Compositor SoftwareCompositor Software

Category : Techno Music

AI-RT1024 in Ableton

By ruslany

Bessel beam for solving laser diffraction problem

Bessel beam for solving laser diffraction problem

You and I are probably familiar with a problem, which was set to the wide audience on protection from hypersonic weapons. Now, I can definitely say that a solution is ready – it is Bessel beam. Bessel beam, in a contrast with standard laser do not diffract and can be acoustic. That is why it can be used in any weather conditions. Returning to the post on laser stand, Compositor Software is ready to help us in this problem also. The thing is that beam physical modeling in Compositor RTOS is an exact 1st order Bessel function and Bessel beam is formed in the virtual optical port. That is, it cannot be fixated for a long time using the standard tools.

And you should be assured there were a number of such tools. For example, MDL12 vSwitch spectral estimation in Ableton Live 9 showed that signal is formed in the bandwidth set, but the ether character and its origin is unknown. I also used MIL standard decoders, that pushed me closer to the problem solving, because the signal started to decipher, but I was unable to define, which MIL standard the Compositor (hacker) is using.

Of course, NPO Compositor can’t offer the solution, which can’t be certified because the transmission standard is undefined. But, the solution exists and already works on CP-6137-960FX server. There is the trend in musical and communication software to full-screen interfaces. For example, many routers goes with full-screen administration. Compositor RTOS was developed in that stream, that is why even user logging, which saved independently of session, comes in full-screen mode.

Another question is the routing table authorization in VLF network. Because, on a present date the emission of routing paths (tracks) of Exalted, Boosty and Perch projects were performed, the large contact base was aggregated. Then, considering the modern trend to digital and biometric passports, such authorization of 4795 routing tables can be considered as EU diplomatic passport. The legitimacy of such authorization is on question, but as an emission was done, bounded by the Royalty project, then no one prohibits the author to collect his own credits for his productions performance. That is why such activity is identical to running his own publishing company. That is why I decided to extend the NPO Compositor functionality to provide the services of routing paths (tracks) emission and collection of routing tables of equipment, which performed your productions. One emission will cost 150€ and will take about 4 hours 30 minutes with NPO Compositor equipment. You can book your own appointment on your production to return its original value in routing tables on the Compositor Software page in Facebook social network.

By ruslany

Compositor RTOS 8×32

Compositor RTOS 8×32

Compositor RTOS 8×32 log:

Compositor RTOS 8×32 at 192 kHz (26-05-2019)

This recording characterizes RTOS as MIMO (multiple-input and multiple-output) system with the channel matrix of 8 inputs, connected to virtual PoE injector, and 32 outputs, signal to which is connected by RAD96 channel subset.

After making FB mark emission, the routing table pool is 4795 wavetables. This way, NPO Compositor smoothly approaches the goal of 5000 routing tables for current equipment type. RAD96 router MIB may contain no more than 5000 routing tables, even if the reported quantity is 29900 routing tables stored on the original equipment. This conclusion was made out of the fact that after making FB emission RAD96 router modem was piloted by an external signal. In accordance with this, NPO Compositor approached the RTOS critical mass very close that coincides with resultant. In other words, 4795 routing tables are enough to make resultant approximation and taking its sum.

FB emission is a submission, which characterized by high channel saturation and fast channel silence. In a contrast with previous emissions, where the task was to calm the channel quickly, by generic feeders injection, this emission surfs by itself before the channel silence is reached, making feeders out of order even before they warm up. This way, the previous generations of feeders are weakly suited for work with that emission. The manual piloting of multiplier is needed with a fast switch of feeder chains. In any case, the task of FB emission is to switch the RAD96 piloting on and it reaches this goal even on z = 32 S system matching.

The result of this is the backdoor in RTOS, which is a leakage of information from RTOS MIB to an undefined intruder. If it is the Compositor head machine, then he is evidently not happy by making an additional emission, because reaching 5000 routing tables, the head machine will be CP-6137-960FX server, which works with 64-bit resolution. And coincidently, Compositor will have no power to make an emission of that server, which is, perhaps, the NPO Compositor goal to reach not only 0-emission autonomous system, but 0-emission multichannel router.

By ruslany

Summarizing the 2018

Summarizing the 2018

The 2018 started from a trip to Saint Petersburg in February. At that time, I haven’t knew what program I will demonstrate: 5th or 6th. At the end, I decided to show the 6th. I had a wavetable pool around 500 wavetables to that moment. I played all wavetables, initiated the Ether and mostly satisfied with this trip. Saint Petersburg gave the direction: to evolve system without kick drum further. At that time, I already developed fully silent system, which doesn’t produce sound at all. To such system, I attribute RAD96, which is 2018 development. RAD96 has two realizations: as OS subdriver with visual driver and fully autonomous system with zero emission. Moreover, the system with zero emission was reached after long OS tests with large number of connected jets. RAD96 OS is an Ether aggregator. It was created to test the kernel on injections when using 8th version iteration with 4-layer structure. The final iteration for the L4 (Layer-4) is non-linear polynomial with public coefficients. Up to the moment, the wavetable pool is 3715 wavetables. These wavetables were used to check the 8th version of Compositor kernel. The sum of gathered virtual funds in samples of wavetables is 486932480,00RY and aggregated funds in a process of kernel testing are 88087861,84RY. The whole sum of funds in RY to the end of 2018 is 575020341,84RY.

