|Part Life Cycle Code||Obsolete|
|Supply Voltage-Nom||900 mV|
|Number of Inputs||1120|
|Number of Outputs||1120|
|Number of Logic Cells||337500|
|Programmable Logic Type||FIELD PROGRAMMABLE GATE ARRAY|
|Additional Feature||IT CAN ALSO OPERATE FROM 1.05 TO 1.15V SUPPLY|
|Clock Frequency-Max||717 MHz|
|Power Supplies||1.2/3.3 V|
|Supply Voltage-Max||940 mV|
|Supply Voltage-Min||860 mV|
|Qualification Status||Not Qualified|
|Operating Temperature-Max||85 °C|
|Number of Terminals||1760|
|Package Body Material||PLASTIC/EPOXY|
|Package Equivalence Code||BGA1760,42X42,40|
|Package Style||GRID ARRAY|
|Terminal Pitch||1 mm|
|Seated Height-Max||3.9 mm|
|Ihs Manufacturer||INTEL CORP|
|Reach Compliance Code||compliant|
EP3SL340F1760C4 Datasheet Download
The EP3SL340F1760C4 chip model is a high-performance, low-power, and cost-effective digital signal processor (DSP) designed for embedded applications. It is based on the Altera Stratix III FPGA family and is optimized for high-performance digital signal processing, embedded processing, image processing, and other applications. The EP3SL340F1760C4 chip model is capable of processing and controlling data at a high speed and with a low power consumption.
The EP3SL340F1760C4 chip model was designed with the intention of providing a cost-effective and reliable solution for embedded applications. It is equipped with an FPGA fabric that supports the Altera Stratix III FPGA family, and is designed to be highly configurable and upgradeable. The EP3SL340F1760C4 chip model is capable of being used for advanced communication systems, such as wireless communication and high-speed data transfer.
The EP3SL340F1760C4 chip model can be programmed using the VHDL language, which is a hardware description language that allows for the design and implementation of digital logic and hardware components. The EP3SL340F1760C4 chip model is designed to be highly configurable and upgradeable, allowing for the addition of new features and capabilities.
In order to ensure the proper functioning of the EP3SL340F1760C4 chip model, it is important to follow the design and implementation guidelines provided by Altera. It is also important to consider the power consumption of the chip model, as well as the clock speed and the number of logic elements that can be used. Additionally, it is important to consider the specific requirements of the application and to ensure that the design is optimized for the intended use.
Case studies and actual implementations of the EP3SL340F1760C4 chip model can be found in academic and industry publications. These case studies can provide valuable insight into the design and implementation of the chip model, as well as potential pitfalls and best practices. Additionally, there are a number of resources available online that provide detailed information about the design and implementation of the EP3SL340F1760C4 chip model.
In conclusion, the EP3SL340F1760C4 chip model is a powerful and cost-effective solution for embedded applications. It is highly configurable and upgradeable, and can be programmed using the VHDL language. It is important to follow the design and implementation guidelines provided by Altera, as well as to consider the power consumption, clock speed, and logic elements when designing the chip model. Additionally, case studies and actual implementations of the chip model can provide valuable insight into the design and implementation process.
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