ATF750C-15SC

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Embedded computing systems are designed to perform specific tasks with limited data resources and limited computational capabilities. Complex Programmable Logic Devices (CPLDs), also known as FPGAs, allow designers to customize and specialize the micro-architecture of a particular application. CPLDs are composed of several components such as memory, processor and logic elements, and compression. The ATF750C-15SC is one example of a CPLD whose application field and working principles provide insight into the immense potential of the device.

The CPLD development environment of the ATF750C-15SC includes a high-performance, low-power field-programmable gate array (FPGA). Due to its low power consumption and non-volatile memory, it is ideal for many embedded applications. The architecture of this CPLD provides high clock speed allowing for modular and independent data processing within the system. It also serves as an optimal platform for high-speed applications such as video encoding, audio processing, system control, and debug.

The ATF750C-15SC\'s logic blocks are designed to make the best use of bandwidth and system resources. The device features two register-flash-based non-volatile memories (NVMs) for block storage and 16Kbit of flash memory for system configuration and peripheral control. The CPLD also includes a programmable pin-swapping scheme enabling designers to assign up to 40 pins to specific functions, as well as a wide selection of predefined generic logic functions, including multiplexers, half-adders and shifters.

The programming of ATF750C-15SC is best explained visually. When a voltage is provided to the primary input, the current passes through the power rail and enters the logic gates. From there, the logic determines the output of a logic combination, which can be a different voltage, or an altered version of the preceding voltage. Logic gates act as the building blocks of logic sequencing and the number of logic gates that can be used is determined by the number of inputs. The device also features a recombinant technology called Field Programmable Object Array (FPOA). This technology allows for the strength of one group of logic gates to be increased and for the combination of two separate functions to be performed in a single operation.

The ATF750C-15SC also features a debug capability, allowing designers to identify, fix, or modify errors that may arise in the development process. This is done by trace and breakpoint functions, with the latter allowing designers to pause the circuit while data is being exchanged, giving them the ability to monitor and modify values. This function can also be used to bypass a corrupt section of the code, allowing the devices to resume normal operation.

The ATF750C-15SC is an example of a powerful and versatile CPLD. Its application field and working principles clearly demonstrate the potential of CPLDs in embedded computing applications. With its powerful design and resource conservation elements, this CPLD is an ideal choice for designers looking to increase performance, reduce latency, and improve system resource efficiency. The invention of devices such as the ATF750C-15SC is a testament to the power and possibilities of CPLDs and the embedded computing field in general.

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