The design of system's hardware test platform is also presented for verification of its feasibility, and related test plans are introduced too.
为了验证设计的可行性,探讨了系统硬件测试平台的设计,并针对此平台介绍了其测试方案。
The analysis result shows that the design of hardware platform is the solid base of many kinds of algorithm verification, production design and SOC realization for image fusion.
分析结果表明,该硬件平台为多种融合算法验证、产品设计和SOC芯片级实现奠定了坚实的基础。
Functional verification which mostly relies on simulation is the major approach to ensuring the correctness of hardware design.
功能验证是保证设计正确性的重要手段,以模拟验证为主要方法。
And finally, simulation results and verification by hardware test in FPGA show that the design of the IP core is valid and the proposed optimization strategy to reduce the memory is effective.
对以上优化设计方案进行了设计实现。仿真结果及FPGA硬件测试验证表明,文章提出的优化方案可行、有效,极大地降低了硬件资源占用和功耗。
The method is applied in fingerprint verification system about examinee, whose principle and basic structure, software and hardware design are discussed in detail.
该方法适用于在指纹验证系统有关考生,其基本原理和结构,软件和硬件设计进行了详细讨论。
Therefore it is necessary to design a powerful image processing hardware platform which can provide the verification of the high-speed and real-time image processing algorithms.
从而高速实时性的图像处理算法迫切需要一个供其运行的功能强大的图像处理硬件平台进行验证。
The paper introduced the technology of IP Reuse, hardware and software co-design, SOC verification, measurement and low-power design on the SOC design.
介绍了SOC设计中的IP核可复用技术、软硬件协同设计技术、SOC验证技术、可测性设计技术以及低功耗设计技术。
The paper introduced the technology of IP Reuse, hardware and software co-design, SOC verification, measurement and low-power design on the SOC design.
介绍了SOC设计中的IP核可复用技术、软硬件协同设计技术、SOC验证技术、可测性设计技术以及低功耗设计技术。
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