混合可变延迟进位跳加法器

2018 International Conference on Circuits and Systems in Digital Enterprise Technology (ICCSDET) Pub Date : 2018-12-01 DOI:10.1109/ICCSDET.2018.8821176

S. Jom, J. Asha

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引用次数: 1

摘要

混合可变延迟进位跳加器(hv1 - cska)是通过对串级递增进位跳加器(CI-CSKA)进行结构改进而得到的。CI-CSKA使用and - or - invert (AOI)逻辑和OR-AND-INVERT (OAI)逻辑作为跳过逻辑，而不是像传统进位跳加器那样使用多路复用器。虽然AOI和OAI逻辑与连接和增量方案一起有助于提高加法器的速度，但混合可变延迟结构有助于在不影响加法器速度的情况下降低功耗。由于全加法器是CSKA的主干，为了进一步提高CSKA的性能，采用高速、低功耗的全加法器结构取代了全加法器的基本结构。采用Xilinx ISE 14.7 Design suite和Vivado Design suite 2014.4软件进行仿真。实现硬件为Nexys 4 DDR Artix-7 FPGA板。根据功耗、时延、功率延迟积(PDP)和面积等参数对加法器的结构进行了比较。与常规CSKA和CI-CSKA相比，HVL-CSKA结构的延迟分别降低了22.08%和16.56%。与中央陆军的其他结构相比，它的功耗降低了70%。

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Hybrid Variable Latency Carry Skip Adder

The hybrid variable latency carry skip adder (HVL-CSKA) is obtained by structural modification of the concatenation and incrementation scheme carry skip adder (CI-CSKA). CI-CSKA uses AND-OR-INVERT (AOI) logic and OR-AND-INVERT (OAI) logic as the skip logic instead of multiplexers as in the conventional carry skip adder. While the AOI and OAI logic helps to improve the speed of the adder along with concatenation and incrementation schemes, the hybrid variable latency structure helps to decrease the power consumption without compromising the speed of the adder. Since full adders form the backbone of a CSKA, the basic structure of full adder (FA) is replaced by a high speed and low power structure for FA for further enhancement in the performance of CSKA. The simulations are carried out by using the software Xilinx ISE 14.7 Design suite and Vivado Design suite 2014.4. The hardware used for implementation is Nexys 4 DDR Artix-7 FPGA board. The structures of the adders are compared based on the parameters such as power dissipation, delay, Power-Delay Product (PDP) and area. HVL-CSKA structure shows a decrease of 22.08 percent and 16.56 percent in delay when compared to conventional CSKA and CI-CSKA respectively. While its power consumption is reduced by 70 percent when compared to other structures of CSKA.

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2018 International Conference on Circuits and Systems in Digital Enterprise Technology (ICCSDET)

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