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LFX1200B-4FN900C датащи(PDF) 3 Page - Lattice Semiconductor |
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LFX1200B-4FN900C датащи(HTML) 3 Page - Lattice Semiconductor |
3 / 115 page Lattice Semiconductor ispXPGA Family Data Sheet 3 Architecture Overview The ispXPGA architecture is a symmetrical architecture consisting of an array of Programmable Function Units (PFUs) enclosed by Input Output Groups (PICs) with columns of sysMEM Embedded Block RAMs (EBRs) distrib- uted throughout the array. Figure 1 illustrates the ispXPGA architecture. Each PIC has two corresponding sysIO blocks, each of which includes one input and output buffer. On two sides of the device, between the PICs and the sysIO blocks, there are sysHSI High-Speed Interface blocks. The symmetrical architecture allows designers to eas- ily implement their designs, since any logic function can be placed in any section of the device. The PFUs contain the basic building blocks to create logic, memory, arithmetic, and register functions. They are optimized for speed and flexibility allowing complex designs to be implemented quickly and efficiently. The PICs interface the PFUs and EBRs to the external pins of the device. They allow the signals to be registered quickly to minimize setup times for high-speed designs. They also allow connections directly to the different logic elements for fast access to combinatorial functions. The sysMEM EBRs are large, fast memory elements that can be configured as RAM, ROM, FIFO, and other stor- age types. They are designed to facilitate both single and dual-port memory for high-speed applications. These three components of the architecture are interconnected via a high-speed, flexible routing array. The routing array consists of Variable Length Interconnect (VLI) lines between the PICs, PFUs, and EBRs. There is additional routing available to the PFU for feedback and direct routing of signals to adjacent PFUs or PICs. The sysIO blocks consist of configurable input and output buffers connected directly to the PICs. These buffers can be configured to interface with 16 different I/O standards. This allows the ispXPGA to interface with other devices without the need for external transceivers. The sysHSI blocks provide the necessary components to allow the ispXPGA device to transfer data at up to 800Mbps using the LVDS standard. These components include serializing, de-serializing, and clock data recovery (CDR) logic. The sysCLOCK blocks provide clock multiplication/division, clock distribution, delay compensation, and increased performance through the use of PLL circuitry that manipulates the global clocks. There is one sysCLOCK block for each global clock tree in the device. |
Аналогичный номер детали - LFX1200B-4FN900C |
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Аналогичное описание - LFX1200B-4FN900C |
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