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author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 21 Sep 2024 20:48:58 +0000
parents cd1f0fa936cc
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Performance of libgsmefr and libtwamr, compared to competition
==============================================================

Both libgsmefr and libtwamr are based on reference C code from ETSI/3GPP:
libgsmefr is a librified version of GSM 06.53 reference code, and libtwamr is a
librified version of TS 26.073 reference code.  Both of those reference sources
were officially presented as simulations, not as production code for running on
general-purpose x86 servers implementing transcoding MGW functionality, and the
code is extremely inefficient.

The problem of poor performance (taking too much CPU percentage per transcoded
call) would not be so acute if Themyscira GSM codec libraries existed in a
vacuum without competition - but we do have a competitor in the form of
libopencore-amrnb, part of the slightly larger opencore-amr package.  Just like
libtwamr, that library is a derivative work based on the original AMR C code
from 3GPP, but by a more circuitous route: first PacketVideo created an
implementation of AMR for Android based on 3GPP reference code, then the
creators of opencore-amr took PV's Android implementation (named OpenCORE) and
ported it from Android to standard Unix/Linux userspace.

Aside from its peculiar genealogy, there are practical problems with
libopencore-amrnb that made it unattractive for Themyscira Wireless, and thus
created the impetus for producing the present alternative:

* That library implements only AMR and not EFR, whereas for ThemWi good support
  for EFR is a higher priority than good (or any) support for AMR.

* The idea of reshuffling bits in the manner of our gsm-amr2efr and gsm-efr2amr
  hack-utilities (see AMR-EFR-conversion article) in order to implement "poor
  man's EFR" via libopencore-amrnb was considered, but then rejected on
  philosophical and aesthetic grounds: it feels philosophically wrong to
  reshuffle bits in the application wrapper only to have internal code within
  the library shuffle them back into the natural order of codec parameters.

* Like any AMR-and-not-EFR library, libopencore-amrnb cannot grok EFR SID
  frames.  Therefore, an implementation of "poor man's EFR" using that library
  would have to operate with DTXu disabled, needlessly burning battery capacity
  in the MS.

* Even for "pure" AMR and not EFR, libopencore-amrnb exhibits one serious
  defect: it omits the in-band homing feature in both the encoder and the
  decoder, even though this feature is mandatory per 3GPP specs.  (It is not
  clear if this removal of homing functions was the work of PacketVideo in the
  world of Android, or if it happened at the time of subsequent opencore-amr
  port to standard Unix/Linux userspace.)  Furthermore, because the interface
  wrapper module of libopencore-amrnb does not expose any state reset functions,
  it is impossible to implement the homing feature externally to the library.
  This lack of homing makes it impossible to test libopencore-amrnb against the
  full set of 3GPP test sequences for AMR.

In the present time, as of this release of Themyscira gsm-codec-lib, libgsmefr
is intended for production use while libtwamr is intended for lab use only,
matching test sequences and modeling bit-exact operation of other people's
network elements in reverse engineering workflows.  Based on this difference in
applicability to production, more work has been put into improving performance
of libgsmefr compared to libtwamr.  Libgsmefr version 1.1.0 exhibits
approximately 2x performance improvement over the original version, but it is
still significantly slower than libopencore-amrnb.

The following performance numbers were obtained on Mother Mychaela's development
laptop, Intel Core2 Duo P8600 CPU @ 2.40 GHz, running 32-bit version of
Slackware, i.e., running only i686 code and not x86_64 despite the CPU having
the 'lm' feature.  All tests involve encoding TEST4.INP sequence from GSM 06.54
set (301 frames in total, 6.020 s audio duration), then decoding the output of
the encoder run.

Implementation	Encoding time	Decoding time
---------------------------------------------
libgsmefr	183 ms		23 ms
libtwamr	359 ms		52 ms
opencore-amr	 53 ms		13 ms
libgsmfr2 (FR)	 13 ms		 6 ms

FRv1 encoding and decoding of the same TEST4.INP was included in the test in
order to convince ourselves that FRv1 is not in any need of performance
optimization.  In a network deployment that generally prefers EFR over FRv1,
almost all calls between a local GSM MS and the outside world (PSTN) will
involve the EFR transcoder rather than FRv1.  If on rare occasion the network
selects FRv1 instead of EFR because the subscriber is using a super-old
non-EFR-capable handset (or has artificially restricted the speech version list
to FRv1 only), there will be some CPU cycles saved "for free" by using the much
less computationally expensive FRv1 codec - but CPU capacity planning for the
transcoding MGW has to be based on EFR performance numbers rather than FRv1.

In terms of EFR or MR122 encoder and decoder CPU cycle demand, libtwamr is
currently the worst performer; the first version of libgsmefr exhibited the
same poor performance.  The current version of libgsmefr exhibits somewhat
better performance because most saturation arithmetic "basic ops" have been
inlined (eliminating the use of a function call for every elementary operation),
and the implementation code of those newly-inlined functions has been
streamlined for performance, as much as possible with immediately obvious
programming methods.  The result is about 2x improvement over the original -
but sadly, still significantly slower than libopencore-amrnb on the same
machine with the same 32-bit execution mode and ABI.

Given that we (Themyscira Wireless) have a ton of other work tasks in our queue
besides the present problem of performance-optimizing libgsmefr to match
opencore-amr, this problem is currently shelved.  We are releasing our libraries
as they currently stand, with the ~2x improvement in libgsmefr over the original
but still not matching opencore-amr, and leaving the problem of further
performance improvement to be addressed later, after other work of higher
priority.