A54SX16A-1FG144I

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Embedded - FPGAs (Field Programmable Gate Array)

FPGAs are digital devices used in electrical and computing applications to manufacture flexible designs that contain logic circuits and memory on a programmable chip. The A54SX16A-1FG144I integrated circuit is an embedded, field programmable gate array (FPGA) which is used to design embedded digital designs that contain a set of standard integrated logic blocks and an array of micro-controller cores.

Application Field of A54SX16A-1FG144I

The A54SX16A-1FG144I is ideally suited for embedded applications such as industrial automation, automotive, video and imaging systems, medical and aerospace, and other systems that implement logic and control functions. The advanced embedded FPGA core architecture is tailored for speed, cost, security and flexibility, making the device ideal for a broad range of applications.

The embedded FPGA core can handle a broad range of complex designs as well as support advanced embedded signaling and deterministic control. The integrated 7-stage pipelining, 5-stage and 6-stage synchronizers, and single and double data rate (SDR and DDR) architecture enable superior system performance. This technology also allows for faster data blocking, parallel processing and distributed processing, all while significantly reducing power consumption.

The embedded FPGA core also has the ability to multiplex inputs and outputs at high speeds, as well as interface with a variety of digital signal processors and micro-controller cores. This technology provides high levels of signal integrity and signal processing capabilities, while still reducing clock speed and power requirements.

Working Principle of A54SX16A-1FG144I

The A54SX16A-1FG144I embedded device utilizes a specialized technique known as field programmable gate array (FPGA) technologies. This device uses an array of programmable switches, called programmable logic cells, to form the logic of the system. The programmable logic cells are connected to each other through rows and columns. Each of the FPGA’s programmable logic cells can be configured to perform a specific function, such as addition, subtraction, multiplication, division, logic, or even sequential control.

Once the initial design is finalized, the logic cells can be programmed with the specific instructions. Depending on the configuration, the programmable logic cells can be reconfigured to meet the changing functional requirements of the system. Furthermore, each of the FPGAs programmable logic cells can also be reconfigured to address specific fault conditions, allowing for enhanced system performance and reliability.

The A54SX16A-1FG144I device also contains a large number of on-chip memories, ranging from 4K to 32Kb. These memories can be used to store and transfer data, as well as provide quick access to frequent functions or data. The memory architecture also includes dual-port memories, which allow simultaneous access to write and read data.

In addition, the device also has a number of programmable pins that can be configured to control user-defined features. For example, the programmable pins can be used to configure a variety of design parameters, including startup configuration, local bus width, processor wait states, synchronization delays, and clock speed. This feature helps the designer to maximize performance while keeping the design costs low.

Conclusion

The A54SX16A-1FG144I is a cost effective, feature-packed embedded FPGA device designed for embedded applications that require complex logic and control with low power consumption. With its advanced embedded FPGA core architecture, the device is well-suited for a variety of applications. Furthermore, the on-chip memories and programmable pins enable users to further customize their designs and maximize performance from the device.

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