Basic Parameters:
Logic Resources: It has 16,640 Logic Elements (LE) and 1139 Logic Array Blocks (LAB), which can meet the design requirements of relatively complex logic circuits and enable the implementation of various digital logic functions, such as logic gates, registers, counters, etc.
Memory Resources: It has 576KB of Embedded Block RAM (EBR) and 136KB of Distributed RAM, which can be used for data storage, caching, and saving intermediate results, providing sufficient storage space for data processing.
I/O Resources: This chip has 186 input/output ports and supports multiple I/O standards and protocols, enabling high-speed and stable data transmission and communication with external devices.
Operating Voltage: The operating power supply voltage is 1.2V, and it supports multi-voltage standard I/O interfaces, which can adapt to the voltage requirements of different external circuits.
Package Form: It adopts a 256-pin Fine Pitch Ball Grid Array (FTBGA) package with a small package size, suitable for installation on circuit boards with limited space.
Operating Temperature Range: Generally, it is from -40°C to +85°C and can work normally under relatively harsh environmental conditions.
Maximum Clock Frequency: The maximum can reach up to 1080MHz, with high computing speed and data processing ability.
Feature Advantages:
High Performance: Abundant logic resources and a high clock frequency enable it to have excellent performance in large-scale computing, high-speed data transmission, etc., and can quickly handle complex logic operation and data processing tasks.
Low Power Consumption: Manufactured with a 45nm process, it reduces the power consumption of the chip while ensuring performance, suitable for application scenarios with high power consumption requirements, and supports dynamic voltage scaling technology to further optimize power consumption.
High Reliability: It has reliability assurance measures such as hardware redundancy design. In case of a fault, it can automatically switch to a standby function module to ensure the stability and reliability of the system, suitable for industrial control, military and other fields with high reliability requirements.
Flexibility: It supports multiple peripheral interfaces and protocols, with a high degree of flexibility and expandability, can meet the needs of different application scenarios, and is convenient for connection and communication with various external devices.
Easy to Design: Using Xilinx's Vivado and other development tools, it provides rich IP cores and design tools, facilitating the design, development and debugging of the chip by designers and shortening the product development cycle.
Application Fields:
Communication Field: It can be used in applications in communication systems such as high-speed data transmission, network routing, protocol conversion, and base station signal processing, and can meet the requirements of communication equipment for high-speed data processing and complex logic operations.
Industrial Control Field: In industrial automation control systems, it can be used to implement functions such as logic control, motion control, sensor data acquisition and processing, improving the degree of automation and efficiency of industrial production.
Military Field: Suitable for military applications such as radar signal processing, communication systems, and navigation systems. Its high reliability and high performance can meet the strict requirements of military equipment.
Medical Field: It can be used in medical image processing, medical equipment control, etc., providing support for the intelligence and high performance of medical equipment.
Consumer Electronics Field: In some consumer electronic products with high performance and function requirements, such as high-definition video players and game consoles, this chip can also be used to implement complex functions and high-speed data processing.
