update readme

readme.md

@@ -77,7 +77,7 @@ author--has not yet been necessary.
 There have been some studies which show that [auction algorithms](https://en.wikipedia.org/wiki/Auction_algorithm) for the assignment problem can have superior performance in
 real-world implementations, due to their simplicity, than more complex algorithms with better theoretical asymptotic
 performance. The author has implemented a basic forward auction algorithm, which produces optimal assignment for unbalanced bipartite graphs with 
-integer weights. To allow for unbalanced assignment, this algorithim eschews epsilon-scaling, 
+integer weights. To allow for unbalanced assignment, this algorithm eschews epsilon-scaling, 
 and as a result is prone to "bidding-wars" which increase run time, making it less efficient than the implementation of 
 the Fredman-Tarjan algorithm in JGraphT. A forward/reverse auction algorithm as developed by Bertsekas and Castañon
 should be able to handle unbalanced (or, as they call it, asymmetric) assignment much more efficiently, but has yet to be 
@@ -483,8 +483,9 @@ Several BiGpairSEQ simulations were performed on a home computer with the follow
 * Linux Mint 21 (5.15 kernel)
 
 ### SAMPLE PLATES WITH VARYING NUMBERS OF CELLS PER WELL
-NOTE: these results were obtained with an earlier version of BiGpairSEQ_Sim, and should be re-run with the current version.
-The observed behavior is not believed to be likely to change, however.
+
+The probability calculations used by pairSEQ require that every well on the sample plate contain the same number of T cells.
+BiGpairSEQ does not share this limitation; it is robust to variations in the number of cells per well.
 
 A series of BiGpairSEQ simulations were conducted using a cell sample file of 3.5 million unique T cells. From these cells,
 10 sample plate files were created. All of these sample plates had 96 wells, used an exponential distribution with a lambda of 0.6, and
@@ -501,6 +502,9 @@ The well populations of the plates were:
 All BiGpairSEQ simulations were run with a low overlap threshold of 3 and a high overlap threshold of 94.
 No optional filters were used, so pairing was attempted for all sequences with overlaps within the threshold values.
 
+NOTE: these results were obtained with an earlier version of BiGpairSEQ_Sim, and should be re-run with the current version.
+The observed behavior is not believed to be likely to change, however.
+
 Constant well population plate results:
 
 | |1000 Cell/Well Plate|2000 Cell/Well Plate|3000 Cell/Well Plate|4000 Cell/Well Plate|5000 Cell/Well Plate