![]() 2002: Cambridge, MA, PC Chair: Salil P.2005: Berkeley, PC Chair: Luca Trevisan.2006: UPC, Barcelona, PC Chair: Josep Diaz.2007: Princeton, PC Chair: Omer Reingold.2010: UPC, Barcelona, PC Chair: Ronen Shaltiel.2011: Berkeley, PC Chair: Leslie Ann Goldberg.2013: Berkeley, PC Chair: Sofya Raskhodnikova.2014: UPC, Barcelona, PC Chair: Cristopher Moore.2016: IHP, Paris, PC Chair: Chris Umans.2019: MIT, PC Chair: Dimitris Achlioptas.2020: Virtual (due to Covid-19), PC Chair: Raghu Meka world premiere at Californias Berkeley Repertory Theatre in 2017 before going on to play Washington, D.C., Los Angeles, and Toronto.2021: Virtual (due to Covid-19), PC Chair: Mary Wooters.2022: Virtual, PC Chair: Amit Chakrabarti.Below are links to most of the original websites of the conferences: All Past ConferencesĪll past conferences of RANDOM are indexed in DBLP. RANDOM has been typically co-located with its sibling conference: The international Conference on Approximation Algorithms for Combinatorial Problems (APPROX), which was started in 1998 by Klaus Jansen, and focuses on algorithmic and complexity theoretic issues relevant to the development of efficient approximate solutions to computationally difficult problems. Jose served as the chair of the steering committee since 1997 till 2018, and closely monitored the organization of all annual meetings. It has since become an annual event, attracting researchers from all over the world. Rolim, with the purpose of presenting research in theory of computer science, focusing on applications of randomness to computational and combinatorial problems. Releases of MetaHipMer prior to Version 2 can be found at the HipMer download page.The International Conference on Randomization and Computation (RANDOM) was started in 1997 by Jose D.P. Department of Energy Office of Science and the National Nuclear Security Administration. MHM2 is developed and maintained by the Exabiome Project at Lawrence Berkeley National Laboratory, and is supported by the Exascale Computing Project (17-SC-20-SC), a collaborative effort of the U.S. Meyer et al., "Critical Assessment of Metagenome Interpretation: the second round of challenges", Nature Methods volume 19, pages429–440 (2022) Quality of MetaHipMer assemblies is comparable with other leading metagenome assemblers, as noted in the results of the CAMI2 competition, where MetaHipMer was rated first for quality in two out of three datasets, and second in the third dataset: Terabase-scale metagenome coassembly with MetaHipMer. Georganas et al., "Extreme Scale De Novo Metagenome Assembly," SC18: International Conference for High Performance Computing, Networking, Storage and Analysis, Dallas, TX, USA, 2018, pp. More information about MetaHipMer can be found in: UPC++ and CUDA, and runs efficiently on both single servers and on multinode supercomputers, where it can scale up to coassemble terabase-sized metagenomes. MetaHipMer is a de novo metagenome short-read assembler. For details on how to install and run MHM2, please consult the User guide. What's new in this release can be seen here. up to 4.5x at scale on the Summit supercomputer). Several stages now can take advantage of Nvidia GPUs, with significant performance improvements on systems with GPUs (e.g. January 24, 2022: a new release, version 2.1.0, is available. July 27, 2022: a bug fix patch to support building with newer compilers was released 2.1.0.1.
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