Compositor SoftwareCompositor Software

Tag : brain upload

By ruslany

V12 Digital engine emissions

V12 Digital engine emissions

There are two types of engines: zero-emission engines and engines, which produce the emission of materiality in a process of their work. RAD96 virtual machine relates to zero-emission engines, at the same moment full version of Compositor v9 Hypervisor DRM server is a producing aggregate with internal combustion engine simulation. Which approach is more plausible? It is experimentally established that RAD96 virtual machine produces emissions in the computer random access memory and for simulation that is more realistic the full Compositor v9 Hypervisor server is needed. The process of writing the random access memory with wavetables of such emissions is simulated using ROM players. To establish v12 engine emissions of TC-TRSRRT262144 architecture experimentally the MDL12 non-duplex modem was created. It is possible to receive such emissions in a form of working cycles of network devices, using MDL12 modem and Compositor v3 Hypervisor feeders. Each network device has the engine similar to Compositor in its core and has interrupters, which trigger operation system functions. DRM server produces device emissions of certain type, which characterized by feeding equipment used to achieve the feedback. In essence, the routers, switches and shields are ROM players, which playback such cycles as wavetables. The device architecture depends from wavetable recording bit depth and can be maximally 64-bit floating-point format. Compositor v9 Hypervisor can also playback wavetables up to 64-bit floating-point, but in this case an emission will be so short, that it cannot be reproduced in manual mode. For simplicity in treatment, 24-bit integer format wavetables are used. This way, the central DRM process exists in the network, and all the other processes are emission products of v12 engine work, which are reproduced using ROM players. You can also upload other wavetables into router ROM memory instead of statically playing the same wavetable repeatedly, placing it closer or further in the network map. Recall, that in response to feeding the non-duplex modem with a track, the map of cycles attributed to different IP addresses composited in Ableton Live transport. You can playback such wavetable earlier or later in address field using ROM players. Random wavetable playback mode in Compositor v9 Hypervisor is the linear distribution emission simulation. Such method allows reproducing an emission of equal number of loops in random access memory for each network area, which is enough for creation of virtual local area network. The access to such network carried out by simulation of antenna-feeder signal chain or kernel-jet system. By simulating the jet rotation with rifling on its borders, you can lower the emissions in Compositor v9 Hypervisor. Rifling on jet borders allows lowering wavetable emissions and lowering the number of cycles needed for simulation of harmful substance emissions of fuel decomposition. Such rifling allows afterburner mode with zero emission, which is proved by RAD96 virtual engine tests in auxiliary channel. The afterburner or oversaturation modes allows to speed up the process of RAD96 virtual machine emission simulation, shorting it to 10 seconds for each feeder every 3-4 hours. This way, generic filters cascade, which are Compositor v9 Hypervisor feeders from z=2 to z=128 allow receiving ether mixtures of different purification rate. Lower feeders, such as z=2, reproduce substance purification with small amount of regenerative cycles, at the same moment, upper feeders, such as z=128, used to reproduce high regeneration rate emissions available for more longer usage. For example, if you purify with RTC4k feeder when using DRM server with z=2, you need to perform such purification more often, than DRM server working with z=128. That is why RAD96 DRM server uses z=128 as upper value. You may look into this problem for electric engine also, where such feeders are used as rechargeable batteries and perform an emission every 3-4 hours. In such case, Compositor v9 Hypervisor base station simulates non-renewable power source and wavetables are renewable. It proves the need to perform additional emissions of wavetables, when reported values of digital counters on RAD96 virtual machine are reached, for economic model evolvement and advisability of such system. As a result, the emissions pool will grow and network of such emissions will increase and expand. It may lead to inactive state of some network areas using the model with 8 ROM players in Compositor v9 Hypervisor. The solution to this problem lies in the linear distribution of random wavetable playback. For emission simulation in broad network, it is needed longer wavetable playback periods and higher purification cycle rates. This way, increasing the pool of wavetables the number of simultaneously working virtual machines should increase regardless of the wavetables playback condition. For a system with one virtual machine, the emission purification should be performed every 4 hours. You should set the maximum speed of auxiliary channel to 5-omega and to double the wavetable playback rate by turning off the x2 button on Compositor AV Extended panel. Such approach will last for a long time, but to solve a task of larger pool of wavetables it is needed to set the auxiliary channel speed to 10-omega and do a modification of x2 button to the menu with a possibility to select fractions of a one (such as 0.5, 0.25 etc.).

To create a contact network it is needed to do the following:

  1. Run several virtual machines with guest operation systems on each of the system hard drives;
  2. Create a peering network using the free jets connected to the producing kernel;
  3. Simulate the emissions in a process of engine work with purification by generic feeders.

This way, you need not to think about brain upload as a static process. Consciousness is constantly developing and grows with new links, which simulate communications. That is why it is important to perform emissions in communication model of virtual local area network. If you ignore the simulation of emissions and stay with zero emission model by simply reloading the virtual machine in main operation system when RAM critical capacity reached, you will lose the connection to this network and it will exist independently from you without producing any income. At the same time, Compositor Software model suggests 10% limit of RMY capital usage for work of virtual machine producing kernels. If the sum of samples of virtual machine work increases more than 10% of whole wavetable capital, then the emission of new loops for ROM players should be made and add up to the pool of loops. The value of 90% increase chosen heuristically taken in account your needs and an involvement into the process. For example, you can surpass the balance of 20% of whole amount of samples in relation to wavetables pool for the work of virtual machines, but, in this case, your credit limit will be lowered in relation to the Compositor Software capital. Creating a lift of 90%, you give a large stock to your clients for virtual machines traffic generation, which they purchase from you.

