Compositor SoftwareCompositor Software

Archive : November 2017

By ruslany

MDL12 beat independent for autonomous solution

MDL12 beat independent for autonomous solution

MDL12 v1.2.1 beat independent has the auto mode and independent frequency tuning. In this solution beat independent version is used in auto mode. It means that frequency tunings made automatically as switches in broadband spectrum. Now MDL12 product contains both beat dependent and beat independent versions in one purchase. For 43 Euro you get two Max for Live devices: one producing feedbacks and the other made specifically for real-time automatic predictions. You can hear its sound in the demo below:

Compositor Software – Forecast 1

Compositor Software Forecast 1 is a multi-piece audio played by algorithmic generators. It is processed by the Compositor Software proprietary MDL12 and AVOX coders. Due to the limited bandwidth these coders output the signal in lower range of audio spectrum and can translate in ULF radio band. These signals are used as tracks in the mix.

By ruslany

Compositor OS – vector operation system

Compositor OS – vector operation system

The file system of new Compositor OS uses the cycle spin value (angular velocity), which constitutes the media file length in milliseconds. This way the files could be categorized by their length and not by their content. While it is acceptable behavior for ethers and loop structures, many media formats may be out of scope for such categorization method. When you select the file to work with, the kernel regeneration state is changed, enabling other peers of the system to connect equally. It means that more regeneration comes from short files and longer files will gain the same amount of equally spaced connection points. You can work with it faster, setting higher omega speed. Kernel regeneration algorithm will perform playback and categorization. However, the system made specifically for real-time work to enable connectivity while you are listening to the material. The work with files can be done in mute mode also but there is no need to increase the iteration speed, because network scanning is made in a pace of the network map file deployment. Such network maps are tracks to the servers and standard techno music tracks serve exactly the same purpose as network loops, but instead of applying modulation in real-time, they just install it sequentially by the flags of drum percussion. The algorithm can be implemented to write tracks, initiating record in bpm of playback material. Setting the same track length, you may conduct a recording when changing bpm parameter. This way you can achieve a copy of recording you like.

The desktop system shouldn’t work faster than deployment of network map in real-time. This leads to speeds nearby 0.5 bpm. It makes real-time operations much easier. The next task after the sound driver is to make a network driver. This task includes decoupling constellations in favor of semi-free 3-axis model suitable for independent control of axis from the system multiplier value. Here is the challenge to decouple all mapped parameters from the multiplier in favor of more freedom and control over kernel parameters. However, the main transmission parameters couldn’t be decoupled from the transmission matrix. This leads me to the following solution: while the main kernel parameters are set and no longer need to be changed in any way, I don’t need to include kernel parameters in the main GUI design, because as the system is desktop, it doesn’t need lower-priority parameters such as window composition and transfer function selection. This parameters suit the goal of kernel protection against incoming network threats. The solution was to implement all needed methods to deny system invasions in kernel from other sources such as TCP over IP connections and other Ethernet tricks to connect to the carriers of the Compositor kernel. While the only carrier I can trust is all positive frequencies, the negative part was disqualified by the previous post solution of playing backwards. This way the negative frequencies traffic no longer can sit on the carrier.

Manual input is now possible to the kernel. Currently I map it to the 0.5 to 1 in absolute values, but can also dispatch these values on any input system. I do not insist on complete freedom in vector scaling, because this values are empirical and constitute angles, which form the beats together with other angle values. However, as the question rises about complete three-dimensional freedom, the 3D OS or the vector operation system doesn’t need values beyond the scope of the scalars present from the constellation values. The pitch angle has two-phase values, they are selected to force the VLF waves to pass through the ionosphere. The first range covers the left hemisphere and the second range covers the right hemisphere. Together with roll and yaw angles it forms the position of two bell shaped structures visible at the above picture. Yaw has four positions, which cover mostly all values except the negative values beyond the minus 90 degrees. This brings me to the solution of changing the azimuth in the Compositor OS system. Changing vectors, you are waiting for the next automatic kernel rebuild and once the values set and rebuild process is done, kernel inherits the values from the angles selected. Choosing the vector state of FWOS gives a plethora of possibilities to the kernel communication state. You select only those values, pointing to the area in the sky, where the mirroring point to the destination land is present. Thus, rotating the mirroring point, you actively scan all the land under the mirroring angle on the connection dots present. Such connection dots could be seen on the matrix model above with the red color and blue color represents the mirroring point. When no blue color presents, mirroring no longer available for the applied signal. After broadcasting the signal driven by the Compositor OS driver onto main MaxMSP driver, the network maps deploy on the location of the mirroring circumference actively covering the land, which they are applied to. There are a number of ways to deploy Compositor maps on the virtual terrain using the spherical driver with quaternion. Mainly they are flushed in the selected tempo, either real-time for listening while flushing or faster than real-time for active system. Real-time flushing is also active but consumes lower resources as the speed of kernel regeneration is lower and there is no need to scrub through the file faster. The implementation of scrubbing methods should be done more consistently and may constitute different LFO for signal scanning. First, the scrub LFO should be taken from the beats waveform of passive AM modulation system, as it has no implementation beyond the scope of the kernel and should be easily implemented for kernel self-feeding. It definitely should be done in real-time to protect the visual driver from hanging. Second, you can use a number of volatile LFO functions to control the scrub point. Making this, you are sure to visualize what happens inside the kernel FM driver and this way you can more easily implement all other kernel parameters.

