Updated project metadata. We developed a unique multi-batch benchmarking dataset. The design is based on a standard two-species dilution model3,18,19 with mouse plasma used to create a background of potentially interfering peptides at 1:1 ratios while yeast cultures are mixed across a range of known ratios. For the purposes of investigating how best to combine isobaric batches the experiment is designed with two main goals. First, we needed multiple batches of data containing a wide range of known changes, with some large enough to test the dynamic range of our instrument, and others small enough to probe our capacity for detecting small perturbations. Second, we need a wide variety of batch compositions to better reflect the full set of patterns that we might observe when studying a random assortment of genetically diverse samples. To this end, yeast proteomes were diluted at eleven different levels of known changes with a maximum dilution of 1/32 by the use of an automated liquid handler. To generate a diversity of batch compositions across the proteome, we cultured yeast in various carbon and nitrogen source combinations known to substantially alter the yeast proteome20. Both media groups and dilution levels were randomly assigned throughout six batches of TMT-labeled samples