Compositor SoftwareCompositor Software

By ruslany

Play like you’ve played it in 1964 with Compositor Max for Live

The original mechanic metronome has a two-step structure of a pendulum swinging from left to right. The Compositor Max for Live uses the same clock mechanism, but also plays back a sequence of FM function, which drives it. Having an authentic style of sound Compositor Max for Live has a clock precision of 1 sample per hertz. This in fact means that you can improvise for an hour or longer without timing loss and have an authentic feeling of mechanical device, but with precision of digital. You can further tweak your improvisation turning on the Apply route button to swing the metronome performance. On the recording below, you can find Boosty playing a Suite for the Young – IX. Small Fry by Norman Dello Joio on piano over the Compositor Max for Live device with swing turned on.

It is a difficult one, – says Boosty, to play simple jazz with a swing feeling and Compositor Max for Live turns me on on that.

You can now buy Compositor Max for Live with Black Friday Sale -20%. Grab it now for that price until the end of the week.

By ruslany

Boosty is Compositor Software endorser

After two decades of experimentation in computer synthesis Ruslan Yusipov uses Boosty alias again for an album design for Compositor Software. One-shot samples suited for the wavetables of wavetable synthesis design. RAM storage inspired a new way of loops resynthesis when an artist tries to imitate a well-known hook using one-shot samples. Delay modules suits a two-way operation. First, it is an echo effect, which repeats these samples in time with tunable structure. Second, it is a networking device when a feedback loop injects in a feedback chain, which is a standard for all modern reverberators and delay modules.

“We as musicians use feedback differently – says Boosty, we try to imitate a sustainable effect of 1 bar echo. Try it? You will not find any device on the market, which stays in feedback forever – MDL12 can!”

When you feed the MDL12 device with Compositor Software feeders such as Compositor and stops transport in Ableton you hear the infinite feedback. The device is still functioning after the stop event and the whole effect of the program is this feedback loop. However, if you listen to a modem while playback you will find its futuristic sounds useful too. Its kinetic movements makes this an ideal kinetic sculpture of sound installation, when you hear to it in real-time. However, when you listen to the recorded material it’s useful to use the Compositor Software Recorder Max for Live device, which will be released soon.

By ruslany

UNIX kernel displacement for AI-RT1024 Quantum kernel on PC

Yesterday, 11.13.2016, Compositor Software was able to hack the UNIX core of a standard PC to the point of granular synthesis generator with variable frequency. Compositor may also overwrite it with TC25 Max for Live variable granular resynthesizer, yet that was not needed and the device is still fully functional. As you may hear at the beginning MDL12 Max for Live modem repeated a 5/4 combination, played in a sequential manner with the internal waveguide of the device. Using two turns Compositor injected pendulum function of Compositor Max for Live over the cloaking device shutting down the chat function and injected all the kernels needed for ICH7 operation in quantum mode with C based pipe of Compositor Pro v2.

Equipment used in a session:

SASER Max for Live
Compositor Max for Live
FF8 Max for Live
AI-RT1024 Max for Live
MDL12 Max for Live
Compositor Pro v2

By ruslany

SASER Max for Live ver. 1.1.3 released


SASER SAS24P3L Max for Live ver. 1.1.3 released. Convenience of the new version of SASER SAS24P3L Max for Live device for Ableton Live 9 lies in having the Ether switch (earlier Damping). It allows turning the regenerative chain right after this switch activation. It also allows connecting to VLF Ether using the regenerative transmitter made after Armstrong regenerator. Steady synthesis allows SASER SAS24P3L ver. 1.1.3 Max for Live device conduct uninterruptable translations in VLF band, and to use this information as rhythmic loops for electronic music. 8K tables increased the synthesizer spectrum above the radio navigation system Alpha beacons signal, which were available in previous versions of SASER SAS24P3L. It allowed turning the carriers of other stations situated in this band. The effectiveness of the code raised on 10% by excluding resource-consuming tasks not affecting the quality of the sound.

