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+Date: Wed, 27 Mar 1996 01:31:50 CET +0100
+From: Christian Spieler (IKDA, THD, D-64289 Darmstadt)
+Subject: More detailed comparison of MSDOS Info-ZIP programs' performance
+
+Hello all,
+
+In response to some additional questions and requests concerning
+my previous message about DOS performance of 16/32-bit Info-ZIP programs,
+I have produced a more detailed comparison:
+
+System:
+Cx486DX-40, VL-bus, 8MB; IDE hard disk;
+DOS 6.2, HIMEM, EMM386 NOEMS NOVCPI, SMARTDRV 3MB, write back.
+
+I have used the main directory of UnZip 5.20p as source, including the
+objects and executable of an EMX compile for unzip.exe (to supply some
+binary test files).
+
+Tested programs were (my current updated sources!) Zip 2.0w and UnZip 5.20p
+- 16-bit MSC 5.1, compressed with LZEXE 0.91e
+- 32-bit Watcom C 10.5, as supplied by Kai Uwe Rommel (PMODE 1.22)
+- 32-bit EMX 0.9b
+- 32-bit DJGPP v2
+- 32-bit DJGPP v1.12m4
+
+The EMX and DJ1 (GO32) executables were bound with the full extender, to
+create standalone executables.
+
+A) Tests of Zip
+ Command : "<system>\zip.exe -q<#> tes.zip unz/*" (unz/*.* for Watcom!!)
+ where <#> was: 0, 1, 6, 9.
+ The test archive "tes.zip" was never deleted, this test
+ measured "time to update archive".
+
+ The following table contains average execution seconds (averaged over
+ at least 3 runs, with the first run discarted to fill disk cache);
+ numbers in parenteses specify the standard deviation of the last
+ digits.
+
+ cmpr level| 0 | 1 | 6 | 9
+ ===============================================================
+ EMX win95 | 7.77 | 7.97 | 12.82 | 22.31
+ ---------------------------------------------------------------
+ EMX | 7.15(40) | 8.00(6) | 12.52(25) | 20.93
+ DJ2 | 13.50(32) | 14.20(7) | 19.05 | 28.48(9)
+ DJ1 | 13.56(30) | 14.48(3) | 18.70 | 27.43(13)
+ WAT | 6.94(22) | 8.93 | 15.73(34) | 30.25(6)
+ MSC | 5.99(82) | 9.40(4) | 13.59(9) | 20.77(4)
+ ===============================================================
+
+ The "EMX win95" line was created for comparison, to check the performance
+ of emx 0.9 with the RSX extender in a DPMI environment. (This line was
+ produced by applying the "stubbed" EMX executable in a full screen DOS box.)
+
+
+B) Tests of UnZip
+ Commands : <system>\unzip.exe -qt tes.zip (testing performance)
+ <system>\unzip.exe -qo tes.zip -dtm (extracting performance)
+
+ The tes.zip archive created by maximum compression with the Zip test
+ was used as example archive. Contents (archive size was 347783 bytes):
+ 1028492 bytes uncompressed, 337235 bytes compressed, 67%, 85 files
+
+ The extraction directory tm was not deleted between the individual runs,
+ thus this measurement checks the "overwrite all" time.
+
+ | testing | extracting
+ ===================================================================
+ EMX | 1.98 | 6.43(8)
+ DJ2 | 2.09 | 11.85(39)
+ DJ1 | 2.09 | 7.46(9)
+ WAT | 2.42 | 7.10(27)
+ MSC | 4.94 | 9.57(31)
+
+Remarks:
+
+The executables compiled by me were generated with all "performance"
+options enabled (ASM_CRC, and ASMV for Zip), and with full crypt support.
+For DJ1 and DJ2, the GCC options were "-O2 -m486", for EMX "-O -m486".
+
+The Watcom UnZip was compiled with ASM_CRC code enabled as well,
+but the Watcom Zip example was made without any optional assembler code!
+
+
+
+Discussion of the results:
+
+In overall performance, the EMX executables clearly win.
