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diff --git a/openpower/sv/biginteger/analysis.mdwn b/openpower/sv/biginteger/analysis.mdwn
index 6aebf874ba59338aff851d60c0c8588b51eebc6e..2583d794136f5b439604cc0fe0fd95e1b5a7a192 100644 (file)
--- a/openpower/sv/biginteger/analysis.mdwn
+++ b/openpower/sv/biginteger/analysis.mdwn
@@ -381,8 +381,8 @@ However when moving to 64-bit digits (desirable because the algorithm
 is `O(N^2)`) this in turn means that the estimate has to be computed
 from a *128* bit dividend and a 64-bit divisor.  Such an operation 
 simply does not exist in most Scalar 64-bit ISAs. Although Power ISA
-comes close with `divdeu` placing the dividend in the upper half
-of a 128-bit computation the lower half is zeros.  Again Power ISA
+comes close with `divdeu`, by placing the dividend in the upper half
+of a 128-bit computation, the lower half is zero.  Again Power ISA
 has a Packed SIMD instruction `vdivuq` which is a 128/128
 (quad) divide, not a 128/64.  Some investigation into
 soft-implementations of 128/128 or 128/64 divide show it to be typically