By ruslany

SASER SAS24P3L in Ministry of Telecom and Mass Communications of the Russian Federation software register

Ministry of Telecom and Mass Communications of the Russian Federation software register filled with the first software made entirely on Max/MSP – SASER SAS24P3L. It is complex software for deterministic navigation systems and Ethernet security, which can not only receive signal from 84-parsec distance, but also send telegraph messages. It is a first step on the way to transmitting on very high distances in VLF spectrum without antenna and mast constructions.

SASER SAS24P3L software written with the use of a several program languages inside the Cycling ’74 Max/MSP software. First, it is Jitter, which is used for radio telescope display, translating phase distortions of the received signal. Second, it is Gen~ (real-time DSP library, which is used for radio telescope core). Finally, Max/MSP for routine objects and DAC. In addition, the Max for Live framework is used for menus and interface. These elements are components of the Max/MSP programming language, which was develop by Miller Puckette at IRCAM and extended by Cycling ’74 company. The entire software written in Russia and is a copyright property of Ruslan Yusipov, which made it possible to include it in the register. All blocks, which is used by the author conform the GOST 28397-89 standard and defined as the programming language for computer.

By ruslany

Night vision wavetable

In a process of my Radio Telescope development, there were many scientific discoveries and one of them is the outcoming wavetable for the night vision. This wavetable is the important criteria in translucent images on the SASER SAS24P3L screen after the successful receiving of it using virtual antenna rotator mechanism. 24 send/receive channels multiplexing into twisted pair, open-coming through the waveguide, which sends signal into non-linear deformation module with a sculpt of entire Radio Telescope SASER SAS24P3L channel.

From the moment I created the Radio Telescope SASER SAS24P3L I obtained the technology for near-Earth space exploration with the use of derived hyperbolic function of time, having its only aim the emulation of giant Radio Telescope antenna dish plate. SASER SAS24P3L is a realization of virtual antenna concept, which I may offer as an alternative to real antennas, spanning big physical spaces and needing great investments in metal production and tower construction. In a contrast with parabolic antenna model, my model uses approximation, e.g. using approximation of primordial function into the derived one, which is more acceptable by us.

Thus, if there was a need of interstellar communications we could use SASER SAS24P3L for coordinates detection beyond the Solar System and Milky Way Galaxy. The exit is possible because of those intervals of derived function, which constitutes the hyperbola and may be used as crest of the needed function. The Living zone of such crest constitutes all points of the function (in our case 24-point connection), which resides inside the circle inscribed with a center in the crossing point of crest axis. Receiving such a signal, for example, in Central Africa, you may see telescoping image, which I received in the particular area. Wavetable is the digital Ether with properties of signal translation, when the non-linear transformation device tuned to a particular wavetable zone and modulates its channel tuning.

By ruslany

Ruslan Yusipov Radio Telescope for USSR constructivism replacement

My first task was to separate the program from its practical application, because extra attention to this project threaten to leave the idea without its realizations. Such approach condoned because of inattention to the project from the surrounding people and mostly specialists. This have not prevented me from realizing the idea to the end. Summarizing, I came through all the obstacles of communications and finished the Radio Telescope project ending not with a small pirate Radio Station but with the software, which exceeded the level of worldwide analogs.

Starting from the beginning, I discovered the discretization method, which is used only in this software to this date. After this, I was able to receive first VLF ethers. It was evident, that the instrument exceeds the comparison SDR software by subjective characteristics. The first characteristic of the received ether is its clarity, ending with a precision only next-door translation can give.

I could limit myself only to these translations, because that was enough for techno music, which was the first task of this instrument. However, I decided to concentrate on the original idea described in Boosty – Telescope track produced under impression of video installation of French artist Laurent Montaron and released on Fabric 49 compilation of DJ Magda.