+For UnZip, emx is by far the fastest program, and the Zip performance is
+comparable to the 16-bit "reference".
+
+Whenever "real" work including I/O is requested, the DJGPP versions
+lose badly because of poor I/O performance, this is the case especially
+for the "newer" DJGPP v2 !!!
+(I tried to tweak with the transfer buffer size, but without any success.)
+An interesting result is that DJ v1 UnZip works remarkably better than
+DJ v2 (in contrast to Zip, where both executables' performance is
+approximately equal).
+
+The Watcom C programs show a clear performance deficit in the "computational
+part" (Watcom C compiler produces code that is far from optimal), but
+the extender (which is mostly responsible for the I/O throughput) seems
+to be quite fast.
+
+The "natural" performance deficit of the 16-bit MSC code, which can be
+clearly seen in the "testing task" comparison for UnZip, is (mostly,
+for Zip more than) compensated by the better I/O throughput (due to the
+"direct interface" between "C RTL" and "DOS services", without any mode
+switching).
+
+But performance is only one aspect when choosing which compiler should
+be used for official distribution:
+
+Sizes of the executables:
+ | Zip || UnZip
+ | standalone stub || standalone | stub
+======================================================================
+EMX | 143,364 (1) | 94,212 || 159,748 (1) | 110,596
+DJ2 | 118,272 (2) | -- || 124,928 (2) | --
+DJ1 | 159,744 | 88,064 || 177,152 | 105,472
+WAT | 140,073 | -- || 116,231 | --
+MSC | 49,212 (3) | -- || 45,510 (3) | --
+
+(1) does not run in "DPMI only" environment (Windows DOS box)
+(2) requires externally supplied DPMI server
+(3) compressed with LZexe 0.91
+
+Caveats/Bugs/Problems of the different extenders:
+
+EMX:
+- requires two different extenders to run in all DOS-compatible environments,
+ EMX for "raw/himem/vcpi" and RSX for "dpmi" (Windows).
+- does not properly support time zones (no daylight savings time)
+
+DJv2:
+- requires an external (freely available) DPMI extender when run on plain
+ DOS; this extender cannot (currently ??) be bound into the executable.
+
+DJv1:
+- uses up large amount of "low" dos memory (below 1M) when spawning
+ another program, each instance of a DJv1 program requires its private
+ GO32 extender copy in low dos memory (may be problem for the zip
+ "-T" feature)
+
+Watcom/PMODE:
+- extended memory is allocated statically (default: ALL available memory)
+ This means that a spawned program does not get any extended memory.
+ You can work around this problem by setting a hard limit on the amount
+ of extended memory available to the PMODE program, but this limit is
+ "hard" and restricts the allocatable memory for the program itself.
+ In detail:
+ The Watcom zip.exe as distributed did not allow the "zip -T" feature;
+ there was no extended memory left to spawn unzip.
+ I could work around this problem by applying PMSETUP to change the
+ amount of allocated extended memory to 2.0 MByte (I had 4MB free extended
+ memory on my test system). But, this limit cannot be enlarged at
+ runtime, when zip needs more memory to store "header info" while
+ zipping up a huge drive, and on a system with less free memory, this
+ method is not applicable, either.
+
+Summary:
+
+For Zip:
+Use the 16-bit executable whenever possible (unless you need the
+larger memory capabilities when zipping up a huge amount of files)
+
+As 32-bit executable, we may distribute Watcom C (after we have confirmed
+that enabling ASMV and ASM_CRC give us some better computational
+performance.)
+The alternative for 32-bit remains DJGPP v1, which shows the least problems
+(to my knowledge); v2 and EMX cannot be used because of their lack of
+"universality".
+
+For UnZip:
+Here, the Watcom C 32-bit executable is probably the best compromise,
+but DJ v1 could be used as well.
+And, after all, the 16-bit version does not lose badly when doing
+"real" extraction! For the SFX stub, the 16-bit version remains first
+choice because of its much smaller size!
+
+Best regards
+
+Christian Spieler
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