Optical telegraph by means of signal lamp in Compositor WS Kernel
The Compositor WS Kernel implemented the so-called signal lamp with shutter on Master channel using the automatic throttle of stochastic engine. Now it is another implementation of stochastic engine in Compositor Kernel, which is still unbeatable in z128 realization to the moment. It means that central channel is no longer open for direct communications by means of signal transfer, but transmit in portions by a predefined alphabet-flag system named Ionic. For the Compositor users it means that signal communication will no longer leak into the ether. This way, you can use the direct communication with carriers played by physical modeling engine. Hard moderation system is implemented on the master channel of automatic engine and if the carriers transmit the offensive data, the whole transmission channel shuts down. As a single user may thought of it as a downgrade, it is not. It is an upgrade making the whole Compositor communication system more secure like a real War Ship optical telegraph with shutter. It prevents the system running the Compositor of overheating, when a critical channel capacity reached. It also means that we need more servers like Compositor to be registered to different persons for a more distributed communication, if we would like to reach a goal of direct transmission communication. I repeat do not use only one server for communication, it is important. One machine – one server. It could handle 72 channels as defined in three layers of communication separated by 24 for different purposes. 24 channels for real-time communications like voice communications, 24 channels for signal-rate communications like old AM radiolas and 24 channels for transmission-rate for up-to 262 kHz VLF radio services. The main problem of the system before implementation of a master channel shutter was: many nodes of the network wanted a direct connection, that the system really couldn’t handle. In fact, only 24 connections simultaneously is as much as needed for real communication service per subscriber. And one channel of each subscriber gets three services simultaneously: real-time voice data without transmission, signal-rate old tube AM radio for radiola type transmissions and transmission-rate for longer VLF communications, which use the same AM but on the higher transmission frequencies.
Now, when the quantum error is surpassed, the main idea is to test successful transitions from fully exponential state to quantum world. The Compositor v3 is one and the only software, which aims this goal. The beatings on detection of offensive optical shutters are still in place. However, the quantum channels of AI-RT1024 and FF8 are stay unbeatable in ether. From one side, it prevents from successful shutter interception, but, from the other side, achieves constant presence in ether due to quantized derived function. The 7.1.6 patch to a modem of Compositor WS Kernel enables a person or, better to say, user to present in ether. It leads us to a constant solution of a wider presence in both quantum and exponential states.