Skip to content

Why Choose Xilinx XA7A25T-1CPG238Q

If you’re looking for a new product to design your next application-specific integrated circuits, then look no further! Whether you’re a tired electronics engineering student, an actual professional in the field, or just someone who has a hobby related to programming looking for new FPGA solutions, then Xilinx XA7A25T-1CPG238Q is just the right fit for you.

Xilinx XA7A25T-1CPG238Q Overview

The Xilinx XA7A25T-1CPG238Q is another product in the Xilinx FPGA lineup. Xilinx FPGAs are digital logic devices that are generally useful because of their programmable trait, which means it’s able to satisfy the unique computing needs of each customer.

Additionally, they help reduce the complexities of an integrated circuit design while at the same time minimizing its risk. They are used widely all over the world because of their extreme usefulness as being the critical ingredient for AI applications especially, like self-driving cars, robots, and other related applications.

Xilinx XA7A25T-1CPG238Q is an Artix-7 device that is optimized to perform high-volume and high-quality automotive applications with only the lowest cost and power required, and with small form-factor packaging. It uses the same resources as Kintex-7 but is scaled a lot smaller in size while still sharing similar advantages that the Kintex-7 has. These Artix-7 devices typically operate at 1.0V core voltage.

This cost-optimized FPGA features the MicroBlaze soft processor and 1,066Mb/s DDR3 support, making it incredibly valuable for various cost and power-sensitive applications like software-defined radio, low-end wireless backhauls, and machine vision cameras to name a few.

It’s also worth mentioning that the Xilinx XA7A25T-1CPG238Q was built on state-of-the-art HPL 28 nm high-k metal gate process technology, which assures the quality performance it provides.  The Xilinx XA7A25T-1CPG238Q also sees an unparalleled and unrivaled increase in performance with its capacity of 100,000 logic cells, a bandwidth of 52 Gb/s I/O, 264 GMAC/s DPS, and a flexible built-in DDR3 memory interface.

Furthermore, the Xilinx XA7A25T-1CPG238Q offers exceptional performance-per-watt fabric. Not to mention. It has the highest quality transceiver line rates, DPS processing, and Analog Mixed Signal (AMS) technology integration.

Features of Xilinx XA7A25T-1CPG238Q

With the intention of addressing the small form factor and lesser power performance that are required by battery-powered portable ultrasound equipment, communications equipment, military avionics, and commercial digital camera lens control, Xilinx developed the Artix family and by extension, the Xilinx XA7A25T-1CPG238Q.

The Xilinx XA7A25T-1CPG238Q is able to deliver fifty percent lower power and thirty-five percent lower cost. Each slice from this programmable logic device contains four LUTs and eight flip-flops, with their LUTs having memory capabilities and real 6-input look-up tables.

Its packaging is of the low-cost wire-bond variety, which allows for easy migration between the different Artix-7 devices in the same package.

The Xilinx XA7A25T-1CPG238Q also has a wide variety of configuration options. This includes a 256-bit AES encryption. The device also supports commodity memories with HMAC/SHA-256 authentication and a built-in SEU detection and correction. It has a maximum block RAM of 13Mb, with a maximum transceiver count going up to 16.

Its transceiver speed can also go up to 6.6Gbps at most and its peak DPS performance at 930 GMACS. It also has a peak serial bandwidth of 211Gbps, and its maximum memory interface at 1,066Mbps.

In addition to that, it’s designed for high-quality performance at the lowest power with 28 nm HKMG, HPL process, and a 1.0V core voltage process technology.

It also has an analog interface that can be configured by the user and incorporates dual 12-bit 1MSPS analog-to-digital converters with on-chip thermal and supply sensors.

The Xilinx XA7A25T-1CPG238Q also includes a clock management architecture that has high-speed buffers and routing to contribute to a lower skew clock distribution. Its features also include frequency synthesis and phase shifting, low jitter clock generation, and jitter filtering.

This programmable XA Artix-7 FPGA chip has 3 to 6 Clock Management Tiles or CMT. Each tile then consists of one mixed-mode clock manager and one phase-locked loop, containing a voltage-controlled oscillator found in the center of both components that is responsible for frequency synthesizing, depending on the input voltage it receives from the Phase Frequency Detector (PFD).

Benefits

This device is definitely an ideal fit for creating custom, reconfigurable systems. Its onboard processing allows for solving complex controls and measuring challenges at a lower overall cost. It is the right combination of performance and power savings.

It also accelerates design productivity with its scalable optimized architecture, along with comprehensive tools. Not to mention its strong network of automotive-specific third-party ecosystems with IP, development boards, and design services.

Its seamless implementation of independent dual 12-bit, 1 MSPS, and 17-channel analog-to-digital converters allow for a reduction in its BOM cost.

In addition to that, the Xilinx XA7A25T-1CPG238Q is RoHs-compliant, which means it has its green credential and you won’t have to worry about contributing to the slow destruction of the environment when you use it.

Its programmable FPGA integration also allows for multimedia activities like video frame capture and video processing, along with 3D graphics and overlay abilities.

Other applications of the Xilinx XA7A25T-1CPG238Q include portable/handheld ultrasound, 3D cameras and camcorder, D-SLR still cameras, 3D TV, portable eReaders, automotive infotainment, multifunction printers, and video surveillance.

Conclusion

FPGAs contribute greatly to the simplification of what would have been otherwise complex integrated circuit applications. Although it can be used in various industries, it’s more common in the field of electronics as its speed and efficiency surpass that of microprocessors, making them incredibly useful to electronic engineers or anyone doing signal processing.

The programmable Xilinx XA7A25T-1CPG238Q chip, especially, makes for an ideal FPGA solution. It offers you a variety of signal processing options, making it incredibly useful. It may come in smaller size packages, but it still offers the same advantages you would get from other FPGA resources such as Kintex-7.

The solution of optimizing the Xilinx XA7A25T-1CPG238Q to perform at high quality even with a lower cost allows one to achieve high-performance designs without sacrificing too much excessive power consumption. Besides, these programmable chips are user-friendly, which means it’s easier to implement your own custom-designed chip.