EP3SL50F484I4L

The advent of Field Programmable Gate Array (FPGA) technology has revolutionized modern society. Compared to microprocessors, FPGAs offer increased speed, lower power consumption and increased configurability & flexibility. These advantages, along with their general availability, have made the FPGA a favorite choice for many applications. The EP3SL50F484I4L is an example of a modern FPGA that has been designed with these properties in mind. This paper will discuss the application field and working principle of the EP3SL50F484I4L.The EP3SL50F484I4L is a FPGA from Altera. It is a medium to high density FPGA and can be used in a wide range of disciplines. The FPGA is well suited for embedded applications such as digital signal processing (DSP), robotics and automotive applications. It can also be used in high-speed networking, image processing, and high-performance computing. The FPGA can also be leveraged for rapid prototyping and design verification. The FPGA can be used to quickly create a working prototype of a system without the need to develop or purchase custom hardware or software.The EP3SL50F484I4L consists of nine logic layers and has a capacity of up to 12,352 logic cells. The FPGA incorporates an enhanced version of Altera’s UNITEA architecture and is manufactured using an advanced 0.18µm CMOS process. The FPGA also supports the M5K video coprocessor, making it well suited for video processing applications.The main advantage of an FPGA is its versatility. Unlike traditional microprocessors and circuits, FPGAs are programmed in software, allowing them to be reprogrammed to suit different applications. This makes the FPGA particularly suitable for rapid prototyping and for applications where different configurations are called for. The EP3SL50F484I4L also incorporates DSP blocks and is particularly well suited for digital signal processing applications.The main advantage of using an FPGA over traditional methods is the speed of design. With a traditional processor or circuit, a designer has to write the code, debug the code, program it into the hardware and test it. With an FPGA, the code is written and is debugging into the hardware at the same time, greatly reducing the design time.An FPGA is created by programming the logic cells of the FPGA with one or more logic functions. This can be done by either manually programming the logic cells or by using a programmable logic development board. Once the logic functions are programmed, the FPGA can be configured for the specific application.The EP3SL50F484I4L supports up to four different 3-stage architectures including four-input look up table (LUT), register to register (REG), register to memory (REM) and register to register or memory to memory (Remem). These architectures can be used to improve performance or to reduce power consumption.The EP3SL50F484I4L also supports up to eight different memory interfaces. This allows it to be used as a high performance storage device and can be used to store frequently used data and instructions.In conclusion, the EP3SL50F484I4L is a powerful FPGA and is well suited for many applications. The FPGA is particularly well suited for embedded applications due to its flexibility and the ability to quickly prototype a working system. Its flexibility comes from the DSP blocks and four different 3-stage architectures. Its ability to support up to eight memory interfaces makes it an excellent choice for high-performance storage applications.

EP3SE50F484I3	Intel FPGAs/...	0.69 $	1000	IC FPGA 296 I/O 484FBGA
EP3SE50F484I4L	Intel FPGAs/...	0.69 $	1000	IC FPGA 296 I/O 484FBGA
EP3SL70F484I3	Intel FPGAs/...	0.69 $	1000	IC FPGA 296 I/O 484FBGA
EP3SL70F484I4L	Intel FPGAs/...	0.69 $	1000	IC FPGA 296 I/O 484FBGA
EP3SL70F484C2	Intel FPGAs/...	0.69 $	1000	IC FPGA 296 I/O 484FBGA
EP3SE50F484C2G	Intel FPGAs/...	0.69 $	1000	484-PIN FBGA
EP3SL70F484I3G	Intel FPGAs/...	0.69 $	1000	484-PIN FBGA
EP3SL70F780I3	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SL70F780I4L	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SL70F780C2	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE50F780I3	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE50F780I4L	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE50F780C2	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE50F780I3G	Intel FPGAs/...	0.69 $	1000	780-PIN FBGA
EP3SL110F780C4N	Intel FPGAs/...	--	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F1152C4N	Intel FPGAs/...	0.69 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F780C4	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F780C4N	Intel FPGAs/...	574.62 $	3	IC FPGA 488 I/O 780FBGA
EP3SL110F1152C4	Intel FPGAs/...	0.69 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SE80F1152C4N	Intel FPGAs/...	98.5 $	1	IC FPGA 744 I/O 1152FBGA
EP3SE80F780C4	Intel FPGAs/...	0.69 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F1152C4	Intel FPGAs/...	0.69 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F780I4N	Intel FPGAs/...	--	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F780C3N	Intel FPGAs/...	--	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F1152I4N	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F1152C3N	Intel FPGAs/...	--	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F780I4	Intel FPGAs/...	1.39 $	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F780C3	Intel FPGAs/...	1.39 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F780C3N	Intel FPGAs/...	--	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F780I4N	Intel FPGAs/...	--	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F1152I4	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F1152C3	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SE80F1152C3N	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SE80F1152I4N	Intel FPGAs/...	--	1000	IC FPGA 744 I/O 1152FBGA
EP3SL110F780C4LN	Intel FPGAs/...	1.39 $	1000	IC FPGA 488 I/O 780FBGA
EP3SL110F1152C4LN	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SE80F780I4	Intel FPGAs/...	1.39 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F780C3	Intel FPGAs/...	1.39 $	1000	IC FPGA 488 I/O 780FBGA
EP3SE80F1152I4	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA
EP3SE80F1152C3	Intel FPGAs/...	1.39 $	1000	IC FPGA 744 I/O 1152FBGA