IEEE 802.11n现场可编程门阵列物理层实现

H. Setiawan, Y. Nagao, M. Kurosaki, H. Ochi
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引用次数: 11

摘要

寄存器转移电平(RTL)的开发是一个费时的步骤,对数字电路抽象函数的有效解释要求很高的勤奋和保真度。在本研究中,我们介绍并证明了基于模型的设计过程(MBDP)是一种有效且高效的方法来开发RTL复杂系统,如无线通信。利用MBDP流,我们解释、开发并验证了2009年底批准的新标准IEEE 802.11n无线局域网(WLAN)的物理层RTL。这项研究的结果是一个原型FPGA StratixII EP2S180,它可以作为2x2 MIMO WLAN正常工作,最大吞吐量为144mbps。
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IEEE 802.11n Physical Layer Implementation On Field Programmable Gate Array
Register transfer level (RTL) development is a time cost step that requires high diligence and fidelity to get the valid interpretation of abstraction function of digital circuit. In this research, we introduce and prove that Model-Based Design Process (MBDP) is an effective and efficient way to develop a RTL complex system such as wireless communication. Using MBDP flow, we interpret, develop, and verify the physical layer RTL of a new standard that ratified on the end 2009, i.e. IEEE 802.11n wireless local area network (WLAN). The result of this research is a prototyping FPGA StratixII EP2S180 that has properly worked as a 2x2 MIMO WLAN with maximum throughput 144 Mbps.
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