Timing comparisons of kbuild 2.5 release 3.0 and existing 2.5.19
makefiles.
======================================================================
I don't care how fast a build is, if it is not accurate then the time
is wasted. Fortunately kbuild 2.5 is both fast and 100% accurate,
unlike the existing build system.
======================================================================
Full 2.5.19 config. The full config is too big for bzImage so build vmlinux.
Machine 1 - 4 x PIII @700 MHz, 1GB ram.
kbuild 2.5
make -f Makefile-2.5 -j4 allyes installable 14:11.39
make -f Makefile-2.5 -j4 00:07.94 [a]
rm drivers/net/wan/cosa.o (module)
make -f Makefile-2.5 -j4 00:10.79
rm drivers/net/wan/cosa.o
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:06.36 [b]
rm drivers/net/wan/cosa.o
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:04.51 [c]
rm vmlinux
make -f Makefile-2.5 -j4 00:41.80 [d]
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:03.48 [b]
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:01.63 [e]
[a] No spurious rebuilds in kbuild 2.5. 8 seconds to regenerate
the global makefile and determine that the entire kernel is up
to date.
[b] First use of NO_MAKEFILE_GEN=1 takes ~2 seconds to set up the
correct environment.
[c] Mainly the build time for cosa.o.
[d] Mainly the link time for vmlinux.
[e] 1.6 seconds to run the entire kernel makefile once it has been
built.
Existing kbuild. Slightly shorter .config because some of the 2.5.19
Makefiles are broken. The code compiles under kbuild 2.5 but not
under the 2.5.19 makefiles.
make oldconfig dep 00:55.21 [a]
make -j4 BUILD_MODULES=1 vmlinux 13:48.89
make -j4 BUILD_MODULES=1 vmlinux 04:51.24 [b]
make -j4 BUILD_MODULES=1 vmlinux 00:48.20 [c]
make -j4 BUILD_MODULES=1 vmlinux 00:43.15 [d]
[a] make dep is not parallel safe.
[b] No change from [a], but spurious rebuilds all over the place.
That's what you get for using recursive make instead of a
global makefile.
[c] No change from [b], but it still has spurious rebuilds.
[d] No change from [c], it rebuilt init files and relinked vmlinux
for no good reason.
Not only is the existing build system significantly slower than kbuild
2.5, it is also unreliable. It takes four builds to get a stable
result.
Total time to a stable result:
kbuild 2.5 14:11 (one pass)
Existing 21:00+ (four passes)
======================================================================
Minimal 2.5.19 config.
Machine 2 - 1 x PIII @550 MHz, 32MB ram.
kbuild 2.5
make -f Makefile-2.5 allno installable 03:53.16
make -f Makefile-2.5 00:19.89 [a]
rm vmlinux
make -f Makefile-2.5 00:26.08
make -f Makefile-2.5 NO_MAKEFILE_GEN=1 00:04.31 [b]
make -f Makefile-2.5 NO_MAKEFILE_GEN=1 00:01.38 [c]
[a] No spurious rebuilds in kbuild 2.5.
[b] First use of NO_MAKEFILE_GEN=1 takes ~2 seconds to set up the
correct environment.
[c] 1.38 seconds to run the entire kernel makefile once it has been
built.
Existing kbuild on same config.
make oldconfig dep 01:10.72
make BUILD_MODULES=1 vmlinux 02:43.88
make BUILD_MODULES=1 vmlinux 00:07.04
On a minimal configuration, the existing system is slightly faster.
But that comes at the expense of an unreliable build method on
parallel builds.
======================================================================
Medium 2.5.19 config.
Machine 2 - 1 x PIII @550 MHz, 32MB ram.
kbuild 2.5
make -f Makefile-2.5 oldconfig installable 10:26.88
make -f Makefile-2.5 00:27.58
Existing kbuild.
make BUILD_MODULES=1 oldconfig dep vmlinux 10:18.09
On a small machine, the two systems are comparable. But only kbuild
2.5 is accurate.
2:01.12
0:05.55
Medium 2.5.19 config.
Machine 1 - 4 x PIII @700 MHz, 1GB ram.
kbuild 2.5
make -f Makefile-2.5 oldconfig installable 02:01.12
make -f Makefile-2.5 00:05.55
Existing kbuild.
make oldconfig dep 00:44.87 [a]
make -j4 BUILD_MODULES=1 vmlinux 01:43.06
make -j4 BUILD_MODULES=1 vmlinux 00:36.28 [b]
make -j4 BUILD_MODULES=1 vmlinux 00:03.79 [c]
[a] make dep is not parallel safe.
[b] No change from [a], but spurious rebuilds all over the place.
That's what you get for using recursive make instead of a
global makefile.
[c] No change from [b], finally stable.
kbuild 2.5 is both faster and accurate.
======================================================================
The spurious rebuilds are not even deterministic. They depend on the
relative time that each directory is processed (which depends on the
system load and the number of processors) and the timestamps on the
files before you did the build. IOW, the spurious rebuilds depend on
what you did in the source tree last time.
