FPGA is currently very popular, and various colleges and universities have also opened FPGA courses, but FPGA is not suitable for everyone. What FPGA focuses on is an entry path and what path to access
That is to say, in the electronic design process, you have to start from the electronic design, and then learn FPGA, instead of starting from the VHDL, directly skipping the digital-electric model. this is very important and involves your future development height. I have been here, and I have a deep understanding of the deep connection between FPGA and the power of digital mode. for undergraduates, you can treat FPGA as an amateur interest, but not as a job for the future. You can keep this interest until graduate students finish reading it. from the perspective of my recruitment, I should have at least graduated students working on FPGA.
To do FPGA, you must learn and be interested. At least three years of learning can be used to master this technology. Why? I am dealing with FPGA every day, on the Xilinx official website, I read almost every English document. I have read the documents for two years before I can have the right to speak in this industry, I need to study FPGA for 14 hours every day, almost twice that of the average person. now I can say that I have mastered FPGA and can be used to do anything, CPU, switch, and so on. what's important is that I can use the same price to make the performance of a system more than 10 times that of the current situation. or, after reading something, I can make the system at a cost of 10 points. I am worried that I don't know what to do. the cost of using FPGA for the Gigabit Switch I designed is lower than that of general ASIC. as the research goes deeper, look at a rowCodeWe can imagine what logic circuit design is used, where is the combination logic, where is the trigger, and the VHDL language. The logic gate is designed. The more in-depth study of these things, the more profound the relationship with the circuit, the Code designed later is more like a 74 series. in this case, FPGA Performance will be maximized. in Spartan-3, the logic can be run to more than MHz, In the virtex-5, running MHz is no problem, the speed at which system reports are compiled is over 800 MHz at-1.
The written code is actually an understanding of the circuit. from the beginning to the end, I stressed that only good electronic design can be done well in FPGA. With the hardware foundation, if FPGA is well prepared, your income may grow exponentially.
FPGA is an advanced electrical tool. You can think that FPGA has mastered the entire electronic world.
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