不动点算法中多项式求值目标相关程序的自动综合

C. Mouilleron, Amine Najahi, G. Revy
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引用次数: 6

摘要

设计既快速又精确的程序是一个真正的挑战。因此,引入了CGPE工具,以帮助程序员在多项式求值的特殊情况下快速合成定点算法的数字认证代码。出于性能考虑,该工具生成的程序只使用无符号算术和加/减或乘操作,因此需要对定点操作数进行一些约束。当处理某些数学函数的实现时,这些选择非常适合,但是它们阻止处理更广泛的多项式求值问题。在本文中,我们首先公开了一个考虑有符号算法的严格的CGPE算法模型。然后,为了最大限度地利用高级指令,我们对该工具进行了多准则指令选择模块的增强。这允许我们根据不同的标准(如操作计数、计算延迟或准确性)优化生成的代码。最后,我们在操作计数上说明了这种技术,并且我们表明,在某些函数的合成代码中,它产生的操作数量平均减少了22.3%。我们还明确了一些实际的例子来展示使用基于准确性而不是基于延迟的指令选择的影响。
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Automated Synthesis of Target-Dependent Programs for Polynomial Evaluation in Fixed-Point Arithmetic
The design of both fast and numerically accurate programs is a real challenge. Thus, the CGPE tool was introduced to assist programmers in synthesizing fast and numerically certified codes in fixed-point arithmetic for the particular case of polynomial evaluation. For performance purposes, this tool produces programs using exclusively unsigned arithmetic and addition/subtraction or multiplication operations, thus requiring some constraints on the fixed-point operands. These choices are well-suited when dealing with the implementation of certain mathematical functions, however they prevent from tackling a broader class of polynomial evaluation problems. In this paper, we first expose a rigorous arithmetic model for CGPE that takes into account signed arithmetic. Then, in order to make the most out of advanced instructions, we enhance this tool with a multi-criteria instruction selection module. This allows us to optimize the generated codes according to different criteria, like operation count, evaluation latency, or accuracy. Finally, we illustrate this technique on operation count, and we show that it yields an average reduction of up to 22.3% of the number of operations in the synthesized codes of some functions. We also explicit practical examples to show the impact of using accuracy based rather than latency based instruction selection.
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