Towards completely automatic decoder synthesis

Hsiou-Yuan Liu, Yen-Cheng Chou, Chen-Hsuan Lin, J. H. Jiang
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引用次数: 5

Abstract

Upon receiving the output sequence streaming from a sequential encoder, a decoder reconstructs the corresponding input sequence that streamed to the encoder. Such an encoding and decoding scheme is commonly encountered in communication, cryptography, signal processing, and other applications. Given an encoder specification, decoder design can be error-prone and time consuming. Its automation may help designers improve productivity and justify encoder correctness. Though recent advances showed promising progress, there is still no complete method that decides whether a decoder exists for a finite state transition system. The quest for completely automatic decoder synthesis remains. This paper presents a complete and practical approach to automating decoder synthesis via incremental SAT solving and Craig interpolation. Experiments show that, for decoder-existent cases, our method synthesizes decoders effectively; for decoder-nonexistent cases, our method concludes the non-existence instantly while prior methods may fail.
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走向全自动解码器合成
当从顺序编码器接收输出序列流时,解码器重建流到编码器的相应输入序列。这种编码和解码方案通常在通信、密码学、信号处理和其他应用中遇到。给定编码器规范,解码器设计可能容易出错且耗时。它的自动化可以帮助设计人员提高生产力并证明编码器的正确性。尽管最近的进展显示出有希望的进展,但仍然没有完整的方法来确定有限状态转换系统是否存在解码器。对完全自动解码器合成的追求仍然存在。本文提出了一种完整而实用的方法,通过增量SAT求解和克雷格插值来自动合成解码器。实验表明,对于存在解码器的情况,我们的方法可以有效地综合解码器;对于解码器不存在的情况,我们的方法立即得出不存在的结论,而先前的方法可能会失败。
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