TooB NAM v1.1.66 (aarch64)
This commit is contained in:
@@ -93,7 +93,7 @@ cabir:impulseFile3
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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TooB Cab IR is a convolution-based guitar cabinet impulse response simulator.
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@@ -50,7 +50,7 @@ toob:frequencyResponseVector
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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mod:brand "TooB";
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mod:label "TooB CabSim";
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@@ -53,7 +53,7 @@ toobimpulse:impulseFile
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Convolution reverb is a notoriously compute-intensive effect. If you are having performance issues, use the Max T control to constrain the length of the impulse file to
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@@ -51,7 +51,7 @@ toobimpulse:impulseFile
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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@@ -66,7 +66,7 @@ inputStage:filterGroup
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doap:license <https://two-play.com/TooB/licenses/isc> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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mod:brand "TooB";
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mod:label "TooB Input";
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@@ -68,7 +68,7 @@ pstage:stage3
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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mod:brand "TooB";
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mod:label "Power Stage";
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@@ -57,7 +57,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment "TooB spectrum analyzer" ;
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mod:brand "TooB";
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@@ -57,7 +57,7 @@ tonestack:eqGroup
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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uiext:ui <http://two-play.com/plugins/toob-tone-stack-ui>;
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Binary file not shown.
Executable → Regular
@@ -40,7 +40,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Emulation of a Boss CE-2 Chorus.
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@@ -41,7 +41,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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A straightforward no-frills digital delay.
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@@ -41,7 +41,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Emulation of a Boss BF-2 Flanger, based on circuit analysis and simulation of the original.
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@@ -41,7 +41,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Digital emulation of a Boss BF-2 Flanger.
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@@ -41,7 +41,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Toob Freeverb is an Lv2 implementation of the famous Freeverb reverb effect. FreeVerb delivers a well-balanced reverb with very little tonal coloration.
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@@ -41,7 +41,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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A 7 octave graphic equalizer, with frequencies chosen to be useful for EQ-ing guitar signals.
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""" ;
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@@ -92,7 +92,7 @@ myprefix:output_group
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doap:license <https://opensource.org/license/mit/> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 1 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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ui:ui <http://two-play.com/plugins/toob-looper-four-ui>;
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@@ -78,7 +78,7 @@ myprefix:output_group
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doap:license <https://opensource.org/license/mit/> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 1 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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ui:ui <http://two-play.com/plugins/toob-looper-one-ui>;
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@@ -67,7 +67,7 @@ toobml:sagGroup
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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The TooB ML Amplifier plugin provides emulation of a variety of amplifiers and overdrive pedals that are implemented
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using neural-network-based machine learning models of real amplifiers.
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@@ -40,7 +40,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Remix a stereo input signal.
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@@ -61,63 +61,66 @@ toobNam:eqGroup
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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A port of Steven Atkinson's Neural Amp Modeler to LV2.
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TooB Neural Amp Modeler is a neural network based Amp Simulator. It uses .nam model files that are generated by training nueral networks
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on audio recordings of actual guitar amps, effects pedals and other equipment. .nam files contain data from the trained models, which can be loaded into
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TooB Neural Amp Modeler. The resulting models produce startlingly realistic emulations of the original equipment.
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TooB Neural Amp Modeler uses uploadable .nam model files. Download .nam model files from http://tone3000.com, and then load them into TooB Neural Amp Modeler.
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The .nam file format (and the NAM technology itself) was developed by the open-source Neural Amp Modeler Core project. The NAM Core project provides both code that can be used by Neural Amp Modeler
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plugins, and code that can be used to train models for use in NAM plugins. Currently, NAM plugins are available on a wide variety of operating systems and audio platforms, and are
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increasingly being used in commercial pedals and amps.