Which raises the interesting question - how many of the rebuilds are
spurious and how many are really required?
To demonstrate the unreliable parallel build on an SMP box -
find -type f | xargs touch
make oldconfig dep
make -j4 BUILD_MODULES=1 vmlinux
make -j4 BUILD_MODULES=1 vmlinux
Don't be surprised if it rebuilds vmlinux even if nothing else changes.
There is a bug somewhere in the existing 2.5.19 makefiles that does not
get the rebuild rule right.
======================================================================
The fact that the existing rules generate spurious rebuilds is bad
enough. What is much worse is that they do not detect changes
correctly, so objects are not recompiled when they should be. Build a
config with all of ACPI turned on, run the existing rules until you get
a stable build (all spurious rebuilds have finished).
echo '#warning aclocal.h used' >> drivers/acpi/include/aclocal.h
make -j4 BUILD_MODULES=1 vmlinux
ACPI does not rebuild, even though its headers have changed.
======================================================================
I don't care how fast a build is, if it is not accurate then the time
is wasted. Fortunately kbuild 2.5 is both fast and 100% accurate,
unlike the existing build system.
Timing comparisons of kbuild 2.5 release 3.0 and existing 2.5.20
makefiles.
======================================================================
I don't care how fast a build is, if it is not accurate then the time
is wasted. Fortunately kbuild 2.5 is both fast and 100% accurate,
unlike the existing build system.
======================================================================
Full 2.5.20 config. The full config is too big for bzImage so build
vmlinux. This is a smaller config than 2.5.19, 2.5.20 introduced yet
more driver errors so fewer objects will build.
Machine 1 - 4 x PIII @700 MHz, 1GB ram.
kbuild 2.5
make -f Makefile-2.5 -j4 allyes installable 13:43.53
make -f Makefile-2.5 -j4 00:07.94 [a]
rm drivers/net/wan/cosa.o (module)
make -f Makefile-2.5 -j4 00:10.72
rm drivers/net/wan/cosa.o
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:06.30 [b]
rm drivers/net/wan/cosa.o
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:04.43 [c]
rm vmlinux
make -f Makefile-2.5 -j4 00:37.21 [d]
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:03.47 [b]
make -f Makefile-2.5 -j4 NO_MAKEFILE_GEN=1 00:01.57 [e]
[a] No spurious rebuilds in kbuild 2.5. 8 seconds to regenerate
the global makefile and determine that the entire kernel is up
to date.
[b] First use of NO_MAKEFILE_GEN=1 takes ~2 seconds to set up the
correct environment.
[c] Mainly the build time for cosa.o.
[d] Mainly the link time for vmlinux.
[e] 1.6 seconds to run the entire kernel makefile once it has been
built.
Existing kbuild. Slightly shorter .config because some of the 2.5.20
Makefiles are broken. The code compiles under kbuild 2.5 but not
under the 2.5.20 makefiles.
make oldconfig dep 00:54.89 [a]
make -j4 BUILD_MODULES=1 vmlinux 13:10.45
make -j4 BUILD_MODULES=1 vmlinux 05:24.95 [b]
make -j4 BUILD_MODULES=1 vmlinux 00:39.92 [c]
make -j4 BUILD_MODULES=1 vmlinux 00:10.43 [d]
[a] make dep is not parallel safe.
[b] No change from [a], but spurious rebuilds all over the place.
That's what you get for using recursive make instead of a
global makefile.
[c] No change from [b], but it still has spurious rebuilds.
[d] Finally a stable build.
Not only is the existing build system significantly slower than kbuild
2.5, it is also unreliable. It takes four builds to verify that you
have a stable result.
Total time to a stable result:
kbuild 2.5 13:43 (one pass)
Existing 20:00+ (four passes)
======================================================================
The spurious rebuilds are not even deterministic. They depend on the
relative time that each directory is processed (which depends on the
system load and the number of processors) and the timestamps on the
files before you did the build. IOW, the spurious rebuilds depend on
what you did in the source tree last time.
Which raises the interesting question - how many of the rebuilds are
spurious and how many are really required?
To demonstrate the unreliable parallel build on an SMP box -
find -type f | xargs touch
make oldconfig dep
make -j4 BUILD_MODULES=1 vmlinux
make -j4 BUILD_MODULES=1 vmlinux
======================================================================
The fact that the existing rules generate spurious rebuilds is bad
enough. What is much worse is that they do not detect changes
correctly, so objects are not recompiled when they should be. Build a
config with all of ACPI turned on, run the existing rules until you get
a stable build (all spurious rebuilds have finished).
echo '#warning aclocal.h used' >> drivers/acpi/include/aclocal.h
make -j4 BUILD_MODULES=1 vmlinux
ACPI does not rebuild, even though its headers have changed.
======================================================================
I don't care how fast a build is, if it is not accurate then the time
is wasted. Fortunately kbuild 2.5 is both fast and 100% accurate,
unlike the existing build system.