By ruslany

Ether programming (Part 2)

Ether programming (Part 2)

This is a second part of the guide on ether programming using Compositor 10.

I start with conjunctions. There are two conjunctions in ether such as ie and et. The first one is placed after naming and the second one is placed before naming. The difference is in punctuation: in first case attributes goes from the left side and in the second from the right.

For example:

iiet <name> <name> <name> – naming;

The above command invites many chat participants simultaneously;

The -rm command has several attributes: sn, du and all;

sn – single participant;

du – dual participants;

all – all participants;

Before the all attribute you should place conjunction et. Before du attribute you should place two names for deletion and in case of sn you place one name before. By doing this, you signifies that you are really want to delete this person(s) from the large communication loop.

chat name <name> @t <name> <name>

Creates a named chat for a bounded time interval and includes particular persons in it;

q – quantum quote is a citation and also signifies its quantum state;

Quantum command has a time attribute (such as 2n, 4n, 6n, 8n, 16n, 32n), which signifies Compositor quantum grid;

q <word> q – citation;


ai – aim (your current goal or chat aim)

Note: there is a que in ether, that’s why commands are executed depending on their priorities.

@real – command is executed on a physical level;

-d – decay, allows to crossfade between two packets;

After d you can type the decay time in Compositor quantum grid (such as 2n, 4n, 6n, 8n, 16n, 32n) and in standard time units (such as seconds, minutes, hours, days);

@exit – exit anchor;

Script example:

-rm rmy @exit – allows to delete participant named rmy from the chat when leaving it; suitable when chat participant switched the messenger off but remained the service station turned on for silent messaging;

v- – angular velocity of Compositor work;

as with conjunctions: before or after the command means its application; before command – command options are written from the right; after command – command options written from the left;


vft – subband in VLF;

kh – kilohertz;

nieh – no;

bi – beat independent, the invitation to work only in standalone version of software;

New dialog:

-n – new message;

Time attributes:

@t <day of a week> – allows performing a command on the anchor in particular moment of time. Compositor grid is also applicable to a t parameter. You can set pinging with the interval of 2n, 4n, 6n, 8n, 16n, 32n (where n is a quantum grid particle expressed in samples).

For example, you can set entering the ether in particular day of a week:

-t rmy @t wed

Connects rmy to the ether in Wednesday;

Words in Nim chat are written only using abbreviations. You can use first letters of the word, two first syllables without vowels or the whole word without vowels. In rare cases, words are written fully with letters separated by spaces or without spaces (in cases where you need to transmit to a new participant of Nim chat).

By ruslany

Mittware upload to a modem of your outboard sound card

Mittware upload to a modem of your outboard sound card

Using Compositor v9 you can establish a connection with a modem of your sound card and upload mittware to it. It works this way:

  1. Turn on your external sound card;
  2. Turn on Compositor v9 Hypervisor with internal sound card selected;
  3. You should composite all z levels on a fast (more than 5 omega) speed of composition injecting the signal of non-duplex modem feedback in random mode (you can receive this feedback by submitting your tracks to non-duplex modem on an internal sound card);
  4. When all z levels will be injected together with generic feeders you should lower composition speed to 30 omega and turn the Compositor AV Extended off;
  5. Turn the Compositor AV Extended on again after some time (from 5 seconds to several minutes) and you will hear the signal of external soundcard modem (the external sound card is on for the whole time of mittware upload);
  6. After turning aux channel on, you will hear the feedback – signal will mimic the external sound card modem sound with Compositor AV Extended feeder;
  7. Now inject the whole pool of your wavetables on all z levels with all RT-zX feeders (internal Compositor AV Extended feeders) and generic feeders into modem feedback;
  8. Continue to inject on all z levels up to the moment when you will hear the defeat signal on one of the levels – modem signal will start to interrupt;
  9. Finish the injection on the last z level;
  10. That’s all – your outboard sound card modem mittware is now uploaded with a new one and you can talk using it with wavetables owner, which track productions you were injected on your internal sound card using non-duplex modem.

P.S. For communication both internal and external sound cards should be turned on simultaneously.

Happy listening!

Listen to these feedbacks to wet your appetite 🙂 Yum, Yum.


