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Changes in reSID version 0.13
-----------------------------
The internal DC levels of the MOS6581 have been double checked and
corrected. The reason for the asymmetric scaling of the voice output
has been found; there is a DC offset from the waveform D/A converter
in addition to the DC offset from the envelope multiplying D/A
converter. No selected waveform (N=P=S=T=0) yields minimum wave output
level again.
A bug in the fast version of the envelope clocking has been corrected.
This bug could incorrectly invoke the ADSR delay emulation.
Changes in reSID version 0.12
-----------------------------
A bug causing incorrect sample spacing in the new SAMPLE_FAST sample
calculation has been corrected.
Audio clipping has been added to guard against sample overflows.
To support multi-channel sampling, sample interleaving has been added
to the clock() interface.
To support synchronization with an external timer, an interface for
sample rate adjustment has been added.
The internal DC levels have been corrected. No selected waveform
(N=P=S=T=0) yields maximum wave output level. Furthermore, each voice
in the MOS6581 independently contributes to the DC level in the mixer,
and the mixer itself has a small DC offset as well. The MOS8580 has no
DC offsets.
The spline interpolation routine has been generalized to accept
repeated points to introduce points of non-differentiability and
discontinuity.
A separate mapping from the FC registers to filter cutoff frequency
has been included for the MOS8580, and the mapping for the MOS6581 has
been refined.
Changes in reSID version 0.11
-----------------------------
A new clock() interface has been added. This function generates audio
samples into a buffer, greatly simplifying the task of writing driver
code for reSID. It also facilitates more advanced audio sample
generation, as described below.
Three clocking methods are available: clocking at output sample
frequency, clocking at cycle frequency with linear sample
interpolation, and clocking at cycle frequency with audio resampling.
Clocking at output sample frequency is fast, and yields acceptable
sound quality, except for the SID combined waveforms, which have a
very high frequency content.
Clocking at cycle frequency with linear sample interpolation is
approximately five to ten times slower at 44.1kHz sampling frequency,
but the sound quality is improved because of the linear sample
interpolation, and because some sampling noise is removed by the SID
external filter, which attenuates signals above 16kHz.
Finally, clocking at cycle frequency with audio resampling has a work
rate which is independent of the sampling frequency; it is rather
inversely proportional to the percentage of the bandwidth allocated
to the filter transition band. This implies that e.g. with the
transition band starting at ~ 20kHz, it is faster to generate 48kHz
than 44.1kHz samples.
Audio resampling is the theoretically correct method for sample
generation, and delivers SID sound quality previously unheard of. This
should make connoisseurs nod in appreciation, and for some time to
come it could possibly also make people tear their hair over having to
buy state of the art hardware to handle the obscene workload in real
time. By trading off passband bandwidth for speed, real time
processing is possible on current hardware. A 60% passband bandwidth
is within the reach of reasonably fast machines, while maximum sound
quality at 90% passband bandwidth, requiring four times the processing
power, is not. Yet.
Changes in reSID version 0.10
-----------------------------
Libtool is now used to build the library.
To keep the filters stable it is necessary to clock them at above
sample rate. The chip clocking code has been modified to only
"overclock" the filters, not the whole chip. This yields a
considerable speedup without noticeably lowering sound quality. Note
that this is aimed at slow hardware, if possible the 1 cycle clock
interface should be used to eliminate sampling noise.
Changes in reSID version 0.9
----------------------------
The sum of the filter outputs is no longer weighted.
Changes in reSID version 0.8
----------------------------
voice3off has no effect if voice 3 is routed through the filter.
Changes in reSID version 0.7
----------------------------
The audio output filter in the C64, external to the SID chip, has been
modeled.
The mapping function between the FC register and filter cutoff frequency can
now be specified with spline interpolation points. This facilitates
interactive modification of the mapping function by graphical presentation of
the interpolation curve. The implementation of this novel spline design is
fast and general purpose, and should be well suited for use in other projects
as well.
Filtered output has been inverted compared to unfiltered output.
Aging of the bus value obtained when reading write only registers has been
partly implemented.
To facilitate offline storage the complete state of SID can be read and
written.
Changes in reSID version 0.6
----------------------------
A special case in synchronization has been implemented.
The Autoconf script is cleaned up to allow compilation in a separate directory.
Changes in reSID version 0.5
----------------------------
Emulation of MOS8580 combined waveforms.
Version string resid_version_string provided for e.g. Autoconf tests.
The string has C linkage.
Changes in reSID version 0.4
----------------------------
The implementation of the ADSR delay bug has been refined and should now be
cycle exact.
The patch for VICE has been removed since VICE 0.15 will include reSID support.
Changes in reSID version 0.3
----------------------------
The reSID library has changed name from libmos6581.a to libresid.a
The pulse+sawtooth combined waveform has been corrected.
Pulse+test bit samples are implemented.
The envelope rate periods have finally been exactly determined.
A new SID bug, the ADSR boundary bug, has been discovered and implemented.
This bug makes it possible to step from envelope level 0x00 to 0xff or from
0xff to 0x00 in one step.
One-cycle optimized overloads of the clock() functions have been implemented
to facilitate sampling at 1MHz.
The code has been further optimized for speed.
Changes in reSID version 0.2
----------------------------
The implementation of the Envelope Generator has been rewritten to handle
the infamous ADSR delay bug. All known envelope related bugs have been
corrected.
The maximum filter resonance is lowered to keep the filter stable.
The reSID API has been simplified. Reading write only registers is allowed.
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