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The TONE3000 website contains a huge collection of community-developed amp models that can be used with TooB Neural Amp Modeler. You can also use .nam models from
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other sources. Using TONE3000 models with TooB Neural Amp Modeler is a two-step process. First, download model files to your local system using a
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Although NAM is, first and foremost, used to model guitar amps, it is equally good at emulating a wide variety of other guitar effects. Overdrive and distortion pedals,
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compressors, limiters, tube preamps on studio mixing strips, and many other effects can be simulated extremely well using NAM models. NAM will definitely become
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your go-to source for great amp emulations; but it should probably also become your go-to source for emulating distorion and overdrive pedals. And developers
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are constantly coming up with new and ingenious applications for NAM models.
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.nam model files can be donwloaded from the internet. There are many online sources for .nam model files, both free, and commercial. Foremost among these is the
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http://tone3000.com website, which provides a vast collection of free .nam models files that have been developed and uploaded by a large online community of NAM users.
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Loading .nam model files into PiPedal is a two-step process. First, download model files to your local computer, or your phone or tablet, using a
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web browser. Then upload the model files to the PiPedal server using the PiPedal web interface. You can find an "Upload" button in
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the file browser when you click on the "Model" control in the PiPedal web interface.
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the file browser when you click on the "Model" control in the plugin's user interface within the PiPedal web interface.
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If you are not using PiPedal, just click on the Model control, and use the file browser to select the .nam file directly on your local system.
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TooB Neural Amp Modeler supports a much wider range of amp models than ToobML, but usually uses more CPU.
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You will need at least a Pi 4 to use Toob Neural Amp Modeler, and you may need to increase your audio buffer sizes to prevent overruns.
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If you are having trouble with CPU usage, tone3000.com does contain some smaller amp models. Search for the "feather" tag to find
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models that use less CPU. Generally, you can use up to three NAM models at once in a given preset on a Pi 4, and up to 5 MAM models
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simultaneously on a Pi 5. N100 micro PCs could presumably do even better. However, exact CPU use varies depending on the complexity of the amp models you are using.
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Users have reported success using NAM on Raspberry Pi 3 devices, but this is not recommended (or really supported), as CPU usage is very high on a Raspberry Pi 3.
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models that use less CPU. Generally, you can use up to three NAM plugins at once in a given preset on a Pi 4, and up to 16 NAM plugins
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simultaneously on a Pi 5. However, exact CPU use varies depending on the complexity of the amp models you are using.
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If you are interested in profiling your own amps and effect pedals, please visit https://www.tone3000.com/capture
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When the Threaded control is on, neural amp modelling calculations are run on a separate thread from the
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real-time audio thread. This introduces one extra audio buffer of latency, but allows the plugin to make full
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use of all availble processor cores when running more than one instance of TooB Neural Amp Modeler. As a result,
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you can run more instances of TooB Neural Amp Modeler than you ordinarily could. On a Pi 5, you can run up to 8
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instances of TooB Neural Amp Modeler in a single preset (as opposed to four or five), and up to 5 instances of TooB
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Neural Amp Modeler (as opposed to two or three).
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use of all available processor cores on your Pi server. On a Pi 5, you can run more instance than you
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could ever practically use when using threading; on a Pi 4 you can run 5 simultanous instances when using threading.
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You need to check that the PiPedal server's CPU is not temperature throttling
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when using this feature. If the CPU temperature exceeds 80 degrees Celcius on a Raspberry Pi, the CPU clock rate is reduced, and
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the performance of the plugins will be affected. Having a good heat sink, or active cooling system is recommended when using this feature.
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PiPedal displays the current CPU temperature in a status message at the bottom of the display (unless you've turned
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When using more than a couple of NAM instances, you need to check that the PiPedal server's CPU is not temperature throttling
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when using this feature.
