Lines Matching refs:Notes
6822 # Notes: This will always generate one exception -- inexact. #
6833 # Notes: The usual case should take the branches 1.1 -> 1.3 -> 2.#
6858 # Notes: The calculation in 2.2 is really performed by #
6877 # Notes
6901 # Notes: a) In order to reduce memory access, the coefficients #
6917 # Notes: 2^(J/64) is stored as T and t where T+t approximates #
6932 # Notes: If AdjFlag = 0, we have X = Mlog2 + Jlog2/64 + R, #
6950 # Notes: For non-zero X, the inexact exception will always be #
6970 # Notes: Refer to notes for 2.2 - 2.6. #
6978 # Notes: Exp(X) will surely overflow or underflow, depending on #
6990 # Notes: This will return X with the appropriate rounding #
7001 # Notes: The usual case should take the branches 1.1 -> 1.3 -> 2.#
7005 # the comparisons, see the notes on Step 1 of setox. #
7016 # Notes: See the notes on Step 2 of setox. #
7023 # Notes: Applying the analysis of Step 3 of setox in this case #
7029 # Notes: a) In order to reduce memory access, the coefficients #
7045 # Notes: 2^(J/64) is stored as T and t where T+t approximates #
7064 # Notes: The various arrangements of the expressions give #
7078 # Notes: The idea is to return "X - tiny" under the user #
7087 # Notes: a) In order to reduce memory access, the coefficients #
7112 # Notes: 10.2 will always create an inexact and return -1 + tiny #
8123 # Implementation Notes: #
8785 # Notes: Default means round-to-nearest mode, no floating-point #
8789 # Notes: Even if X is denormalized, log(X) is always normalized. #
8799 # Notes: Default means round-to-nearest mode, no floating-point #
8812 # Notes: Default means round-to-nearest mode, no floating-point #
8816 # Notes: Even if X is denormalized, log(X) is always normalized. #
8826 # Notes: Default means round-to-nearest mode, no floating-point #
18218 # NOTES: #
21705 # other notes: #
22223 # Notes: the ext_grs uses the round PREC, and therefore has to swap d1
23596 # Implementation Notes:
24507 # Implementation Notes:
Indexes created Sat Oct 25 16:10:12 GMT 2025