![XCV300E-7FG256C Allicdata Electronics](https://files.allicdata.com/upload/common/default.jpg)
Allicdata Part #: | XCV300E-7FG256C-ND |
Manufacturer Part#: |
XCV300E-7FG256C |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Xilinx Inc. |
Short Description: | IC FPGA 176 I/O 256FBGA |
More Detail: | N/A |
DataSheet: | ![]() |
Quantity: | 1000 |
Series: | Virtex®-E |
Part Status: | Obsolete |
Number of LABs/CLBs: | 1536 |
Number of Logic Elements/Cells: | 6912 |
Total RAM Bits: | 131072 |
Number of I/O: | 176 |
Number of Gates: | 411955 |
Voltage - Supply: | 1.71 V ~ 1.89 V |
Mounting Type: | Surface Mount |
Operating Temperature: | 0°C ~ 85°C (TJ) |
Package / Case: | 256-BGA |
Supplier Device Package: | 256-FBGA (17x17) |
Base Part Number: | XCV300E |
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The XCV300E-7FG256C Field Programmable Gate Array (FPGA) is a powerful and efficient embedded system used to process digital inputs and outputs. With the help of its advanced circuitry, the FPGA can address complex applications such as image processing, artificial intelligence applications, and high-speed signal processing.
At its core, the XCV300E-7FG256C FPGA contains a large number of individual components called Configurable Logic Blocks (CLBs). These CLBs, when interconnected in various ways, are able to meet the requirements of an application. Furthermore, the FPGA also contains a large number of I/O ports which can be used to connect input and output devices.
The XCV300E-7FG256C FPGA is able to address complex applications due to its ability to reconfigure the hardware depending on the application requirements. This is done via software and is known as an FPGA configuration. In this process, users provide the FPGA with the design they wish to implement by sending a configuration file to the FPGA via a serial port or a JTAG cable. The FPGA is then programmed with the information and is ready for use.
Once the FPGA has been configured, it can be used to process digital inputs and outputs at high speeds and reduce latency. This makes them ideal for applications such as image and video processing, facial recognition, and Machine Learning. For example, an FPGA can be used to process multiple camera feeds with high speed and accuracy. Furthermore, they can also be used in applications that require rapid response such as controlling robotic systems.
In addition, the XCV300E-7FG256C FPGA is highly durable and reliable. It has been designed to withstand harsh environments and can operate for extended periods at higher temperatures. This makes it ideal for use in industrial and automotive applications where it can be used for controlling high-speed processes and monitoring systems.
The XCV300E-7FG256C FPGA is a powerful and efficient embedded device that can address complex applications such as image processing, AI applications, and high-speed signal processing. It is able to reconfigure its hardware to meet the requirements of an application and can process inputs and outputs quickly and reliably. As a result, it is an ideal choice for automotive, industrial and image processing applications.
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Part Number | Manufacturer | Price | Quantity | Description |
---|
XCV300-4BG352C | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300-4BG352I | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300-4BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300-4BG432I | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300-4FG456C | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300-4FG456I | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300-4PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV300-4PQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV300-5BG352C | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300-5BG352I | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300-5BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300-5BG432I | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300-5FG456C | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300-5FG456I | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300-5PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV300-5PQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV300-6BG352C | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300-6BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300-6FG456C | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300-6PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 166 I/O 240QFP |
XCV300E-6BG352C | Xilinx Inc. | -- | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300E-6BG352I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300E-6BG432C | Xilinx Inc. | -- | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300E-6BG432I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300E-6FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV300E-6FG256I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 176 I/O 256FBGA |
XCV300E-6FG456C | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300E-6FG456I | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300E-6PQ240C | Xilinx Inc. | -- | 1000 | IC FPGA 158 I/O 240QFP |
XCV300E-6PQ240I | Xilinx Inc. | 73.88 $ | 5 | IC FPGA 158 I/O 240QFP |
XCV300E-7BG352C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300E-7BG352I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 260 I/O 352MBGA |
XCV300E-7BG432C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300E-7BG432I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 316 I/O 432MBGA |
XCV300E-7FG256C | Xilinx Inc. | -- | 1000 | IC FPGA 176 I/O 256FBGA |
XCV300E-7FG256I | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 176 I/O 256FBGA |
XCV300E-7FG456C | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300E-7FG456I | Xilinx Inc. | -- | 1000 | IC FPGA 312 I/O 456FBGA |
XCV300E-7PQ240C | Xilinx Inc. | 0.0 $ | 1000 | IC FPGA 158 I/O 240QFP |
XCV300E-7PQ240I | Xilinx Inc. | -- | 1000 | IC FPGA 158 I/O 240QFP |
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