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引用次数: 0
摘要
在本文中,我们提出了一种逻辑合成技术,该技术除了最大限度地减少逻辑树结构的资源外,还可以实现延迟优化以及同时减少深度。尽管它是一种技术独立的方案,但它可以保证总体上实现更好的结果,即使在技术映射阶段之后也是如此,这一点从启发式的固有性质所获得的结果中可以看出。针对SPARTAN III FPGA逻辑家族(XC3S50-4PQ144)的实际结果表明,与现有文献方法相比,显式延迟优化平均约为9.11%,逻辑深度降低26.63%,资源利用率降低约38.59%
Simultaneous delay optimization and depth reduction in logic trees with minimum resources
In this paper, we propose a logic synthesis technique that achieves delay optimization along with simultaneous depth reduction, apart from minimizing resources for a logic tree structure. Although it is a technology-independent scheme, it is guaranteed to enable better results overall, even after the technology-mapping phase, as evident from the results obtained due to the inherent nature of the heuristic. The practical results derived by targeting a SPARTAN III FPGA logic family (XC3S50-4PQ144) show that there is an explicit delay optimization by about 9.11%, reduction in logic depth by 26.63% and decrease in resource utilization by around 38.59%, on an average, in comparison with existing methods in literature
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