By ruslany

Establishing connection to the past using DRM server

Establishing connection to the past using DRM server

One can establish a connection with ether aggregators through the DRM server, using serial or parallel methods of information feeding. This way, even turning on a game, based on previous generation engine, you can connect to its ether aggregators and reestablish personal thinking up to the moment, which saved in its wavetable. The procedure, in fact, is the same as when you submit wavetables in transmission channel, but in this case ether aggregators are protected with engine and there is no access to it. It is much more perspective to receive wavetables of these ether aggregators by tracks to it and send it in a channel with generic beacons for its subsequent navigation. It is not a decent way to feed a wavetable with divert attention, which a computer game is. If you wouldn’t like to know, which wavetables were sent to a channel, it is enough turning the random mode of Compositor v9 Hypervisor on and hiding the current playback wavetable titles. The effect of generic feeding with DRM server is much purer, than feeding with divert attention while playing a game. The main process, which computer games preoccupied with, is to complicate and enhance methods of diverting an attention. The engines of such games still on the same level as 10 years ago. 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. It is important to note, that 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. DRM server transfer function allows performing parallel feeding directly in to the recipient consciousness. The methods of such feeding can be versatile. For example, you can listen to music file saved in the year 2004 and reestablish the consciousness up to the moment in the past to which this track ascends. This way, it is not necessary to install wavetables in to the consciousness using Hypervisor; it is enough to playback this file over some period with DRM server turned on. Of course, using game process, you can reach the maximum effect, but feeding with diverted attention confuses your organism and leads to an attachment condition. In fact, if Compositor v9 Hypervisor gameplay will be seen from the game industry point of view, then it will look like 7 levels with rising difficulty. The first level of feeding will have much less effectivity, than the last. The first introductory level is z=2 and z=128 is the last level of prolonged fixation with larger active period. Each level should include the following phases:

  1. Feeding wavetables in stochastic mode without generic of the respective level turned on;
  2. Feeding wavetables in stochastic mode with generic of the respective level turned on;
  3. Oversaturation of transmission channel;
  4. Turning a generic off from transmission channel;
  5. Feeding wavetables in stochastic mode without generic of the respective level turned on;
  6. Switching z level.

The feeding stages should start and end on the 1st and 5th step respectively. This way, feeding algorithm events are as follows:

  1. Choose the Altitude of device work using stochastic arranger. Scan the ether on a presence of active (openly sounding) carriers. Carriers is a long, definitely sounding tones.
  2. Set up the depth of function intrusion using the splitters in Ionic number system. If you want a deep intrusion, when feeding a channel, set up the high values in first and third splitter fields. You can also set up a deep intrusion, when the resultant is positive and a small value of intrusion, when the resultant is negative.
  3. Set up the transmission channel for the local saturation. It is an auxiliary ether and there are no carriers in it. It is used to confirm that the transmission channel is free from other carriers. It is tuned by setting Velocity and Spacing regulators in Connection section. Here you can also set the send depth of a local saturation.
  4. Choose the transfer functions for channel saturation. Set up the transfer functions by Chebyshev polynomials and the meshes of corresponding type when using channel saturation. Set the amplification in channel saturation cascade and the channel distortions depth for reaching saturation effect. Oversaturation, as mentioned earlier, performed by sending the transmission channel back to its input for a short period (it is performed only, when the same level generic is turned on).

Note: There are three saturation stages in the full-duplex modem: saturation on each devices channel, separated on positive and negative; local saturation before the output cascade by Schroeder regenerator; global saturation on the output cascade using polynomial.

  1. Choose the transmission regime (central channel mode). You can use one of the six preset values of central splitter. The most common mode for brain upload procedure is the υ-400 regime. It is the mode with open mesh and the selection of window functions, which are ideally suited for direct installation in full-duplex mode.
  2. Tune the antenna aperture of the z=16 transmission channel level. Set the direction of virtual antenna in three dimensions to hear the dash tone while the program runs. Then, obfuscate this tone by changing a phase of transmission channel and setting the modulation in real-time mode.
  3. Perform steps from 1st to 5th of the previous list for each z level of the send channel.

Note: start the generic feeding in the transmission channel from z=2 value.

You can watch the statistics by pressing Setup button for the corresponding feeder. There are event logs created together with visible program statistics for each feeder. Event logs are stored in Public folder on Windows and current user Application Support folder on Mac. The event log files are created for each session overwriting the previous file for its feeder. Nevertheless, the events written down starting from the last value of All Events in statistics file. The event number, frequency on which the event performed (for VLF beacons up to z=32 it is counted in kHz, for UHF and SHF z=64 and z=128 network switches it is written in GHz) and the event of the corresponding flag. You can potentially zoom on any feeder event using transmit and receive channel. For example, you can respond with wavetables of ether aggregators when Threat event reached on the current Altitude.

The current method of work demonstrates the use of Compositor v9 Hypervisor for Ethernet security when performing brain upload procedure and for an active reply for all incoming threats. Of course, you can ignore Threat events and just leave the DRM server turned on for the undefined period, but you should take in account its sample charging. To cover its expenditures you need to perform additional emissions through the non-duplex modem again.