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If the CPU temperature exceeds 80 degrees Celcius on a Raspberry Pi, the CPU clock rate is reduced, and
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the performance of the plugins will be affected. Having a good heat sink, or active cooling system is recommended when using more than a couple of
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NAM instances. PiPedal displays the current CPU temperature in a status message at the bottom of the display (unless you've turned
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that off in settings), and also displays the current CPU temperature in the status message found at the top
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of the Settings page. The exact temperature at which the CPU starts to throttle varies from computer to computer. If
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you are running on a system that is not a Raspberry Pi, please consult your manufacturer's help documentation
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to find out what temperature heat throttling starts at on your particular computer, if you really need to know
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of the Settings page. If you are running on a system that is not a Raspberry Pi, please consult your manufacturer's
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help documentation to find out what temperature heat throttling starts at on your particular computer, if you really need to know
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what the threshold is; but the effect on performance is pretty obvious when heat throttling does start.
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Note that heat throttling is done to protect your processor from permanent damage due to overheating; but there's no real risk of actual
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damage, since heat throttling thresholds are set well below the point at which damage occurs.
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TooB Neural Amp Modeler contains code optimizations that allow use of a third model on Raspberry PI 4 devices. These optimizations
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were offered to the upstream NAM project, but we recommended that they not be merged into upstream sources, because they
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significantly affect maintainability of the codebase. and the performance increase they provide (about 30%) is really only
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relevant on Raspberry PI 4-class devices. If you are interested in these optimizations, they have been published in ToobAmp
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project sources on GitHub.
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TooB Neural Amp Modeler uses code from the NeuralAmp Modeler Core project (https://www.neuralampmodeler.com/). The TooB team wishes
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TooB Neural Amp Modeler is based on technology developed by the NeuralAmp Modeler Core project (https://www.neuralampmodeler.com/). The TooB team wishes
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to express gratitude to Steven Atkinson for making this revolutionary technology available as open-source code. This is groundbreaking
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technology that changes everything; and work that would be impossible to replicate without the work that Steven has done.
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technology that changes everything. None of this would have happened without the work that Steven has done.
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TooB Neural Amp Modeler uses code from the NeuralAudio project (https://www.neuralampmodeler.com/). The Neural Audio project provides highly
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optimized implementations of the most commonly used Neural Amp models. The TooB team wishes to express gratitude to Mike Oliphant for
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making his making his optimizations available as open-source code.
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optimized implementations of Neural Amp models. The TooB team wishes to express gratitude to Mike Oliphant for
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making his optimizations work available as open-source code.
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Steve and Mike have done all of the hard work that was required to make NAM technology available through TooB Neural Amp Modeler.
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Steve and Mike have done all of the hard work that was required to make NAM technology available through TooB Neural Amp Modeler. They
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deserve all the credit.
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Code from the the NeuralAmpModelerCore project (https://github.com/sdatkinson/NeuralAmpModelerCore) is provided
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under the following license.
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@@ -54,7 +54,7 @@ noisegate:envelope_group
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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A noise gate is an audio processing tool that controls the volume of an audio signal
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by allowing it to pass through only when it exceeds a set threshold.
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@@ -40,7 +40,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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A loose emulation of an MXR® Phase 90 Phaser.
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@@ -60,7 +60,7 @@ toobPlayer:seek
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Play audio files. Audio files can optionally be loooped by pressing the "Set loop" button.
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@@ -51,7 +51,7 @@ recordPrefix:audioFile
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doap:license <https://opensource.org/license/mit/> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 1 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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ui:ui <http://two-play.com/plugins/toob-record-mono-ui>;
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@@ -88,7 +88,7 @@ myprefix:loop3_group
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doap:license <https://opensource.org/license/mit/> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 1 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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ui:ui <http://two-play.com/plugins/toob-record-stereo-ui>;
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@@ -40,7 +40,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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TooB Tuner is a chromatic guitar tuner.
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""" ;
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@@ -39,7 +39,7 @@
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doap:license <https://rerdavies.github.io/pipedal/LicenseToobAmp> ;
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doap:maintainer <http://two-play.com/rerdavies#me> ;
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lv2:minorVersion 0 ;
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lv2:microVersion 65 ;
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lv2:microVersion 66 ;
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rdfs:comment """
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Volume control.
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Binary file not shown.
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Block a user