[video output=day440 member=cmuratori stream_platform=twitch stream_username=handmade_hero project=code medium=speech title="Introduction to Function Approximation with Andrew Bromage" vod_platform=youtube id=0b68cEY2wKs guest=Pseudonym73 annotator=Miblo]
[16:20][@Pseudonym73][Subnormal numbers, the special-case numbers infinity, quiet NaN and signaling NaN, and the quality of being "algebraically closed"][:mathematics :"numeral system"]
[24:10][@Pseudonym73][Any questions?]
[24:35][Is it just a peculiarity of binary as a number system, that you can skip encoding the leading digit?][:mathematics :"numeral system"]
[26:06][@desuused][Q: Is there a representation for underflowing numbers?][:mathematics :"numeral system"]
[27:51][@Pseudonym73][Constants definitions in handmade_numerics.h][:mathematics :"numeral system" :research]
[30:22][@Pseudonym73][Constants definitions in C's float.h[ref
site=Wikibooks
page="C Programming/float.h"
url=https://en.wikibooks.org/wiki/C_Programming/float.h] as compared with those in handmade_numerics.h, with a special mention of machine epsilon][:mathematics :"numeral system" :research]
[33:32][@Pseudonym73][Describe the IEEEBinary32 union, ieee754_number_category enum and the special-case number functions][:mathematics :"numeral system" :research]
[36:48][@Pseudonym73][Describe Real32_Abs(), Real32_SetSign() and CategoryOfReal32()][:mathematics :"numeral system" :research]
[39:07][@Pseudonym73][Describe ExtractExponent() as similar to the CRT's frexp()[ref
site=MSDN
page=frexp
url=https://msdn.microsoft.com/en-us/library/w1xfschh.aspx] with an example of its use in a sqrt() function][:mathematics :"numeral system" :research]
[47:36][When multiplying a subnormal number by a power of two, does the floating point unit first shift the numbers into the normal range before incrementing the exponent?][:mathematics :"numeral system"]
[53:58][@Pseudonym73][Note the differing range of absolute values of the mantissa in text books (as used in handmade_numerics.h) and the CRT's frexp()[ref
[1:14:13][@Pseudonym73][How SlowDivision() finishes up its computation to the highest precision it can][:mathematics :research]
[1:16:54][@Pseudonym73][Note the difference between SlowDivision() and how our FPU performs division][:mathematics :research]
[1:19:13][@Pseudonym73][Calculating those polynomial approximations from SlowDivision(), with range illustrations in Mathematica][:mathematics :research]
[1:25:12][@Pseudonym73][Relative vs absolute error][:mathematics :research]
[1:26:43][@Pseudonym73][Plot the error function in Mathematica, with a mention of Chebyshev's Equioscillation theorem[ref
site=Wikipedia
page="Equioscillation theorem"
url=https://en.wikipedia.org/wiki/Equioscillation_theorem] and Chebyshev nodes[ref
[2:08:47][@Pseudonym73][Continued description of the XSinCosX table look up][:mathematics :research]
[2:10:38][@Pseudonym73][:Run calculate_sincos_tables and explain the result for .5][:mathematics]
[2:12:10][@Pseudonym73][Describe how FindSinCosAround() searches adjacent floating point numbers][:mathematics :research]
[2:15:55][Could you explain why part of the table version looks up into XSinCosX while the polynomial part is the same no matter where you are in the table?][:mathematics]
[2:17:10][@Pseudonym73][Further explain the table lookups of cos(a) and sin(a) and the sin(e) and cos(e) polynomial approximations][:mathematics :research]
[2:19:46][Since table lookups are hard in SIMD, what sort of stuff would you end up doing if you couldn't use a table?][:mathematics :optimisation]
[2:20:09][@Pseudonym73][Describe the experimental SinCos_QuadrantVersion()][:mathematics :optimisation :research]
[2:28:25][@x13pixels][Q: Why do C0, C2, C4, C6, etc. have more precision than can fit in a float?][:mathematics]
[2:29:32][@Pseudonym73][Describe ATan() and ATan2(), noting the current use of atan2 in [~hero Handmade Hero]][:mathematics :research]
[2:35:01][Determine to remove atan2 from [~hero Handmade Hero] with thanks to [@Pseudonym73 Andrew]][:mathematics]
[2:35:31][Q&A]
[2:36:24][@0b0000000000000][If the values are denormal, they will run way slower][:mathematics]
[2:36:46][@filiadelski][Q: What was the reason we couldn't do two's complement in the exponent?][:mathematics :"numeral system"]
[2:37:32][@0b0000000000000][sin and cos[ref
site="what-when-how"
page="The Multiplane Downshooter (Non-Traditional Animation Techniques) Part 1"
[2:41:32][@0b0000000000000][Unless you explicitly flush them to zero, they will run super slow][:mathematics]
[2:42:44][@spacealiens][Q: Is there a version of this maths source code anywhere, or will it be included in the [~hero Handmade Hero] project eventually?]
[2:43:17][@Pseudonym73][Note the educational nature of this sine and cosine implementation, with a mention of Cody-Waite reduction][:mathematics]
[2:45:43][@vateferfout][Q: Will you go through acos as well in a later stream?]
[2:46:10][@0b0000000000000][What is the guy speaking's username?]
[2:46:51][SSE denormal flushing]
[2:48:13][@0b0000000000000][I can show you some versions that are completely branchless without tables if you are interested][:mathematics]
[2:49:05][@sneakybob_wot][Q: Have you done a speed comparison vs the C versions?][:performance]
[2:50:34][@Pseudonym73][Re-emphasise the slowness of SlowDivision()][:mathematics :performance :research]
[2:52:55][@staythirsty90][Not industrial strength?! Why am I here??]
[2:53:15][@vateferfout][Q: To be sure, it means the SIMD intrinsics are not standards-compliant?]
[2:56:22][@Pseudonym73][Quote the Intel 64 and IA-32 Architectures Optimization Reference Manual:[ref
site="Intel"
page="Intel 64 and IA-32 Architectures Software Developer Manuals"
url=https://www-ssl.intel.com/content/www/us/en/processors/architectures-software-developer-manuals.html] "Although x87 supports transcendental instructions, software library implementation of transcendental function can be faster in many cases"][:isa :mathematics :performance :research]
[2:57:04][Thank you to [@Pseudonym73 Andrew] for walking us through sine and cosine, with closing thoughts on numerical approximations][:mathematics]