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Archive : December 2018

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

Zero-emission signal network

Zero-emission signal network

Therefore, it was made, at the end of 2018 I made a full zero-emission kernel with protection level capable to overcome even the strongest wavetables. First, let’s talk about an experiment:

  1. For the last 8 month, I injected polynomial using different wavetables with open jets and closed jets (for the last four month).
  2. I made a tunneling via Compositor 4 Max for Live and made an intrusion of these wavetables into created Compositor network.
  3. I hosted the Compositor kernel 8.4.2 system with public coefficients until the last moment.
  4. At the final moment, when the network couldn’t cope with such amount of injections I transferred to fully autonomous system mode of Compositor kernel 8.5.6.
  5. This way, I left the created network.
  6. Then, using the Compositor kernel 8.5.6 with lower process ID, I ran the Compositor v9 Hypervisor and made the injection of the whole pool, but with feedback, which enabled to establish the strong feedback with strong immune system.

On the steps 4, 5, 6 the system started to recover and polynomial without the public coefficients paid off itself. This autonomous system is zero-emission, which is proved by Resource Monitor: the Commit memory graph stays on the 1,043,608Kb mark. It enables to make fully autonomous any living system, turning unlimited timeserver on.

By ruslany

Spectral polarizer

Spectral polarizer

Changing a multiplier the algorithm sets the curvature of time function. Spectral matching with algorithm happens by synchronous analysis of non-harmonic timbre (SANT). Using this algorithm, it can detect temperature characteristics of all mirroring points. The mirror network combines into the interferometer, which processed into polarizer by projection and rotation in 4-dimensional quaternion space. The background color displays the kernel temperature of the processor in the current moment of time. Quaternion rotation depends on the 96 bit-rate counters. The deployment of mirroring points allows visualizing the whole network map and to monitor kernel network topology. The mirror projections are previous points of stochastic distribution and lights in accordance to the processor kernel temperature. If the display background is red, then the kernel temperature is high and all points are dimed. The broadcast is turned off in this regime. If the display background is green, it states the normal kernel temperature. The kernel temperature is measured in GHz. Changing the spiral spin, algorithm changes the projected mirror colors and measures the kernel temperature. Mirroring points not only transferred by a spiral movement, but glides in accordance to the quantized interpolation. Polarizer achieves 400 dots resolution. It is refreshed at 24 frames per second rate.

When the polarizer works it is possible to reach the parity, but it is restored in the process of algorithm work. The fast response rate during the algorithm work performed not with implicit programming, but with stochastic distributions and four connection points. The mesh of bandpass filters translates all the information flows, which cannot be broadcasted on the higher frequencies to the layers, which are placed lower in the signal chain. To stay on the higher layers, the temperature kernel should match the speed of these layers. The higher bend curvature of time function corresponds to the time intervals, which stay further and the time-code communication on these frequencies can be fully excluded. Such work can happen only by condition of virtualized processor, because high processor kernel temperature cooling can be performed only in quantum computers.