The top 3 uses for Xilinx FPGA

More tech companies these days are using field-programmable gate arrays (FPGAs) to customize most of their products’ logic designs. What is an FPGA, you ask? It is a specially designed integrated circuit that is manufactured in such a way that it can be configured by the designer/customer who purchases it. These chips are equipped with programmable routing resources as well as pre-built logic blocks to allow users to reprogram them as they wish. Purchasing several Xilinx FPGA units gives you an edge over your competitors who use the traditional techniques of breadboards and soldering irons to implement their circuit designs.

Here are the top 3 Xilinx FPGA uses:

  1. In microprocessors and computing devices

FPGA circuits are normally used to solve a myriad of computable problems. Soft microprocessor units like the Xilinx MicroBlaze can be easily implemented using FPGA. These reprogrammable chips are significantly faster in the processing of applications compared to other chips. Their speed can be attributed to the parallel nature and optimality of their design.

Initially, FPGAs were used to implement PCB glue logic but they later increased in size, speed and capabilities. Their rapid improvement eventually allowed them to take over more important functions such as computer processing. Today, the computing power of Xilinx FPGAs exceeds that of Digital Signal Processors (DSPs). FPGA chips have incredible performance because they make use of hardware parallelism. These chips are also able to get more done per clock cycle compared to other processors.

  1. Implementing PCIe-based Boards

PCI Express boards are used to improve the performance of bus devices and to provide hardware support by offering I/O virtualization. These boards are implemented in computer storage interfaces and expansion card interfaces for laptops. 7 Series FPGAs are used to manufacture a wide array of PCIe plug-in boards. They are preferred to conventional CPUs and GPUs because they offer the utmost hardware optimized performance-per-watt. Today’s applications in networks and cloud computing demand ultra-high performance that can only be offered by the robust Xilinx FPGA chips. These applications include:

  • Deep neural networks
  • Video transcoding
  • Big data analysis

You can now get programmable Xilinx Fpga boards at the click of a button. Good news is, you don’t have to dent your wallet when purchasing these boards. Once you purchase, your order is immediately shipped to you.

  1. Simulating with Vivado design suite

Before any circuit can be physically implemented, it has to be natively simulated to establish whether it works as desired. The Vivado design suite allows you to simulate Xilinx FPGAs. You can develop programs and later run them through a simulator, helping to hasten the design process. Once a program is vetted in Vivado, designers can then verify it on real hardware. Xilinx provides the FPGA as well as the simulation software to clients looking to enhance the design and implementation of a range of programs. This guarantees you rapid and accurate simulation. By testing your programs in the simulator mode prior to implementation, the time of development is reduced and associated costs are slashed significantly.

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