Controller estimation for FPGA target architectures during high-level synthesis

15th International Symposium on System Synthesis, 2002. Pub Date : 2002-10-02 DOI:10.1145/581199.581213

O. Bringmann, W. Rosenstiel, C. Menn

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引用次数: 16

Abstract

In existing synthesis systems, the influence of the area and delay of the controller is not or not sufficiently taken into account. But the controller can have a big influence, especially, if a certain data-path realization requires a huge number of states and/or control signals. This paper presents a new approach on controller estimation during high-level synthesis for FPGA-based target architectures. The estimator, presented in this paper can be invoked after or during every synthesis-step, i.e. allocation, scheduling and binding, respectively. By considering the controller influence on the overall area of a design, design space exploration can be made more accurate and less error prone. We present an approach for estimating area of the controller based on information which are easily accessible during each step of highlevel synthesis, so no explicit description of the controller, which usually will be generated after the binding, is necessary. This is particularly valuable in the allocation phase, where intensive design space explorations have to be done, based on fast and accurate estimates.

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高级合成过程中FPGA目标架构的控制器估计

在现有的综合系统中，没有或没有充分考虑控制器的面积和延迟的影响。但是控制器可能会产生很大的影响，特别是当某个数据路径的实现需要大量的状态和/或控制信号时。本文提出了一种基于fpga的目标体系结构高级综合中控制器估计的新方法。本文提出的估计器可以分别在每个合成步骤(即分配、调度和绑定)之后或过程中调用。通过考虑控制器对设计整体面积的影响，可以使设计空间探索更准确，更少出错。我们提出了一种基于信息估计控制器面积的方法，这些信息在高级综合的每个步骤中都很容易获得，因此不需要在绑定后生成控制器的显式描述。这在分配阶段尤其有价值，在此阶段必须根据快速和准确的估计进行密集的设计空间探索。

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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15th International Symposium on System Synthesis, 2002.

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