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Computer series course experimental platform device based on dynamic part reconfigurable FPGA

A dynamic part and experimental platform technology, applied in teaching models, instruments, educational tools, etc., can solve problems such as inconvenient experimental design, poor functional flexibility, and difficult system upgrades, so as to improve flexibility, resource utilization, and system operation. The effect of fast speed and low design complexity

Inactive Publication Date: 2015-06-24
SHANDONG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the experimental platforms for courses such as computer composition principles and computer system structure generally include pure hardware structures with fixed functions implemented by general-purpose integrated circuits and static programmable structures implemented by single-chip microcomputers plus FPGA / CPLD or multi-chip FPGA / CPLD. The above-mentioned experimental platform has shortcomings such as poor functional flexibility, inconvenient experimental design, complex hardware structure, large volume, low reliability, and difficult system upgrades.

Method used

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  • Computer series course experimental platform device based on dynamic part reconfigurable FPGA
  • Computer series course experimental platform device based on dynamic part reconfigurable FPGA
  • Computer series course experimental platform device based on dynamic part reconfigurable FPGA

Examples

Experimental program
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Effect test

Embodiment 1

[0026] The computer series course experiment platform device based on dynamic partially reconfigurable FPGA includes hardware circuit system and PC; said hardware circuit system includes dynamic partially reconfigurable FPGA module, clock module, input module, display module, communication interface module power supply module And server; Described server is connected with remote PC and dynamic part reconfigurable FPGA module respectively; Clock module is connected with dynamic part reconfigurable FPGA module; Described local PC is connected with dynamic part reconfigurable FPGA module by communication interface module; The PC is a local PC; the dynamic partially reconfigurable FPGA module is connected to the local PC through a serial port and JTAG. The input module provides input signals for the FPGA; the display module is used to display the running results of the experimental platform; the power supply module provides the required power for the hardware platform device; the c...

Embodiment 2

[0031] The computer series course experiment platform device based on dynamic partially reconfigurable FPGA as described in embodiment 1, its difference is: described PC is remote PC; Described server is respectively connected with remote PC and dynamic partially reconfigurable FPGA module by network .

Embodiment 3

[0033] As described in Embodiment 1 or 2, the computer series course experiment platform device based on a dynamic partially reconfigurable FPGA is different in that: the dynamic partially reconfigurable FPGA adopts Xilinx's Virtex-5 series FPGA. Virtex-5 series FPGAs are powerful, cost-effective, and support the latest dynamic partially reconfigurable design methods.

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Abstract

The invention relates to a computer series course experimental platform device based on a dynamic part reconfigurable FPGA. The device comprises a hardware circuit system and a PC. The hardware circuit system comprises a dynamic part reconfigurable FPGA module, a clock module, an input module, a displaying module, a communication interface module and a power supply module. The dynamic part reconfigurable FPGA module comprises a control module, a storage module and an experimental area module. The clock module and the input module are connected with the I / O of the FPGA directly. The displaying module is connected with the I / O of the FPGA through a buffer. Parts of functions in the dynamic part reconfigurable FPGA can be changed dynamically during system working operation, and the fact that the functions of other parts are not affected is guaranteed. According to the computer series course experimental platform device, the connecting line complexity of a computer combination principle and a system structure experimental platform hardware circuit can be effectively lowered, occupied space is saved, system stability is improved, and improving and upgrading of the experimental platform can be well achieved.

Description

Technical field: [0001] The invention relates to a computer series course experiment platform device based on a dynamic partially reconfigurable FPGA, belonging to the technical field of computer teaching experiments. Background technique: [0002] Courses such as "Digital Logic Circuits", "Computer Composition Principles" and "Computer System Structure" are the core courses of computer majors. The experimental platform of computer series courses can make it easier for students to understand complex computer composition structures and operating principles, and improve students' autonomy. Ability to learn and innovate. At present, the experimental platforms for courses such as computer composition principles and computer system structure generally include pure hardware structures with fixed functions implemented by general-purpose integrated circuits and static programmable structures implemented by single-chip microcomputers plus FPGA / CPLD or multi-chip FPGA / CPLD. The above...

Claims

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Application Information

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IPC IPC(8): G09B23/18
CPCG09B23/186
Inventor 王祖强杨恒由芸徐辉刘荣兴
Owner SHANDONG UNIV
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