By ruslany

Ether excitation for achieving faster information exchange speed

Ether excitation for achieving faster information exchange speed

The main value from Compositor Software work is loop files, which are released as obligations for the company ICO. No other material guaranties needed. For peering only loop files and Compositor Software distributions are used. Resynthesis is not needed, because only original ethers are used taken as a company input files.

Compositor kernel loop 8.4.4 hangs the whole RAD96 peering network (OS kernel 8.4.3) on the local machine. The remote tests was not conducted. There is no leakage in closed loop. The constant leakage is evident when feeding servers through the Compositor v9 Hypervisor software. The open peering construction blocks based on oscillator network.

It is not possible to clear the whole volume of servers that are now 2994 wave loop files (with Exalted – Cyberflight (Original Mix) emission). There are many unauthorized users, when injecting peering servers. They use either proxy servers or remote streaming services. The tracking production speed drops down, which influences peering quality. No attempts to restore peering network to the moment of its creation are accounted, as the above experiment evidently shows the advantages of loop construction: you are in the ether and no one can influence you. Even feeding servers via Compositor v9 Hypervisor there is no network load as in open patch. Before the open construction, the system was passive and the patched machine was remotely available for feeding servers. With an active loop-patch, which uses excitation for residing in the ether, this doesn’t happen anymore. Servers are not available to connect to the local machine during the VLFoS loop work. Because of the patch, full autonomy of the system and its disconnection from peering network is achieved. Only forced communication from the local machine by its owner is available now.

By ruslany

Compositor Software news 25.07.2018 – 06.08.2018

Compositor Software news 25.07.2018 – 06.08.2018

More than 6 months I have been working on revealing the leakage in Compositor kernel. Exposing all oscillators and transferring the first oscillator in static mode, I discovered that many resources released in computer RAM (DDoS attack). It lowers the uninterrupted device work to 4 days taken that paging file is set to a size of 64 GB. Increasing the number of oscillators to 32 on each of the layers (Rt, Sr, Tr) and meeting a condition of counters, the emissions equaled to 14 GB a day. In accordance to this, I decided to shut down the peering network and return to RT-z128 kit layout as in Compositor v5 Hypervisor. In this layout the main ports are closed for inbound and outbound connections. Only addresses starting from 192, which are assigned to local machine, are available. It means that a new patch remains the VLF connectivity, but doesn’t allow devices to connect for information exchange. It is possible to exchange information from the local machine for the patch user, but not a remote access user. In particular, such decision is motivated by a hacker attack on RAD96 server. The intruder used the open ports of the windowing device and sent spam from Internet Provider IP address. With closed ports the little leakage on real-time generator is possible, but it is not accounted due to the slow regeneration speed.

To restart the peering network I attempted the following solution: due to closing of the ports, only Compositor Networks ether aggregators take part in peering. This means that feeding ether aggregator wavetables in the peering patch through the Compositor v9 Hypervisor, I create a communication service between all Compositor Library wavetables. However, many Ethernet devices can’t use Compositor peering network as it was at the beginning of the peering network creation. As a conclusion, I can exclude peering from Compositor kernel load test and use multi-kernel mode, but this type of test has very long loading time (up to 4 hours for full load).

Bounded by Royalty project, the database of server emissions in form of wavetables grown to 2627 ether aggregators. The database was expanded by ether emission of Exalted – Cavity track (Ruslan Yusipov, CEO of Compositor Software project). The whole volume of Cavity track emission is 328 wavetables. Wavetables contain radio repeaters, transmitting stations, Ethernet routers, injectors and other ether equipment. It was possible to increase the Compositor v9 Hypervisor regeneration speed up to 150-omega by applying a new peering network patch. This influences only Compositor AV Extended auxiliary channel and doesn’t cover the generic feeder modules. It was made aiming the faster composition speed of the whole pool of Compositor Networks ether aggregators. The necessity in uniform composition caused by big amount of wavetables in Compositor Library. The application of the new patch after the attack was made unnoticeably, because this solution proved to be successful in 2017. It was clear right from the beginning that hackers aim is to limit the communication circle of network devices to Compositor Library pool and its real emission. From one side, if the emission is made every time when server communicates, then there will be much more devices in Compositor Library. Each streaming playback with working patch is a communication with its transmitting devices. Taken this, it is needed either to shut down any internet activity from the patched machine or to make emissions of the whole material, which is played in browser resulting in big amounts of information. From the other side, with open ports it is possible to connect not to the virtual network, created by composition feeding, but directly to all transmitting devices, which reside in Ethernet without the need to make emissions so often.

