Extractors for Circuit Sources

Emanuele Viola
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引用次数: 65

Abstract

We obtain the first deterministic extractors for sources generated (or sampled) by small circuits of bounded depth. Our main results are:(1) We extract k poly( k / n d ) bits with exponentially small error from n-bit sources of min-entropy k that are generated by functions that are d-local, i.e., each output bit depends on at most d input bits. In particular, we extract from NC-zero sources, corresponding to d = O(1).(2) We extract k poly( k / n^(1.001) ) bits with super-polynomially small error from n-bit sources of min-entropy k that are generated by poly(n)-size AC-zero circuits. As our starting point, we revisit the connection by Trevisan and Vadhan (FOCS 2000) between circuit lower bounds and extractors for sources generated by circuits. We note that such extractors (with very weak parameters) are equivalent to lower bounds for generating distributions (FOCS 2010; with Lovett, CCC 2011). Building on those bounds, we prove that the sources in (1) and (2) are (close to) a convex combination of high-entropy "bit-block"sources. Introduced here, such sources are a special case of affine ones. As extractors for (1) and (2) one can use the extractor for low-weight affine sources by Rao (CCC 2009). Along the way, we exhibit an explicit n-bit boolean function bsuch that poly(n)-size AC-zero circuits cannot generate the distribution(X,b(X)), solving a problem about the complexity of distributions. Independently, De and Watson (RANDOM 2011) obtain a result similar to (1) in the special case d = o(log n).
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电路源提取器
我们获得了由有界深度的小电路生成(或采样)的源的第一个确定性提取器。我们的主要结果是:(1)我们从最小熵k的n位源中提取k个poly(k / nd)位,误差呈指数级小,这些最小熵k是由d局部函数生成的,即每个输出位最多依赖于d个输入位。特别是,我们从NC-zero源中提取,对应于d = O(1)。(2)我们从由poly(n)大小的交流零电路产生的最小熵k的n位源中提取k个具有超多项式小误差的poly(k / n^(1.001))位。作为我们的起点,我们重新审视Trevisan和Vadhan (FOCS 2000)在电路下界和电路产生的源的提取器之间的联系。我们注意到,这种提取器(具有非常弱的参数)相当于生成分布的下界(FOCS 2010;与洛维特,CCC 2011)。在这些边界的基础上,我们证明(1)和(2)中的源(接近)高熵“位块”源的凸组合。这里介绍的这种源是仿射源的一个特例。作为(1)和(2)的提取器,可以使用Rao (CCC 2009)的低权重仿射源提取器。在此过程中,我们展示了一个显式的n位布尔函数b,使得多(n)大小的交流零电路不能产生分布(X,b(X)),解决了分布的复杂性问题。独立地,De和Watson (RANDOM 2011)在d = o(log n)的特殊情况下得到了类似于(1)的结果。
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