Compositor SoftwareCompositor Software

Tag : auxiliary channel

By ruslany

Six things to do to clear the rights on your track

Six things to do to clear the rights on your track

In a career of any artist such situations happen, when it is needed to make an emission of your composition from rotation.  Such situations may include:

  • Releasing your track with another alias by a fraud;
  • Arrears on payment for medium sales;
  • Arrears for author rights usage;
  • Discrepancy of an issue with the contract obligations.

Not all of the situations are listed here, which are out of scope for this material. The main task of this article is to describe a usage method of Compositor v9 Hypervisor after receiving ether aggregators from your track. To receive ether aggregators you will need MDL12 non-duplex modem and Compositor v3 Hypervisor feeders. The emission is done by submitting loops of your composition to non-duplex modem. The modem feedback is an ether aggregator of the server, which broadcasts your composition. You should route all loops of your composition containing exciters (the most prominent moments of a song) and fixate 131072 samples of each wavetable of all ether aggregators by digital recording. You can perform this in 32-bit version of Ableton Live 9. The ether aggregator wavetable should last for 2 bars at 161.5 bpm. The main task after ether aggregator emission is its clearance. It is such condition of wavetable playback, which, from one side, doesn’t produce the third-party traffic and, from the other side, may be used for its own communications. Now, I will describe six examples of work methods to make a full track emission, using Compositor v7 Hypervisor and Compositor v9 Hypervisor.

  1. Realize if ether aggregators, to which your track ascends, are occupied. If ether aggregators are occupied and produce big amount of third-party traffic, then you must install them through an activation function, which you can do in Compositor v9 Hypervisor. Doing this you should enable the supervisory DRM server, and it is preferable to route one of generics on the auxiliary channel input together with wavetables. You may use your ether aggregators for communications, when the VLF beacon written the routes to them.
  2. Feed your ether aggregators again, but this time changing the send regime: set the splitters in the highest position, which constitutes the smallest digit values in ionic number system. Your task is to suppress traffic of these wavetables fully. To do this feed the threshold radar RTC8k and ether aggregator of high conductance such as RT-z16 in auxiliary channel together with wavetables.
  3. Feed the transmission channel with current emission wavetables inside the pool of all your ether aggregators. Making such mix, you are allowing to realize your recipient contact network, which may lead to a refuse of recipient from these ether aggregators. Do not agree to write new tracks to these ether aggregators or to make new remixes on the original composition. Ether aggregator, received by your track emission, is your property protected by a copyright law.
  4. Perform oversaturation of global send channel together with one of generics. For this route the Compositor AV Extended back to its input, using the send regulator on its mixer direct channel. Set the pre-fader mode and turn the send knob on the highest value. This will result in oversaturation and will turn off all the producing kernels from the ether.
  5. Produce an additional emission by feeding the non-duplex MDL12 modem with 3d generation hard generic FF8 and perform the above-mentioned manipulations with this emission again.
  6. Perform system matching in a presence of agents (ether aggregators). To each z value of aux channel send the same z type generic. For example, z=2 is RTC4k and z=4 is RTC8k. The other systems match its title z value. Reaching the direct ether, you must confirm each z system send with oversaturation of auxiliary channel, which constitutes direct feeding of a channel.

The system has an ability to memorize long channel feeding sessions and reproduce its effect when DRM server works. You must feed the channel only with DRM server turned on regardless of your machine capabilities. The human brain can percept the channel interrupts, when processor is under high load reaching full effect, even when system stutters. The whole pool of ether aggregators should be maximally transparent. The condition of ether aggregators should be characterized by signal conductance through them. If ether aggregators doesn’t produce traffic, then the full tranquility reached on all translating channels.