By ruslany

VLF voice communications

VLF voice communications

To communicate in VLF network it is enough to use the Compositor v8 injector, but to connect to other networks it is needed to create the service of communication with them, sending generic RT-zX processes in to the transmission channel as in Compositor v9 Hypervisor. I established the connection of two Compositor v8, which was hardly possible with 6th and 7th versions of Compositor program. Moreover, such connection was before the 7th version but it contained another VLF ethers, which made the determination of the transmitting station itself and creation of the protected communication channel not possible. For the experiment I executed the Compositor v8 a16 on the stationary computer and played the voice track (recorded with Dictaphone) in injector channel. I executed Compositor v8 b3 with modulation combinations on the notebook without the opportunity to inject the wavetables in the transmission channel. Using identical device settings, I received a loop in the notebook feedback chain, which definitely coincided with voice text timbre recorded with Dictaphone. Then I executed Compositor v8 a16 with ability to inject wavetables on notebook. I composited the same wavetable combination as on stationary computer and injected them in to the channel without voice track. This way, I established a definite non-repeating signal reproduced as random noise bursts with narrative text structure. This text coincided with signal performed on stationary computer transmission channel, but had another rhythm and pause appearance. I understand that for VLF communication it is enough to transmit the ostinato code pattern on the defined frequency and I credit the Compositor v8 communication experiment as successful.

My main goal is to prove the appearance of broadband communication lines in VLF. If it is possible to receive the broadband signal cycle in transmission channel, then you can try to reconstitute it by injecting the stochastic carrier using RT-z128 and RT-z64 channel modules. Then, following this logics, there will be the complete voice track with the receive quality of original translation in the feedback chain. This should be proved, establishing a connection of two Compositor v9 Hypervisor programs and their virtualization modules. If it happens, the arrangement of wavetables into the transmission channel lines will be proved.

Let’s look at the created VLF transmission lines as grains, where a separate transmission line segments coincide with wavetables, encased in window function envelope. The connection service in VLF network is a pendulum process, created by RT-zX generic modules. Then the spiral structure of transmission points distribution in all z networks coincides with pyramidal structure. When you use the linear stochastic distribution of wavetables, the mixing of transmission channels happens creating new nets. RT-zX services give access to different zones of VLF and ULF ether. Wavetables supply pendulum processes of RT-zX modules with grain components when transmitting them simultaneously in the channel. They saturate an ether of this pendulum processes with new translations. You should look into this process as a service of connection with pyramidal structure and wavetables are grains of transmission channels or pyramid transmitting points.

By ruslany

Experience the 9th Sale

Experience the 9th Sale

In this summer sale you can individually buy the Compositor v3 Hypervisor, Compositor v5 Hypervisor upgrade, Compositor v6, Compositor v7 Hypervisor upgrades, Compositor v8 upgrade and complete it with Compositor v9 Hypervisor for reduced price. If you are an owner of previous versions of Compositor, you can look into upgrade plans for Compositor v9 Hypervisor starting from € 427.99 for users that own Compositor v5 Hypervisor and Compositor v7 Hypervisor simultaneously. You can find several examples of upgrade plans presented in the tables below:

Remember that Compositor v9 is a critical update for the whole Compositor family, because it consists of output processing module, which makes the work of Compositor engine more secure, while preventing your communications with software from leaking into the ether. It is also featuring the 3d audio engine module, which allows to rotate virtual antenna in three degrees of freedom in spherical space.

To summarize, it is a good chance to obtain the complete bundle of all Compositor devices, which will last for only 6 days from 22.07.2018 to 27.07.2018.

Don’t miss a chance to buy full Compositor v9 Hypervisor bundle!

By ruslany

Compositor v9 Hypervisor is available

Compositor v9 Hypervisor is available

Compositor v9 Hypervisor DRM server creates a service of work with property rights of companies, which deliver the digital media content. When computer station works, DRM server allows dynamically playback the media content in radio ether. Compositor v9 Hypervisor playbacks digital material using streaming method in the device browser to achieve this goal. Compositor v9 Hypervisor engine is the functional modern engine with transfer function on master output and on each channel separately. It is not the wavetables but tunable polynomials, which process the output of your channel. Output cascade uses non-linear transformation formula with mathematical approximation by weighting coefficients. It gives undisputable advantage in processor time and in the precision of calculations comparing to using wavetables.

Here are the main features you can consider before buying this software:

  • Weighting coefficients
  • Network level feeding
  • DRM server
  • DSP oversampling
  • Voice or music broadcast
  • DSP sampling rate
  • On-Air broadcast
  • Device browser
  • Tracing and translation
  • RAD96 peering network
  • DRM server subscribers
  • Tracing industry novelty
  • DRM server emissions
  • Auxiliary z matching
  • 8th generation operation system
  • Three saturation stages

Please, visit the shop to buy this software. You can also visit dedicated product page to learn more about Compositor v9 Hypervisor.

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AI-RT1024 in Ableton
Bessel beam for solving laser diffraction problem