The next steps » History » Version 6
ZHAI, Lili, 12/13/2016 08:21 AM
1 | 3 | SANCHEZ, Eduardo | h1. Next steps |
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2 | 1 | SANCHEZ, Eduardo | |
3 | 3 | SANCHEZ, Eduardo | Once the QPSK implementation in LabVIEW is completed, we have to integrate the DVB-S2 modems in the communication system to develop the emulator channel. In order to do this, we will port the main functions of the developed system on a FPGA. In this section, we describe how a FPGA works and the tool to program it: the LabVIEW FPGA Module. |
4 | 3 | SANCHEZ, Eduardo | |
5 | 5 | ZHAI, Lili | h2. FPGA |
6 | 5 | ZHAI, Lili | |
7 | 6 | ZHAI, Lili | Field-programmable gate arrays |
8 | 5 | ZHAI, Lili | |
9 | 6 | ZHAI, Lili | * theory (technical design) |
10 | 6 | ZHAI, Lili | * history(development) |
11 | 6 | ZHAI, Lili | * application |
12 | 6 | ZHAI, Lili | * architecture(basic process types) |
13 | 1 | SANCHEZ, Eduardo | |
14 | 2 | SANCHEZ, Eduardo | |
15 | 3 | SANCHEZ, Eduardo | h2. LabVIEW FPGA Module. |
16 | 4 | SANCHEZ, Eduardo | |
17 | 4 | SANCHEZ, Eduardo | Unlike the traditional development tools for FPGA systems which requires the use of low-level languages, this module allow us to use the LabVIEW graphical programming platform to develop software on a FPGA. This approach simplifies the task of interfacing to input-output and communicating data reducing the development time. In addition, LabVIEW provides numerous libraries developed by NI and Xilinx for a wide variety of functions and is fully equipped with debugging tools and. |