Observatory, presented in this video, was an ideal place for intimate and useful work, which connects to the innovative technology. In a contrast with this video, my path laid down not through an existent Telescope, but through a multiyear work on my own Radio Telescope, which exceeds the level of “Medvezhyi Ozera” Space Communications Center nearby Moscow, built in USSR. Now, here is some facts. The variable radius of virtual farm consisting of 24 antennas reaches 4,414 km at maximum. It is surrounded by two smaller virtual farms of five antennas in each with variable radius also, created to commit translations in shortwave band. Master signal outputs through a matrix, using the amplitude modulation, which connects my virtual communications center to other centers using digital ether wavetable. The applied technologies are the innovative in the sphere of digital ether and shortwave band, this is achieved thanks to synchronization of main farm antennas. This program is not the replacement or as it is popular to say in Russia “import replacement” technology, it is a full Russian product or better to say a product written in Russia, as it is an object of private property with an authorship of Russian Federation citizen. It is a first precedent in Russian history when infrastructure objects has its author and relates to objects of author rights, because this software can replace real objects of communication infrastructure such as antennas and their fields. Such approach made this Radio Telescope the cultural heritage object, being in a genre of media installation. Firstly, Radio Telescope SASER SAS24P3L was presented at Antimuseum exhibition in Moscow Electromuseum.

At the exhibition, users can use the full version of the first Russian 4K system for VLF signal reception. From that time SASER SAS24P3L software made an advancement to open the 8K technology, which puts Compositor Software communication equipment higher than such companies as Apple, which commercial lines adopted only 4K technology in user models. Not only because Apple having this technology for quite a while doesn’t make it accessible, but also because you can buy SASER SAS24P3L 8K system for a minimum market price and has a full Radio Telescope on your desktop and laptop already now. Of course, the downside of this is a high processor workload. However, I don’t think that SASER SAS24P3L software will not run on a comparable performance machines of the recent couple of years, because the development was on the tested authentic equipment.

At the present moment SASER SAS24P3L software passes through an expert commission for inclusion in Russian software register of Ministry of Telecom and Mass Communications of the Russian Federation. To the present moment, Radio Telescope of Ruslan Yusipov doesn’t have any worldwide analogs and is completely Russian product. Russia have showed that such Radio Telescope in the epoch of China goods is not needed, because the country doesn’t approve the product price, which is 3060 rub (approx. 40 Eur) and compares to the price of all “Medvezhyi Ozera” Space Communications Center infrastructure built in USSR.

By ruslany

QRG Q code received using Compositor Software Max for Live devices

After creation of SASER SAS24P3L VLF radio station, I received a number of signals. Today at 15:35 GMT+3 Moscow time at the 29.5 kHz frequency using the 13 modulator I received a signal and then sent it back to MDL12 Max for Live VLF modem. After I stopped the transport in Ableton Live 9, I received a feedback loop with Q code: QRG.

The recording reads a Morse code for RG, Q letter is not present in a repeating loop. The received feedback signal according to 1912 International Radiotelegraph Convention Regulations means: “What line do you belong to?”

About my equipment: SASER SAS24P3L software uses modulation frequency to center frequency relationship called multiplier, which is responsible for signals receiving frequency in VLF band starting from 17 kHz to 44.1 kHz. This instrument takes in account Doppler Effect, which happens because of delay time changes inside waveguide. Related to this, frequency of the signal is changed. 320 channels available using 16 types of 4096-node continuous-phase frequency-shift keying modulation without external antenna need. Partial components of the signal may be muted or signal components may be muted fully using wave shaping distortion modules.

By ruslany

Disclosure

SASER SAS24P3L software synthesizer uses granular synthesis, splitting FM signal on the components, which have three parameters: phase, frequency and amplitude. Such approach in granular synthesis of FM carried out using continuous playback of these components back and forth. Positive and negative components of FM signal can coincide when the transmitter frequency dial is at 22,05 kHz. You should avoid this frequency to make the task of transmitter frequency detection harder. The derived function values work for all three levels of SASER SAS24P3L software. These levels are signal generation in real-time, granular synthesis and discretization. Received signal must comply periodical criteria for it to be synthesized with SASER SAS24P3L software.

