Compositor SoftwareCompositor Software

Tag : Jitter

By ruslany

Rotation function for STL1212 8.0.6

Rotation function for STL1212 8.0.6

Referring to the post on December 6, 2017, I already implemented a rotator function into the STL1212 8.0.6 algorithm. It means that no longer the system exposed to a direct static pressure after the long ether sessions and it can successfully maneuver the whole 48-core lift in co-phase motion. The solution came to me after several experiments: first, I processed the variable-vector equation into the function form; second, I performed a processing of non-linear function into the binominal polynomial with both vectors representing left and right channels. The solution came from the roots of understanding basic geometric and algebraic principles. It sums altogether the inverse of a hyperbolic function with the linear increase in frequency as in the algebraic progression named in ‘Compositor – the bottom-up approach’. I’ve made this function to perform it at the output stage. Not only rotation can be applied but also a radical transform of the sound pressure level into the scalar of vector output is possible. The direction of such vector is changed dynamically as it is a live function and constantly jitters into the output. It means more security and protection to the inside work of Compositor cores. Without it, all of the work on the Compositor multi-core and multi-thread systems is useless. Because, before implementing it, the intruder can successfully broke the will manipulator and sit on the carrier after its estimation just by reading numerals on the STL1212 screen. It is not so easy with my new vector equation to scale the function into the signal domain, because you need to know in advance the resolution of the system, which can reach up to 64-bit in current gen domain. When the injection is made, it processes all the injection power (estimated by its current) into the free energy and dissolves it by applying the vector relationship in free-space. I think such kind of negative-force processors into the positive energy is what every “green” technology needs. In a century, when most of the equipment uses dirty tricks of negative or ground-loops estimation, the positive transformer will lead to new main lines for more and more STL1212 systems, empowering a farm of such devices on one physical machine.

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.