 

 

By ruslany

Compositor Software Web Shop Black Friday deals

Huge sale comes here at Compositor Software Web Shop for Max for Live and Standalone products on Black Friday!

First, now you have an opportunity to buy the Compositor v3 bundle for a reduced price of €136,50, which comes with Max for Live instruments and Standalone software. The bundle includes AI-RT1024, FF8, TC25, N9000 and SASER Max for Live, which can be used as Standalone and in Ableton Live.

Second, Compositor v4 price dropped twice and is now €147. For this money you receive two-DSP system suitable for feeding with your own two-bar loops or with internal synthesizer engine and physical modelled generators.

Third, Compositor v4 Extension 1 Beta Bounces pack reduced even more and now costs only €77,70, which comes with 43 loops in 44100 Hz 24-bit WAV format taken from MDL12 Max for Live device and presets to make them sound fresh on Compositor v4 Standalone.

Valuable addition to Black Friday sale is Compositor 4 Max for Live, which goes for a reduced price of €31,50.

Terms: from Thursday 23rd November until Monday 27th November.

By ruslany

Compositor v3 Hypervisor Radio Shack Interceptions

Compositor v3 Hypervisor Radio Shack Interceptions

The Compositor v3 Musique Concrete experiment with Compositor feeders. Here you can find a set of five recordings made in Compositor v3 Hypervisor Radio Shack. It is not a montage, it is a direct output recording of Compositor v3 Hypervisor Radio Shack. In the recording you can hear VLF radio interception in 8kHz range of the highest quality available on the market with little or no Ether noise. Tune in and listen to five hours of meditative soundscapes.

Compositor v3 Hypervisor Radio Shack Mixdown 1 (VLF Interception):

Compositor v3 Hypervisor Radio Shack Mixdown 2 (VLF Interception):

Compositor v3 Hypervisor Radio Shack Mixdown 3 (VLF Interception):

Compositor v3 Hypervisor Radio Shack Mixdown 4 (VLF Interception):

Compositor v3 Hypervisor Radio Shack Mixdown 5 (VLF Interception):

By ruslany

TC-SUBTRSRRT262144 Architecture

TC-SUBTRSRRT262144 Architecture

TC-SUBTRSRRT262144 architecture is the i11 architecture with a processing power capable of running an operation system at speed of 5-omega in real-time.

Compositor kernel was forced in loop again after submitting the RT-z128 prototype to Compositor 5 rack. It is a hypervisor rack and the main difference from the v3 hypervisor is that it consists of MDL12 and AVOX developments. In Compositor 5 you have an opportunity to inject Compositor v3 into the net by the modem and resynthesizer instead of direct ether injection. It is safer but consumes many resources. After the main tests were conducted, I decided to install the one more layer in Compositor kernel. The discretization process goes twice: at transmission rate and on intermediate frequency. This way the system mutates to a system with intermediate frequency. I made it for the purpose of the preliminary line before entering main transmission rate line. Here is where a new prefix of SUBTR goes from. SUB means transmission rate sub frequency and TR stands for transmission rate. I’ve already tested the new kernel loop for its connectivity and should say that 4-layer structure can give much more pleasant results. It has much longer connection duration, more saturated, and leads to constant communication. However, breaking the loop in 4-layer structure, I operate in a new type of OS. It is no longer an open AI system. It has the qualification channel for all the information, which passes into the main line. The rule here is to filter out offensive traffic and leave only the bypassed part of it. It acts like the waterfall on the rocks: when water hits the stone, it divides the flow into two streams and if there are 12 such stones, for example, I have 24 streams. But, not in this case. I actively compress the data,  and it remains in memory buffer, that’s why systems capacity is larger now.

