通过可配置的结构化ASIC合成可重新定位和可调整大小的SRAM

International Symposium on Quality Electronic Design (ISQED) Pub Date : 2013-03-04 DOI:10.1109/ISQED.2013.6523657

Hsin-Hung Liu, Rung-Bin Lin, I. Tseng

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引用次数: 2

摘要

结构化ASIC中的内存块通常是预先定制的，具有固定的大小并放置在预定义的位置。内存块的数量也是预先确定的。这对内存块的使用施加了严格的限制，经常造成容量不足或大量浪费的情况。为了消除这一限制，在本文中，我们提出了一种方法来创建可重新定位和可调整大小的SRAM块，使用相同的可配置逻辑块来实现逻辑门和6T SRAM单元。我们开发了一个SRAM编译器来合成这种类型的SRAM块。我们的单端口SRAM阵列使用的面积仅为基于触发器的SRAM阵列的1/3。对于双端口SRAM阵列，该比率为2/3。我们首次展示了在结构化ASIC上部署不同数量的可重新定位和可调整大小的SRAM块的可行性。

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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Relocatable and resizable SRAM synthesis for via configurable structured ASIC

Memory blocks in a structured ASIC are normally pre-customized with fixed sizes and placed at predefined locations. The number of memory blocks is also pre-determined. This imposes a stringent limitation on the use of memory blocks, often creating a situation of either insufficient capacity or considerable waste. To remove this limitation, in this paper we propose a method to create relocatable and resizable SRAM blocks using the same via-configurable logic block to implement both logic gates and 6T SRAM cells. We develop an SRAM compiler to synthesize SRAM blocks of this sort. Our single-port SRAM array uses only 1/3 the area taken by a flip-flop based SRAM array. For dual-port SRAM arrays, this ratio is 2/3. We demonstrate first time the feasibility of deploying a varying number of relocatable and resizable SRAM blocks on a structured ASIC.

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International Symposium on Quality Electronic Design (ISQED)

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