Allicdata Part #: | 5SGSMD5K1F40C1-ND |
Manufacturer Part#: |
5SGSMD5K1F40C1 |
Price: | $ 8.32 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Intel FPGAs/Altera |
Short Description: | IC FPGA 696 I/O 1517FBGA |
More Detail: | N/A |
DataSheet: | 5SGSMD5K1F40C1 Datasheet/PDF |
Quantity: | 1000 |
21 +: | $ 7.56000 |
Series: | Stratix® V GS |
Part Status: | Active |
Number of LABs/CLBs: | 172600 |
Number of Logic Elements/Cells: | 457000 |
Total RAM Bits: | 46769152 |
Number of I/O: | 696 |
Voltage - Supply: | 0.87 V ~ 0.93 V |
Mounting Type: | Surface Mount |
Operating Temperature: | 0°C ~ 85°C (TJ) |
Package / Case: | 1517-BBGA, FCBGA |
Supplier Device Package: | 1517-FBGA (40x40) |
Base Part Number: | 5SGSMD5 |
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.The term 5SGSMD5K1F40C1 describes an Field Programmable Gate Array (FPGA). FPGAs are a type of embedded systems, highly programmable logic devices that are dynamically reprogrammable and, as such, capable of doing different tasks. The 5SGSMD5K1F40C1 is an FPGA from Altera Corporation. Specifically, it is a 45-nanometer technology generation single module FPGA. Its predominant use is in such areas as server and communications solutions, medical, and aerospace and defense applications.
FPGAs have the ability to easily and quickly be reconfigured. This is why they are so useful in the areas listed earlier. They can be used to handle many different types of applications that would otherwise require multiple, complicated and specific hardware components. As such, they potentially reduce the cost and complexity of a given system. FPGAs are also known as reconfigurable computing, as they are able to adapt to the specific environment they are in. This ability to adapt gives them a greater level of versatility compared to other forms of computing.
An FPGA’s working principle is based around the concept of configuring the logic gates in order to achieve a desired result. Each and every FPGA contains an array of logic gates, usually referred to as the logic elements (LEs). These LEs come in a variety of different forms, from simple NAND gates to more complicated components such as Arithmetic-Logic-Unit (ALU) circuits. All of these components are connected together in a specific way, to create a logical structure. Each of the logic elements can then be configured in order to perform any specific set of operations required by the system.
The configuration of the logic elements is the job of the FPGA’s programmer. An FPGA programmer typically uses a hardware description language such as Verilog or VHDL, in order to create a ‘bitstream’ which is used to configure the logic elements in the FPGA. This bitstream is then transferred into the FPGA, either by a dedicated download link, or through program memory, depending on the device being used.
The 5SGSMD5K1F40C1 FPGA is capable of handling up to 576K logic elements. This makes it suitable for a wide range of applications, from high-performance signal processing and data transfer to very low-power, low-voltage signaling. Additionally, this device is capable of handling multiple clock domains and high-speed I/O operations. Its 45nm process technology also enables it to handle high bandwidth while still achieving relatively low power consumption.
The 5SGSMD5K1F40C1 FPGA utilizes the serial RapidIO protocol for communications between its logic elements. This protocol is inherently scalable, meaning that the device can be used in a variety of architectures, ranging from high performance computing clusters to large data centers. In addition, RapidIO enables a greater degree of flexibility in system design, allowing for high levels of customizability in the form of customizable system buses and interconnects.
In conclusion, the 5SGSMD5K1F40C1 FPGA can be used for a wide variety of applications. It is a highly programmable logic device that is dynamically reprogrammable, enabling it to handle multiple clock domains and high-speed I/O operations. Additionally, its use of the RapidIO protocol makes it suitable for large and complex systems. This makes it an essential component in many areas such as server and communications solutions, medical, and aerospace and defense applications.
The specific data is subject to PDF, and the above content is for reference
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5SGSMD3E3H29I4N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3E3H29C3N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3E2H29C3N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3H3F35I4N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 432 I/O 1152FBGA |
5SGSMD3H3F35C3N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 432 I/O 1152FBGA |
5SGSMD3E3H29I3LN | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3E3H29I3N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3E3H29C2LN | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3E3H29C2N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 360 I/O 780HBGA |
5SGSMD3H2F35C3N | Intel FPGAs/... | 1.39 $ | 1000 | IC FPGA 432 I/O 1152FBGA |
5SGSMD6N1F45C2LN | Intel FPGAs/... | 6.93 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD6N1F45C2N | Intel FPGAs/... | 6.93 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED6N1F45C2LN | Intel FPGAs/... | 6.93 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED6N1F45C2N | Intel FPGAs/... | 6.93 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD8K3F40I3 | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD8K2F40I3LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD8K2F40I3N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD8K2F40C2LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD8K2F40C2N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED6N2F45C2L | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED6N2F45C2 | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED6N2F45I3L | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED8K3F40I3L | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K3F40I3 | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K2F40C2N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K2F40I3LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K2F40I3N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K2F40C2LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSED8K3F40C2L | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD5K1F40C1N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD5K2F40C1 | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 696 I/O 1517FBGA |
5SGSMD8N2F45C2LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD8N2F45C2N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD8N2F45I3LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD8N2F45I3N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSMD8N3F45I3L | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED8N2F45C2LN | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
5SGSED8N2F45C2N | Intel FPGAs/... | 7.62 $ | 1000 | IC FPGA 840 I/O 1932FBGA |
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