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CP-6137-960FX server

By ruslany

Compositor Software builds virtual servers for Microsoft Windows and Android platforms

Compositor Software builds virtual servers for Microsoft Windows and Android platforms

Compositor Software presents 4 architectures on C++. It is TC-TRSRRT2048, TC-SUBTRSRRT262144, TC-2SUBTRSRRT262144 architectures for STC2k, RTC4k, RAD96 and RAD36 platforms correspondingly. Now, when Compositor Software code repository have grown, it is time to move forward past the MaxMSP platform. First, Compositor Software thanks the JUCE framework for providing an ideal platform to make servers. Compositor Software would like to thank Iain Patterson for providing NSSM application, which helps creating daughter services and allows making full scale server out of company code, written on Gen~ platform. Of course, the main tool is and still the MaxMSP platform, because the original Compositor Pro 1 project was entirely made on MaxMSP objects and later rewritten using Gen~ object. It allowed exporting an authentic C++ code out of MaxMSP 6 platform. Additionally, we want to thank Cycling ’74 for providing a project to build exported code in JUCE and Microsoft for providing Visual Studio 2019 Community, which allowed to make final builds of Windows versions.

Before making standalone apps, Compositor architecture codes compiled from several minutes to 5 hours at runtime. Now, programs load in seconds and consume lower system resources than original MaxMSP Runtime applications.

Using Gen~ platform and JUCE it was possible to build RAD96 mobile application, which allows transforming your smartphone into a complete autonomous system with Compositor kernel of last generation. This way, Compositor Software moving into the IoT side conception to create a network of devices, controlled by CP-6137-960FX server, which runs the aforementioned services. This modification allows upgrading the device performance from Windows NT 4.0 kernel (Linux 2.6.18 kernel on Android) to 8th generation Compositor kernel. It includes x2048 oversampling, digital shutter with interpolation, second derivative of a function and 8th order Butterworth filters.

The desktop version of Compositor Software 4th generation experimental kernel (TC-TRSRRT2048 architecture) has virtual accumulator module, which allows controlling the physical accumulator charge and performs charging each time network activity occurs. This kernel can be used on mobile platform also.

Compositor kernel architecture itself is a modular architecture if described by using physical blocks. The amount of modules depends on its usage. In base configuration, Compositor is NTP-server core service. In advanced configuration, it is L2TP client-server application with tunnel authentication capabilities. However, Compositor Software doesn’t set Compositor RTOS 9.0.2 as deprecated platform due to this move. It is only made because of the fact that pre-built application-service has much higher uptime in comparison to Runtime with dll modules of MaxMSP. The fact that, RAD96 mobile is on the constant expose due to the network presence on the device itself, CP-6137-960FX server supports its calculation, serving for distributed computation. It is performed using 2nd order transfer function, which can stack a lot of devices with minimal expenditures, and RAD36 platform supports such computation by multithread 12-cores L1-L3 architecture.

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

Technological impact from Bell Labs to Cycling ’74

During an analysis of technology, which presumed an ability to implement the market with whole sale prices as evident as the original intent of creator the following scheme was implemented:

I must admit and acknoledge that by means of this scheme not only a solution to market but the quality of distribution may rise.

CP-6137-960FX server
Compositor Software builds virtual servers for Microsoft Windows and Android platforms