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279 lines
12 KiB
Plaintext
/*
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* wm-FPU-emu an FPU emulator for 80386 and 80486SX microprocessors.
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*
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*
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* Copyright (C) 1992,1993,1994
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* W. Metzenthen, 22 Parker St, Ormond, Vic 3163,
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* Australia. E-mail billm@vaxc.cc.monash.edu.au
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* All rights reserved.
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*
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* This copyright notice covers the redistribution and use of the
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* FPU emulator developed by W. Metzenthen. It covers only its use
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* in the 386BSD, FreeBSD and NetBSD operating systems. Any other
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* use is not permitted under this copyright.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must include information specifying
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* that source code for the emulator is freely available and include
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* either:
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* a) an offer to provide the source code for a nominal distribution
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* fee, or
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* b) list at least two alternative methods whereby the source
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* can be obtained, e.g. a publically accessible bulletin board
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* and an anonymous ftp site from which the software can be
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* downloaded.
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* 3. All advertising materials specifically mentioning features or use of
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* this emulator must acknowledge that it was developed by W. Metzenthen.
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* 4. The name of W. Metzenthen may not be used to endorse or promote
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* products derived from this software without specific prior written
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* permission.
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*
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* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
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* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
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* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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* W. METZENTHEN BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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*
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* The purpose of this copyright, based upon the Berkeley copyright, is to
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* ensure that the covered software remains freely available to everyone.
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*
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* The software (with necessary differences) is also available, but under
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* the terms of the GNU copyleft, for the Linux operating system and for
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* the djgpp ms-dos extender.
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*
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* W. Metzenthen June 1994.
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*
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* $FreeBSD$
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*/
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wm-FPU-emu is an FPU emulator for Linux. It is derived from wm-emu387
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which is my 80387 emulator for djgpp (gcc under msdos); wm-emu387 was
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in turn based upon emu387 which was written by DJ Delorie for djgpp.
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The interface to the Linux kernel is based upon the original Linux
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math emulator by Linus Torvalds.
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My target FPU for wm-FPU-emu is that described in the Intel486
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Programmer's Reference Manual (1992 edition). Numerous facets of the
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functioning of the FPU are not well covered in the Reference Manual;
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in the absence of clear details I have made guesses about the most
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reasonable behaviour. Recently, this situation has improved because
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I now have some access to the results produced by a real 80486 FPU.
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wm-FPU-emu does not implement all of the behaviour of the 80486 FPU.
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See "Limitations" later in this file for a partial list of some
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differences. I believe that the missing features are never used by
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normal C or FORTRAN programs.
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Please report bugs, etc to me at:
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apm233m@vaxc.cc.monash.edu.au
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--Bill Metzenthen
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May 1993
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----------------------- Internals of wm-FPU-emu -----------------------
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Numeric algorithms:
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(1) Add, subtract, and multiply. Nothing remarkable in these.
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(2) Divide has been tuned to get reasonable performance. The algorithm
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is not the obvious one which most people seem to use, but is designed
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to take advantage of the characteristics of the 80386. I expect that
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it has been invented many times before I discovered it, but I have not
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seen it. It is based upon one of those ideas which one carries around
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for years without ever bothering to check it out.
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(3) The sqrt function has been tuned to get good performance. It is based
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upon Newton's classic method. Performance was improved by capitalizing
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upon the properties of Newton's method, and the code is once again
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structured taking account of the 80386 characteristics.
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(4) The trig, log, and exp functions are based in each case upon quasi-
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"optimal" polynomial approximations. My definition of "optimal" was
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based upon getting good accuracy with reasonable speed.
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The code of the emulator is complicated slightly by the need to
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account for a limited form of re-entrancy. Normally, the emulator will
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emulate each FPU instruction to completion without interruption.
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However, it may happen that when the emulator is accessing the user
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memory space, swapping may be needed. In this case the emulator may be
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temporarily suspended while disk i/o takes place. During this time
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another process may use the emulator, thereby changing some static
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variables (eg FPU_st0_ptr, etc). The code which accesses user memory
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is confined to five files:
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fpu_entry.c
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reg_ld_str.c
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load_store.c
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get_address.c
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errors.c
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----------------------- Limitations of wm-FPU-emu -----------------------
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There are a number of differences between the current wm-FPU-emu
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(version beta 1.4) and the 80486 FPU (apart from bugs). Some of the
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more important differences are listed below:
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All internal computations are performed at 64 bit or higher precision
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and rounded etc as required by the PC bits of the FPU control word.
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Under the crt0 version for Linux current at March 1993, the FPU PC
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bits specify 53 bits precision.
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The precision flag (PE of the FPU status word) and the Roundup flag
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(C1 of the status word) are now partially implemented. Does anyone
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write code which uses these features?
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The functions which load/store the FPU state are partially implemented,
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but the implementation should be sufficient for handling FPU errors etc
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in 32 bit protected mode.
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The implementation of the exception mechanism is flawed for unmasked
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interrupts.
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Detection of certain conditions, such as denormal operands, is not yet
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complete.
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----------------------- Performance of wm-FPU-emu -----------------------
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Speed.
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-----
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The speed of floating point computation with the emulator will depend
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upon instruction mix. Relative performance is best for the instructions
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which require most computation. The simple instructions are adversely
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affected by the fpu instruction trap overhead.
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Timing: Some simple timing tests have been made on the emulator functions.
