Intel EP4CE75F29C7
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- EP4CE75F29C7
- Intel
- IC FPGA 426 I/O 780FBGA
- Embedded - FPGAs (Field Programmable Gate Array)
- EP4CE75F29C7 Datasheet
- 780-BGA
- 780-BGA
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Lead free / RoHS Compliant - 3663
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What is EP4CE75F29C7
Intel Part Number EP4CE75F29C7(Embedded - FPGAs (Field Programmable Gate Array)), developed and manufactured by Intel, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
EP4CE75F29C7 is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
EP4CE75F29C7 Specifications
- Part NumberEP4CE75F29C7
- CategoryEmbedded - FPGAs (Field Programmable Gate Array)
- ManufacturerIntel
- DescriptionIC FPGA 426 I/O 780FBGA
- Package780-BGA
- SeriesCyclone® IV E
- Voltage - Supply1.15 V ~ 1.25 V
- Operating Temperature0°C ~ 85°C (TJ)
- Mounting TypeSurface Mount
- Package / Case780-BGA
- Supplier Device Package780-FBGA (29x29)
- Number of I/O426
- Number of LABs/CLBs4713
- Number of Logic Elements/Cells75408
- Total RAM Bits2810880
Application of EP4CE75F29C7
EP4CE75F29C7 Datasheet
EP4CE75F29C7 Datasheet , 780-BGA,Cyclone® IV E,1.15 V ~ 1.25 V,0°C ~ 85°C (TJ),Surface Mount,780-BGA,780-FBGA (29x29),426,4713,75408,2810880
EP4CE75F29C7 Classification
Embedded - FPGAs (Field Programmable Gate Array)
FAQ about Embedded - FPGAs (Field Programmable Gate Array)
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1. Is FPGA faster than CPU?
FPGAs are faster than CPUs in some cases. FPGAs are programmable hardware devices whose internal architecture can be configured by users as needed, which enables them to process multiple computing tasks in parallel, resulting in higher computing performance in some scenarios.
FPGAs and CPUs have different architectures and design goals. CPUs are general-purpose processors that can perform a variety of tasks, but may require multiple clock cycles to process specific operations. FPGAs, on the other hand, achieve specific computing structures by reorganizing circuits, and have higher parallelism and efficiency. For example, when processing specific tasks such as signals and images, FPGAs can complete them faster than CPUs.
The main advantage of FPGAs is their programmability and flexibility. FPGAs can be reprogrammed and reconfigured as needed, which enables designers to quickly test new and updated algorithms without developing and releasing new hardware, thereby speeding up time to market and saving costs. In addition, FPGAs offer the advantages of superior performance and reduced latency, and are suitable for real-time applications that require low latency and deterministic latency. -
2. Is FPGA analog or digital?
FPGAs are digital. FPGAs (field programmable gate arrays) are integrated chips that are mainly digital circuits, not analog. FPGAs are a type of programmable logic device that processes digital signals instead of analog signals.
FPGAs are a type of programmable logic device, a type of programmable logic device (PLD). It solves the shortcomings of traditional custom circuits, while also overcoming the shortcomings of the limited number of gate circuits in the original programmable devices. FPGA is a product that is further developed on the basis of traditional logic circuits and gate arrays such as PAL (Programmable Logic Array), GAL (General Array Logic), and CPLD (Complex Programmable Logic Device).
The design process of FPGA includes the use of computer-aided design, by drawing schematic diagrams that implement user requirements, editing Boolean equations, or using hardware description languages as design inputs. Then after a series of conversion programs, automatic layout and routing, and simulation processes, the FPGA data file is finally generated to initialize the FPGA device. -
3. Why use FPGA as a digital controller?
The main reason for using FPGA as a digital controller is its flexibility and programmability. FPGA (Field Programmable Gate Array) is a chip whose internal structure can be changed through programming. It has high flexibility and programmability, which makes FPGA widely used in the field of digital controllers.
The flexibility of FPGA is reflected in the fact that its logic units can be configured to implement different logic functions. Users can use hardware description languages (such as VHDL or Verilog) to write programs to map logic functions to lookup tables (LUTs) and logic units inside FPGA. This flexibility allows FPGAs to adapt to different application requirements and can be reprogrammed as needed to adapt to new application scenarios.
In addition, FPGAs also have high-performance parallel computing capabilities and high-speed data processing capabilities, which makes it play an important role in digital signal processing, image processing, network communication and other fields. The parallel processing capabilities of FPGAs enable it to handle multiple tasks at the same time, improving overall processing efficiency.
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