Efficient Implementation of Carry-Save Adders in FPGAs

2009 20th IEEE International Conference on Application-specific Systems, Architectures and Processors Pub Date : 2009-07-07 DOI:10.1109/ASAP.2009.22

J. Hormigo, M. Ortiz, F. Quiles, Francisco J. Jaime, J. Villalba, E. Zapata

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引用次数: 33

Abstract

Most Field Programmable Gate Array (FPGA) devices have a special fast carry propagation logic intended to optimize addition operations. The redundant adders do not easily fit into this specialized carry-logic and, consequently, they require double hardware resources than carry propagate adders, while showing a similar delay for small size operands. Therefore, carry-save adders are not usually implemented on FPGA devices, although they are very useful in ASIC implementations. In this paper we study efficient implementations of carry-save adders on FPGA devices, taking advantage of the specialized carry-logic. We show that it is possible to implement redundant adders with a hardware cost close to that of a carry propagate adder. Specifically, for 16 bits and bigger wordlengths, redundant adders are clearly faster and have an area requirement similar to carry propagate adders. Among all the redundant adders studied, the 4:2 compressor is the fastest one, presents the best exploitation of the logic resources within FPGA slices and the easiest way to adapt classical algorithms to efficiently fit FPGA resources.

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fpga中免进位加法器的高效实现

大多数现场可编程门阵列(FPGA)器件都具有特殊的快速进位传播逻辑，旨在优化加法运算。冗余加法器不容易适应这种特殊的进位逻辑，因此，它们比进位传播加法器需要双倍的硬件资源，同时对小尺寸操作数显示类似的延迟。因此，进位保存加法器通常不会在FPGA器件上实现，尽管它们在ASIC实现中非常有用。本文利用专用的进位逻辑，研究了在FPGA器件上实现免进位加法器的有效方法。我们证明了用接近进位传播加法器的硬件成本来实现冗余加法器是可能的。具体来说，对于16位和更大的字长，冗余加法器显然更快，并且具有与进位传播加法器相似的面积要求。在所有研究的冗余加法器中，4:2压缩器是速度最快的一种，它能最好地利用FPGA片内的逻辑资源，也是最简单的方法来调整经典算法以有效地适应FPGA资源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 20th IEEE International Conference on Application-specific Systems, Architectures and Processors

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