From: Luke Kenneth Casson Leighton Date: Wed, 13 Oct 2021 15:24:48 +0000 (+0100) Subject: add 2nd test to see what is going on in layout_experiment X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=d3b5a2bf7ff5d74b263ab16a9a45f01ebeef3f95;p=ieee754fpu.git add 2nd test to see what is going on in layout_experiment --- diff --git a/src/ieee754/part/layout_experiment.py b/src/ieee754/part/layout_experiment.py index f7b3586e..47c71331 100644 --- a/src/ieee754/part/layout_experiment.py +++ b/src/ieee754/part/layout_experiment.py @@ -137,7 +137,7 @@ def layout(elwid, vec_el_counts, lane_shapes=None, fixed_width=None): assert part_wid * part_count == fixed_width, \ "calculated width not aligned multiples" width = fixed_width - print("part_wid", part_wid, "count", part_count) + print("part_wid", part_wid, "count", part_count, "width", width) # create the breakpoints dictionary. # do multi-stage version https://bugs.libre-soc.org/show_bug.cgi?id=713#c34 @@ -365,7 +365,44 @@ if __name__ == '__main__': pp, bitp, bm, b, c, d = \ layout(i, vec_el_counts, widths_at_elwidth, fixed_width=32) - pprint((i, (pp, bitp, bm, b, c, d))) + pprint((i, (pp, bitp, bin(bm), b, c, d))) + # now check that the expected partition points occur + print("11,8,5,8 pp keys", pp.keys()) + #assert list(pp.keys()) == [5,6,12,18] + + ###### ###### + ###### 2nd test, different from the above, elwid=0b10 ==> 11 bit ###### + ###### ###### + + # example "exponent" + vec_el_counts = { + 0: 1, # QTY 1x FP64 + 1: 2, # QTY 2x FP32 + 2: 4, # QTY 4x FP16 + 3: 4, # QTY 4x BF16 + } + widths_at_elwidth = { + 0: 11, # FP64 ew=0b00 + 1: 11, # FP32 ew=0b01 + 2: 5, # FP16 ew=0b10 + 3: 8 # BF16 ew=0b11 + } + + # expected results: + # + # |31| | |24| 16|15 | | 8|7 0 | + # |31|28|26|24| |20|16| 12| |10|8|5|4 0 | + # 32bit | x| x| x| | x| x| x|10 .... 0 | + # 16bit | x| x|26 ... 16 | x| x|10 .... 0 | + # 8bit | x|28 .. 24| 20.16| x|11 .. 8|x|4.. 0 | + # unused x x + + print ("11,8,5,8 elements (FP64/32/16/BF exponents)", widths_at_elwidth) + for i in range(4): + pp, bitp, bm, b, c, d = \ + layout(i, vec_el_counts, widths_at_elwidth, + fixed_width=32) + pprint((i, (pp, bitp, bin(bm), b, c, d))) # now check that the expected partition points occur print("11,8,5,8 pp keys", pp.keys()) #assert list(pp.keys()) == [5,6,12,18]