|Part Life Cycle Code||Active|
|Supply Voltage-Nom||1.2 V|
|Number of Inputs||500|
|Number of Outputs||500|
|Number of Logic Cells||50000|
|Number of CLBs||3125|
|Programmable Logic Type||FIELD PROGRAMMABLE GATE ARRAY|
|Supply Voltage-Max||1.25 V|
|Supply Voltage-Min||1.15 V|
|Operating Temperature-Max||100 °C|
|Operating Temperature-Min||-40 °C|
|Peak Reflow Temperature (Cel)||NOT SPECIFIED|
|Time@Peak Reflow Temperature-Max (s)||NOT SPECIFIED|
|Number of Terminals||484|
|Package Body Material||PLASTIC/EPOXY|
|Package Equivalence Code||BGA484,22X22,40|
|Package Style||GRID ARRAY|
|Terminal Pitch||1 mm|
|Seated Height-Max||2 mm|
|Ihs Manufacturer||INTEL CORP|
|Reach Compliance Code||compliant|
10M50DAF484I7P Datasheet Download
The chip model 10M50DAF484I7P is a powerful and versatile piece of technology, designed to be used in a variety of applications. It is suitable for high-performance digital signal processing, embedded processing, image processing, and other applications that require the use of HDL language. This chip model is also suitable for a range of networks and intelligent scenarios, making it a great choice for the future of intelligent systems.
The chip model 10M50DAF484I7P is designed with a number of features that make it ideal for a variety of applications. It has a compact size and low power consumption, making it suitable for use in embedded systems. It also has a high data processing speed, making it ideal for digital signal processing, image processing, and other high-performance applications. The chip model also features a range of advanced features, including a programmable logic array, instruction set architecture, and configurable memory.
In order to ensure the optimal performance of the chip model 10M50DAF484I7P, it is important to consider the specific design requirements. This includes ensuring that the chip model is compatible with the target system, as well as ensuring that the design meets the requirements of the application. It is also important to consider the power consumption of the chip model, as this can have a significant impact on the overall performance of the system.
Case studies can provide valuable insight into the performance of the chip model 10M50DAF484I7P. These can include actual applications of the chip model, or simulations of the chip model in various scenarios. These studies can provide invaluable information on the performance of the chip model in different contexts, as well as the potential of the chip model for various applications.
When using the chip model 10M50DAF484I7P, it is important to take certain precautions. This includes ensuring that the chip model is properly installed and configured, and that the design meets the requirements of the application. It is also important to ensure that the chip model is properly maintained, as this can help to ensure that the chip model performs optimally for the duration of its life.
The chip model 10M50DAF484I7P is a powerful and versatile piece of technology, designed to be used in a variety of applications. With its advanced features and a range of possible applications, the chip model 10M50DAF484I7P is well-suited for use in the era of fully intelligent systems. By considering the design requirements and taking the necessary precautions, the chip model 10M50DAF484I7P can be used to its full potential in a range of applications.
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