Author: Masaki Tagashira
Title: PhyloFold: Precise and Swift Prediction of RNA Secondary Structures to Incorporate Phylogeny among Homologs Document date: 2020_3_6
ID: l72x4wn3_34
Snippet: The rightmost column shows the ideal time complexity of each program where R is the number of homologs and N is the longest length of the homologs. The running time of the programs were measured when γ = 2 0 = 1 across the test set. All the parameter values of the programs were the same as Figure 3 . The computer used has an "Intel Xeon CPU" CPU with 64 threads and a clock rate of 2.30 GHz and 240 GB of RAM. The programs were run exploiting as m.....
Document: The rightmost column shows the ideal time complexity of each program where R is the number of homologs and N is the longest length of the homologs. The running time of the programs were measured when γ = 2 0 = 1 across the test set. All the parameter values of the programs were the same as Figure 3 . The computer used has an "Intel Xeon CPU" CPU with 64 threads and a clock rate of 2.30 GHz and 240 GB of RAM. The programs were run exploiting as many threads as possible to complete the benchmark in the shortest time.
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