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   https://doi.org/10.1038/s41586-018-0025-2  

   Miller, T. B.; Chapman, S. C.; Aravena, M.; Ashby, M. L.; Hayward, C. C.; Vieira, J. D.; Weiß, A.; Babul, A.; Béthermin, M.; Bradford, C. M.; et al (April 2018, Nature)
2. A Combinatorial Proof of a Symmetry for a Refinement of the Narayana Numbers

   https://doi.org/10.37236/12681  

   Bóna, Miklós; Dimitrov, Stoyan; Labelle, Gilbert; Li, Yifei; Pappe, Joseph; Vindas-Meléndez, Andrés R; Zhuang, Yan (April 2025, The Electronic Journal of Combinatorics)

   We establish a tantalizing symmetry of certain numbers refining the Narayana numbers. In terms of Dyck paths, this symmetry is interpreted in the following way: if $$w_{n,k,m}$$ is the number of Dyck paths of semilength $$n$$ with $$k$$ occurrences of $UD$ and $$m$$ occurrences of $UUD$, then $$w_{2k+1,k,m}=w_{2k+1,k,k+1-m}$$. We give a combinatorial proof of this fact, relying on the cycle lemma, and showing that the numbers $$w_{2k+1,k,m}$$ are multiples of the Narayana numbers. We prove a more general fact establishing a relationship between the numbers $$w_{n,k,m}$$ and a family of generalized Narayana numbers due to Callan. A closed-form expression for the even more general numbers $$w_{n,k_{1},k_{2},\ldots, k_{r}}$$ counting the semilength-$$n$$ Dyck paths with $$k_{1}$$ $UD$-factors, $$k_{2}$$ $UUD$-factors, $$\ldots$$, and $$k_{r}$$ $$U^{r}D$$-factors is also obtained, as well as a more general form of the discussed symmetry for these numbers in the case when all rise runs are of certain minimal length. Finally, we investigate properties of the polynomials $$W_{n,k}(t)= \sum_{m=0}^k w_{n,k,m} t^m$$, including real-rootedness, $$\gamma$$-positivity, and a symmetric decomposition. 

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3. A tour of Gallifrey, a language for geodistributed programming

   Milano, Matthew; Recto, Rolph; Magrino, Tom; Myers, Andrew C. (January 2019, Summit on Advances in Programming Languages)

   Programming efficient distributed, concurrent systems requires new abstractions that go beyond traditional sequential programming. But programmers already have trouble getting sequential code right, so simplicity is essential. The core problem is that low-latency, high-availability access to data requires replication of mutable state. Keeping replicas fully consistent is expensive, so the question is how to expose asynchronously replicated objects to programmers in a way that allows them to reason simply about their code. We propose an answer to this question in our ongoing work designing a new language, Gallifrey, which provides orthogonal replication through restrictions with merge strategies, contingencies for conflicts arising from concurrency, and branches, a novel concurrency control construct inspired by version control, to contain provisional behavior. 

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4. A quick estimate for the volume of a polyhedron

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