ECCC-Report TR23-092https://eccc.weizmann.ac.il/report/2023/092Comments and Revisions published for TR23-092en-usWed, 28 Jun 2023 16:25:21 +0300
Paper TR23-092
| Extracting Mergers and Projections of Partitions |
Swastik Kopparty,
Vishvajeet N
https://eccc.weizmann.ac.il/report/2023/092We study the problem of extracting randomness from somewhere random sources, and related combinatorial phenomena: partition analogues of Shearer's lemma on projections.
A somewhere-random source is a tuple $(X_1, \ldots, X_t)$ of (possibly correlated) $\{0,1\}^n$-valued random variables $X_i$ where for some unknown $i \in [t]$, $X_i$ is guaranteed to be uniformly distributed.
An $extracting$ $merger$ is a seeded device that takes a somewhere-random source as input and outputs nearly uniform random bits. We study the seed-length needed for extracting mergers with constant $t$ and constant error.
Since a somewhere-random source has min-entropy at least $n$, a standard extractor can also serve as an extracting merger. Our goal is to understand whether the further structure of being somewhere random rather than just having high entropy enables smaller seed length, and towards this we show:
$\cdot$ Just like in the case of standard extractors, seedless extracting mergers with even just one output bit do not exist.
$\cdot$ Unlike the case of standard extractors, it $is$ possible to have extracting mergers that output a constant number of bits using only constant seed. Furthermore, a random choice of merger does not work for this purpose!
$\cdot$ Nevertheless, just like in the case of standard extractors, an extracting merger which gets most of the entropy out (namely, having $\Omega(n)$ output bits) must have $\Omega(\log n)$ seed. This is the main technical result of our work, and is proved by a second moment strengthening of the graph-theoretic approach of Radhakrishnan and Ta-Shma to extractors.
All this is in contrast to the status for condensing mergers (where the output is only required to have high min-entropy), whose seed length/output-length tradeoffs can all be fully explained by using standard condensers.
Inspired by such considerations, we also formulate a new and basic class of problems in combinatorics: partition analogues of Shearer's lemma. We show basic results in this direction; in particular, we prove that in any partition of the $3$-dimensional cube $[0,1]^3$ into two parts, one of the parts has an axis parallel $2$-dimensional projection of area at least $3/4$.Wed, 28 Jun 2023 16:25:21 +0300https://eccc.weizmann.ac.il/report/2023/092