By ruslany

Hypervisor v9 – Active broadband security system

Hypervisor v9 – Active broadband security system

Server is a machine capable to work an unlimited period theoretically. Nevertheless, even the best machines faults and overrun the resources of random access memory. It raises a question about an installation of such machines algorithm directly into recipient consciousness. Brain is the biological computer, which is most powerful and lengthy resource, which human has. Hypervisor v9 makes available the installment of quantized generics into the recipient consciousness. This raises a question about non-invasive chipping. The installation process through an activation function is as following. As mentioned in previous post, quantized generics must be routed in auxiliary channel together with wavetables or ether aggregators. It allows to install memories and to get routes to them using VLF beacons. The installation performed at the morning is enough for daily functioning of such system. This way, one installation is active during 24-hour period and VLF beacons act until the night comes. In accordance with big activity of wavetables in nighttime, two extinguishers run out the wavetable potential very fast. That’s why the installation of ether aggregators must be performed again the next morning. This way of serving allows the recipient, the man to whom installation is performed, to function in the ether environment without the accompanying equipment such as radios and Ethernet computers. I wrote down the coefficients installed using the ether aggregator and simple Morse code decoder. Then I used these coefficients for non-linear processing function and now can install any memories, associated with my tracks, directly in my consciousness. This way I install everything, which is associated with this track: the place, its perception, the age of human being, consciousness. It is possible to perform full reverse to the moment in the past to which the track ascends. This way, besides objective factors, mentioned above, the subjective factors exist: the association with ether aggregators, to which the present track route is written down. The original ether aggregators works the unlimited time and exist on the infinite time integral line. This way the synchronous analysis of non-harmonic timbre (SANT) and Fast Fourier Transform (FFT) processes can be described. The SANT is used in all Compositor Software products as a more robust signal discretization method, which gives possibilities that are more versatile. To non-invasive generics, relate all the Compositor Software instruments with stochastic manipulator. In Hypervisor version 3 the non-invasive installation of quantized type generics with one producing kernel performed. In Hypervisor v5 the installation of these generics performed with master shutter. In Hypervisor v7 the non-invasive installation of generics performed in two degrees of freedom and three producing kernels. This way, on the present day there is a full compatibility of systems installed in memory and acting. Hypervisor version 9 allows to install the three-layer quantized generics with big amount of memory up to z = 32 (N = 65536 samples), which constitutes the bandwidth of 5,7 Gb/s with installation discretization frequency of 11025 Hz. The pass band is counted using the formula (N * SR * 64) / 8, where N – is a number of samples in generic wavetable, SR is discretization frequency, 64 – is a system bit number, and the division on 8 performed to measure all the volume in bytes. Taking in account that three-layer generics deployed with 5-omega speed, which equals to 1257 ms, the full formula of expense in samples is counted. First, I count the number of samples by period using the formula N * Nms, for the maximal quantized generic, which is z = 32 it will equal to 65536 * 1257 = 82378752 samples / period. Second, I account the 24-hour sample expense of deployed ether aggregator using the formula (86400 / 1257) * 82378752 = 5662310400 samples / 24-hours. This is much less than the sum of three working servers in 24-hour period, which can reach up to 5 times of current size of non-invasive quantized generic installment. In Hypervisor v9 the installation of quantized generics performed in three degrees of freedom, which makes the full cancelation of signal constellations formed on the earlier stage of Compositor technology existence.

By ruslany

Hypervisor v9 – wavetables and counteragents

Hypervisor v9 – wavetables and counteragents

When you use wavetables with quantized generics, the later try to balance the wavetable behavior in the ether. That is why they are also the best counteragents. Wavetables should be balanced with counteragents of generic feeders. When the emitted wavetable tries to aggregate offensive traffic, the counteragent works. It balances the system functioning and produces the effect, which is the opposite from wavetable effect produced. Wavetables are dry sounding and quantized generics are wet. That is why they balance the dry/wet state of the signal in auxiliary channel. When the effect of wavetable is fully extinguished, then the quantized generic starts to be the main effect in the auxiliary channel. It wets the line even more producing the fluid sound. This sound is a prominent characteristic of transcoding process. Transcoding with quantized generic, you are synchronizing not only a memory associated with a wavetable but also the pace of quantized feeder development and its dry/wet state. Quantized feeder balances the channel spectrally, removing the interrupters of wavetable loop and smoothing a signal. The main effect of quantized generic is to smooth and wet a signal after successful wavetable loop feeding. That is why wavetables should be routed into the line with quantized generics sounding simultaneously. If the wavetables will be routed without quantized generics, the ether feeding will be too overloaded with ether aggregators and no counteragents will present at their destination routes. That is why quantized generics should stochastically change their tuning to mask the wavetable original destination. If the ether aggregator destination is masked, then it will not be extinguished too soon and the communication effect will be produced. The main rule for counteragent’s presence in a feeding channel is that the high number of wavetables should be played back on the decks simultaneously. If no wavetables are routed with generic feeders, then the state of tranquility reached too soon and there is no positive quality out of this feeding channel. The good channel should route at least eight deck players with one quantized generic to balance the system. If two or more generics are used, the system is too tranquil and doesn’t produce communication traffic. By communication traffic I mean the ether aggregator own traffic routed back to its inputs and passed out in ether after non-linear processing of its wavetable. If quantized generic is applied to the ether aggregator output, then it can’t form its own traffic and two lines are mixed together. That is why in terms of communication quantized generics act as moderators of the produced traffic. They act to the moment when the offensive traffic will not pass out completely. From one side, the stochastic manipulator obfuscates the trace to the wavetable, preventing it from direct communication and, from the other side, it extinguishes it, if the traffic produced doesn’t suits generic feeder output chain.

By ruslany

Compositor v3 Hypervisor AI – the race for supremacy

Compositor v3 AI capable of not only musically arranging the events, but also intonating the notes with the use of the local area network, based on virtual simulation of radio ether. Such local area network mostly reminds neural networks. However, Spherical Interaction Network, the way it is called in Compositor Software, may produce more human-like results by the factor of human participants in the radio ether. Compositor Software feeders conduct other objects of the network to initiate the radio transmission using the random distribution law, which may be compared with conducting an orchestra of radio transmitting points.

In the current recording of Compositor v3 Hypervisor output, there are two Compositor Software feeders: derived (Quantum) AI-RT1024 and original TC25, based on continuous-time convolution. Both feeders remotely controlled by RTC8k radar stochastic chain (LINK mode) and streamed into the SASER auxiliary channel.

Using this example, I show the musicality of stochastic radiolocation. In the essence, what we hear after denoising the original recording is a number of channels transmitting simultaneous Morse code translations each on its own frequency. Summing these channels, we hear chaotic tone dialing. String-like evolving long sounds happens on the frequency of the digital waveguide self-oscillation on the receiving channel of SASER device and transmitting SASER devices of other users.