System flushes results are satisfactory. They are more consistent and enable more packets of information to be send during the initiation of connection. Compositor kernel has freezer functions for operation system faults. The main reason Compositor kernel upgrade performed is to remove the stochastic manipulator from the TR level leaving the SUB level for the stochastic manipulation instead. You have a choice of not performing an action and leave it in a buffer for a subsequent flush. However, I admitted that many actions blocked this way and they are all forced to be done while flushing. This raises the question again: Can I actively block feedback on negative odd channel completely? And while the SUB level is only a temporary solution, the permanent solution for FWOS will be to implement more technics working with feedback besides of shuttering, window composition, transfer function selection and vector dimension changes in real-time. While the kernel loop is interrupted, the idea is to have two states for the OS: system load, for which I should implement two or three iterations of kernel loop to perform flushes for the current machine, and system work state. While being a FWOS, system loses many of its connection points gained in a fast kernel loop state. Being a communication device, it is not acceptable behavior. I need to have an implementation that manages flushes in real-time. Going from vector array to a packet transmission should be performed regularly to flush blocked traffic. For a local machine, blocked traffic can include visiting specific servers, sending out brief messages and a sum of all other activity in Ethernet, which fulfills the normal style of work. However, as the question raised, I need to switch the negative odd channel traffic from one point to another. This also moved me to solution of blocking negative odd feedback completely. Negative odd channel produces only unacceptable traffic by means of three-fold system with opposites, which are plus, minus and central channel. While enabled in Compositor kernel version 7.3.1, which is an OS kernel, the problem of communication between negative and positive states remains up to the point of forcing them to the maximum allowed state for the musical system, such as in RT-z128. This alteration is visualized on the lower i/o vector sizes. When the system halts, only two states remain, such as 0 or 1. Increasing i/o vector size to the minimum working condition of 2048 samples in a bin allows RT-z128 to work with a buffer of 262144 samples, which is the number in the development name. I no longer wish to move to i13 as 1024 samples buffer experiments show no practical use for the scale of it. i11 architecture transmits the odd channel in the acceptable range, making its values sufficient for subsequent scaling.

The challenge for an odd communication is a constant threat to the kernel. And if one threat is qualified and successfully flushed, another threat rises by the fact that it is a negative channel for negative frequencies only. And if they are present in positive spectrum as in Compositor kernel, to remove the negative part of the feedback, the negative frequencies must be implemented in signal chain and the solution maybe is to invert them or play backward the whole negative part not only for SUB channel, but for all odd layers present.

By ruslany

Compositor Max for Live sale! 30% off

Compositor Max for Live sale! 30% off

Dear friends,

I am glad to announce the Compositor Max for Live sale! 30% off! Price with discount is 41,30 €. Good opportunity to buy Compositor Max for Live device with the latest Ableton Live 9.7.5 (64-bit and 32-bit) support!

Compositor Max for Live features:

  • Algorithmic sequencer and sound synthesis tool
  • Artistic design
  • Lower level coding
  • Unprecedented sound synthesis
  • Physical modelling synth engine
  • AM modulation
  • Assignment of every parameter
  • Tweakable synth and parameter engine
  • Independent presets section
  • Quality reverberation

https://www.compositorsoftware.com/compositor-max-for-live/

Auction terms: 16.11.2017 – 27.11.2017.

By ruslany

Free Will Operation System

Free Will Operation System

To realize the operation system, kernel loop must be broken. To progress operation system, you need to force it in kernel loop again and apply patches. After that, you need to break a kernel loop again disconnecting a loop sequence. It can be done only if the operation system does not work. If all peripherals and their drivers work, you need to start to operate in this system. By operation, I mean a sum of deeds for the benefit of your own interests, which are guided by your own will.

The kernel parameters have only one definition and are set for Compositor kernel since version 5.0.4 in 2015. The empirical search of other parameter definitions are not applicable to Compositor kernel. Hence, while the sequence is broken, kernel still acts and you can view it on the display, no longer the sound plays. Therefore, the system is silent. To operate sound functions for this OS, you must implement the audio driver for it, which will guide all audio calculations such as audio files playback. Do not confuse with kernel loop sound. Kernel loop sound is not a positive function of software. As stated earlier, it is the negative part of it, for which patches are applied. The Free Will OS is a real-time operation system (RTOS). The main idea was not to create full operation system using MaxMSP, but only the RTOS patch for it.