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An Asynchronous Parallel Approach to Sparse Recovery

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arxiv 1701.03458 v1 pith:MW5KKFGM submitted 2017-01-12 cs.LG cs.DC

An Asynchronous Parallel Approach to Sparse Recovery

classification cs.LG cs.DC
keywords sparseasynchronousparallelrecoverycostproblemssignalapproach
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Asynchronous parallel computing and sparse recovery are two areas that have received recent interest. Asynchronous algorithms are often studied to solve optimization problems where the cost function takes the form $\sum_{i=1}^M f_i(x)$, with a common assumption that each $f_i$ is sparse; that is, each $f_i$ acts only on a small number of components of $x\in\mathbb{R}^n$. Sparse recovery problems, such as compressed sensing, can be formulated as optimization problems, however, the cost functions $f_i$ are dense with respect to the components of $x$, and instead the signal $x$ is assumed to be sparse, meaning that it has only $s$ non-zeros where $s\ll n$. Here we address how one may use an asynchronous parallel architecture when the cost functions $f_i$ are not sparse in $x$, but rather the signal $x$ is sparse. We propose an asynchronous parallel approach to sparse recovery via a stochastic greedy algorithm, where multiple processors asynchronously update a vector in shared memory containing information on the estimated signal support. We include numerical simulations that illustrate the potential benefits of our proposed asynchronous method.

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