在FPGA存储器阵列中实现逻辑:异构存储器架构

2002 IEEE International Conference on Field-Programmable Technology, 2002. (FPT). Proceedings. Pub Date : 2002-12-16 DOI:10.1109/FPT.2002.1188675

S. Wilton

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引用次数: 17

摘要

很明显，大型嵌入式可配置存储器阵列在未来的fpga中是必不可少的。嵌入式阵列提供了电路存储部分的高密度高速实现。不幸的是，它们要求FPGA供应商在制造时将器件划分为内存和逻辑资源。对于不使用所提供的所有存储的客户来说，这将导致芯片面积的浪费。如果将阵列配置为大型多输出rom，并用于实现逻辑，则无需浪费该芯片面积，实际上可以非常有效地使用该芯片面积。在本文中，我们研究了FPGA嵌入式阵列的架构如何影响其实现逻辑的能力。具体来说，我们关注的是包含不止一种大小的存储器阵列的体系结构。我们表明，这些异构架构导致逻辑的实现比只有一种大小的内存阵列的架构要密集得多。我们还证明了最好的异构架构包含2048位阵列和128位阵列。

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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Implementing logic in FPGA memory arrays: heterogeneous memory architectures

It has become clear that large embedded configurable memory arrays will be essential in future FPGAs. Embedded arrays provide high-density high-speed implementations of the storage parts of circuits. Unfortunately, they require the FPGA vendor to partition the device into memory and logic resources at manufacture-time. This leads to a waste of chip area for customers that do not use all of the storage provided This chip area need not be wasted, and can in fact be used very efficiently, if the arrays are configured as large multi-output ROMs, and used to implement logic. In this paper we investigate how the architecture of the FPGA embedded arrays affects their ability to implement logic. Specifically, we focus on architectures which contain more than one size of memory array. We show that these heterogeneous architectures result in significantly denser implementations of logic than architectures with only one size of memory array. We also show that the best heterogeneous architecture contains both 2048 bit arrays and 128 bit arrays.

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来源期刊

2002 IEEE International Conference on Field-Programmable Technology, 2002. (FPT). Proceedings.

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