论文信息 - On the Expressiveness of LARA: A Unified Language for Linear and Relational Algebra

On the Expressiveness of LARA: A Unified Language for Linear and Relational Algebra

We study the expressive power of the LARA language -- a recently proposed unified model for expressing relational and linear algebra operations -- both in terms of traditional database query languages and some analytic tasks often performed in machine learning pipelines. We start by showing LARA to be expressive complete with respect to first-order logic with aggregation. Since LARA is parameterized by a set of user-defined functions which allow to transform values in tables, the exact expressive power of the language depends on how these functions are defined. We distinguish two main cases depending on the level of genericity queries are enforced to satisfy. Under strong genericity assumptions the language cannot express matrix convolution, a very important operation in current machine learning operations. This language is also local, and thus cannot express operations such as matrix inverse that exhibit a recursive behavior. For expressing convolution, one can relax the genericity requirement by adding an underlying linear order on the domain. This, however, destroys locality and turns the expressive power of the language much more difficult to understand. In particular, although under complexity assumptions the resulting language can still not express matrix inverse, a proof of this fact without such assumptions seems challenging to obtain.

[1] Dan Suciu,et al. LaraDB: A Minimalist Kernel for Linear and Relational Algebra Computation , 2017, BeyondMR@SIGMOD.

[2] Serge Abiteboul,et al. Foundations of Databases , 1994 .

[3] Stephen A. Cook,et al. A Taxonomy of Problems with Fast Parallel Algorithms , 1985, Inf. Control..

[4] Ronald Fagin,et al. On Monadic NP vs. Monadic co-NP , 1995, Inf. Comput..

[5] Alberto O. Mendelzon,et al. Low Complexity Aggregation in GraphLog and Datalog , 1990, Theor. Comput. Sci..

[6] Floris Geerts,et al. On the Expressive Power of Linear Algebra on Graphs , 2018, ICDT.

[7] Thomas Schwentick,et al. Research Directions for Principles of Data Management (Dagstuhl Perspectives Workshop 16151) , 2017, Dagstuhl Manifestos.

[8] Volker Markl,et al. Bridging the gap: towards optimization across linear and relational algebra , 2016, BeyondMR@SIGMOD.

[9] Dan Suciu,et al. Lara: A Key-Value Algebra underlying Arrays and Relations , 2016, ArXiv.

[10] Thomas Schwentick,et al. On Winning Ehrenfeucht Games and Monadic NP , 1996, Ann. Pure Appl. Log..

[11] Jan Van den Bussche,et al. On the Expressive Power of Query Languages for Matrices , 2017, ICDT.

[12] Thomas Schwentick,et al. Locality of Order-Invariant First-Order Formulas , 1998, MFCS.

[13] Leonid Libkin. Expressive Power of SQL , 2001, ICDT.

[14] Leonid Libkin,et al. Elements Of Finite Model Theory (Texts in Theoretical Computer Science. An Eatcs Series) , 2004 .