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The times include load/store instructions. All times are in microseconds
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measured on a 33MHz 386 with 64k cache. The Turbo C tests were under
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ms-dos, the next two columns are for emulators running with the djgpp
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ms-dos extender. The final column is for wm-FPU-emu in Linux 0.97,
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using libm4.0 (hard).
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function Turbo C djgpp 1.06 WM-emu387 wm-FPU-emu
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+ 60.5 154.8 76.5 139.4
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- 61.1-65.5 157.3-160.8 76.2-79.5 142.9-144.7
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* 71.0 190.8 79.6 146.6
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/ 61.2-75.0 261.4-266.9 75.3-91.6 142.2-158.1
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sin() 310.8 4692.0 319.0 398.5
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cos() 284.4 4855.2 308.0 388.7
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tan() 495.0 8807.1 394.9 504.7
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atan() 328.9 4866.4 601.1 419.5-491.9
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sqrt() 128.7 crashed 145.2 227.0
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log() 413.1-419.1 5103.4-5354.21 254.7-282.2 409.4-437.1
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exp() 479.1 6619.2 469.1 850.8
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The performance under Linux is improved by the use of look-ahead code.
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The following results show the improvement which is obtained under
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Linux due to the look-ahead code. Also given are the times for the
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original Linux emulator with the 4.1 'soft' lib.
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[ Linus' note: I changed look-ahead to be the default under linux, as
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there was no reason not to use it after I had edited it to be
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disabled during tracing ]
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wm-FPU-emu w original w
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look-ahead 'soft' lib
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+ 106.4 190.2
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- 108.6-111.6 192.4-216.2
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* 113.4 193.1
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/ 108.8-124.4 700.1-706.2
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sin() 390.5 2642.0
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cos() 381.5 2767.4
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tan() 496.5 3153.3
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atan() 367.2-435.5 2439.4-3396.8
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sqrt() 195.1 4732.5
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log() 358.0-387.5 3359.2-3390.3
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exp() 619.3 4046.4
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These figures are now somewhat out-of-date. The emulator has become
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progressively slower for most functions as more of the 80486 features
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have been implemented.
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----------------------- Accuracy of wm-FPU-emu -----------------------
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Accuracy: The following table gives the accuracy of the sqrt(), trig
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and log functions. Each function was tested at about 400 points. Ideal
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results would be 64 bits. The reduced accuracy of cos() and tan() for
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arguments greater than pi/4 can be thought of as being due to the
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precision of the argument x; e.g. an argument of pi/2-(1e-10) which is
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accurate to 64 bits can result in a relative accuracy in cos() of about
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64 + log2(cos(x)) = 31 bits. Results for the Turbo C emulator are given
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in the last column.
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Function Tested x range Worst result (bits) Turbo C
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sqrt(x) 1 .. 2 64.1 63.2
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atan(x) 1e-10 .. 200 62.6 62.8
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cos(x) 0 .. pi/2-(1e-10) 63.2 (x <= pi/4) 62.4
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35.2 (x = pi/2-(1e-10)) 31.9
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sin(x) 1e-10 .. pi/2 63.0 62.8
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tan(x) 1e-10 .. pi/2-(1e-10) 62.4 (x <= pi/4) 62.1
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35.2 (x = pi/2-(1e-10)) 31.9
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exp(x) 0 .. 1 63.1 62.9
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log(x) 1+1e-6 .. 2 62.4 62.1
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As of version 1.3 of the emulator, the accuracy of the basic
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arithmetic has been improved (by a small fraction of a bit). Care has
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been taken to ensure full accuracy of the rounding of the basic
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arithmetic functions (+,-,*,/,and fsqrt), and they all now produce
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results which are exact to the 64th bit (unless there are any bugs
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left). To ensure this, it was necessary to effectively get information
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of up to about 128 bits precision. The emulator now passes the
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"paranoia" tests (compiled with gcc 2.3.3) for 'float' variables (24
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bit precision numbers) when precision control is set to 24, 53 or 64
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bits, and for 'double' variables (53 bit precision numbers) when
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precision control is set to 53 bits (a properly performing FPU cannot
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pass the 'paranoia' tests for 'double' variables when precision
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control is set to 64 bits).
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------------------------- Contributors -------------------------------
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A number of people have contributed to the development of the
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emulator, often by just reporting bugs, sometimes with a suggested
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fix, and a few kind people have provided me with access in one way or
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another to an 80486 machine. Contributors include (to those people who
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I have forgotten, please excuse me):
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Linus Torvalds
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Tommy.Thorn@daimi.aau.dk
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Andrew.Tridgell@anu.edu.au
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Nick Holloway alfie@dcs.warwick.ac.uk
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Hermano Moura moura@dcs.gla.ac.uk
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Jon Jagger J.Jagger@scp.ac.uk
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Lennart Benschop
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Brian Gallew geek+@CMU.EDU
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Thomas Staniszewski ts3v+@andrew.cmu.edu
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Martin Howell mph@plasma.apana.org.au
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M Saggaf alsaggaf@athena.mit.edu
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Peter Barker PETER@socpsy.sci.fau.edu
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tom@vlsivie.tuwien.ac.at
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Dan Russel russed@rpi.edu
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Daniel Carosone danielce@ee.mu.oz.au
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cae@jpmorgan.com
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Hamish Coleman t933093@minyos.xx.rmit.oz.au
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...and numerous others who responded to my request for help with
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a real 80486.
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