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引用次数: 7
摘要
LTE-A (Long Term Evolution Advanced)使用四种不同的循环冗余校验(CRC)来验证传输数据的完整性,这意味着收发器系统中每个CRC使用四个电路。本文介绍了一种新的算法,将这三个CRC电路合并为一个,以最小化收发器的总面积。这种方法将确保大大降低系统的动态功率。新电路以并行方式设计,并在Altera FPGA平台上进行了测试,以验证其功耗和使用的门数,因此,总尺寸减小。结果表明,使用的逻辑门的数量有很好的减少。
A multi polynomial CRC circuit for LTE-Advanced communication standard
Long Term Evolution Advanced (LTE-A) uses four different kinds of Cyclic Redundancy Check (CRC) to verify the integrity of the transmitted data, which implies using four circuits for each CRC in the transceiver system. In this paper, a novel algorithm is introduced to combine three of these CRC circuits into one in order to minimize the total area of the transceiver. This method will insure a considerable reduction in the dynamic power of the system. The new circuit is designed in a parallel fashion and is tested on an Altera FPGA platform to verify its power consumption and number of used gates hence, the total reduction in size. The result shows a good reduction in the number of used logic gates.
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