up to 165888 RAM bits
676 LABs/CLBs
12096 registers
Operating from a frequency of 649MHz
AX1000-FG676M Applications
There are a lot of Microsemi Corporation AX1000-FG676M FPGAs applications.
- OpenCL
- Scientific Instruments
- Video & Image Processing
- Industrial IoT
- Automotive
- Cryptography
- Integrating multiple SPLDs
- Digital signal processing
- Computer hardware emulation
- ASIC prototyping