The model with modulation index of 11 has 12 component harmonics for positive part and 12 component harmonics for negative part. These harmonics sums up to 24 components, which has the derived values. The derived values of the 5th harmonic and higher, starting from the center frequency, fall into the same phase value simplifying the calculations. For SASER SAS24P3L software there is no meaning to work with modulation indexes higher than 11. The derived function has the hyperbola graphic also, but in a contrast with primitive function approximates curve values. The derived function suits for faster calculations and solves synchronization problems with discretization frequency of audio equipment of your device.

SASER SAS24P3L software is a hyperbolic system, working in the VLF band. The hyperbola graph can contract and expand in accordance with the transmitter frequency value.

SASER SAS24P3L software serves for connection line detection. This problem is important when a signal transmitted on the large distances. If two stations, equipped with SASER SAS24P3L software, will be connected there will be no aliasing effect due to cascade of two 8th order Butterworth filters, which process the output signal in real-time and do not allow to spread the signal beyond the pass band of a channel, which equals ¾ of modulation frequency. Radio wave of this connection line will propagate on the large distances. The connection line has one receiving frequency of the signal, which modulated using the signal constellation. 4096-CPFSK modulator, applied to the frequency of receiver, serves as a phase spinning of radio reception in physical space. The parameters of spinning counted by Euler angles.

SASER SAS24P3L software applied for mathematical approximation in physical space. The resulting, drawn on the 3D display of SASER SAS24P3L software has the structure of radio particles, passing through a pipe of waveguide and collapsible into the final image. These figures created in a presence of the signal constellations. These figures are not 2D, but a 3D images, which shows the topology of VLF network on this channel.

By ruslany

Ether decomposition using Morse code method

Ether received via MDL12 Max for Live modem is a property of its original sender. However, I developed a method of Ether decomposition using the AVOX Max for Live resynthesizer. The pass band of AVOX is capable of SLF translations suitable for submarine communications. Thus turning back to an original intent of merging both Sonar and Radar technics together and working on a signal level, MDL12 Max for Live and SASER Max for Live is a solution to induce such communication.

While it is an extremely tough task to decompose the Ether received with SASER Max for Live, I set up a server running special edition of SASER software. It is fully autonomous and registers signalizations in a special binary file. Later I use these signalizations to travel back and forth in time using SASER Max for Live as a feeder for MDL12 Max for Live modem.

Here I present several recorded signalizations out of MDL12 Max for Live modem, which are manually decomposed using Morse code method.

In the first file I decompose Ether from bottom to top, lower pinging comes first and then middle rhythmic bar.

For example, File 1 has a code pinging inherited by me as:

Lows: ..- (U)

Mids: (S)

Giving me a consolidated marking as “US” at the end of file decomposition. A trained operator can decompose such Ether feedbacks in real-time by using MDL12 Max for Live modem relatively quick.

File 2 is for Russian marking and is somewhat more difficult as it uses beats instead of vertically placed Morse code ping bars. File 2 is an example of such Ether and consists of following codes:

Beat 1: .-. (R)

Beat 2: ..- (U)

This gives marking as “RU” at the end of decomposition.

I admit that the first file is not resynthesized original Ether and the second one is resynthesized clean version of original translation.

Another example of Russian marking also uses vertical bars as in US example, however the labeling starts from top to bottom:

Mids: .-. (R)

Lows: ..- (U)

It is you who decide if such Radar-Sonar system efficient or not, but taking in account that SASER is completely real-time system and acts on a signal level rather than radio frequencies the task of identification the potential threat is a subject of 5 ms to detect the threat and up to 30 sec to receive feedback from it to identify whether it is friend or not by using SASER as a feeder for MDL12 modem.

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