| Developers: | Lauftex (Galleon) |
| Date of the premiere of the system: | 2025/03/24 |
| Branches: | Telecommunications and Communications, Power Engineering |
| Technology: | Processors |
The main articles are:
2025: Presenting LF-21060-LCW
An ultra-powerful signal processor for the communication infrastructure - LF-21060-LCW - has been announced in Russia. Lauftex (Galleon) announced this on March 24, 2025.
The static superscalar processor is optimized for signal processing and communication infrastructure, developed in Russia and is not subject to sanctions restrictions in use in the Russian Federation.
The signal processor combines a wide band of memory with dual compute units supporting 32- and 40-bit floating-point processing and 8-, 16-, 32- and 64-bit fixed-point processing, which significantly improves processor performance. Using its Single-Instruction, Multiple-Data (SIMD) functions, the processor can execute 2.4 billion 40-bit MACs or 600 million 80-bit MACs per second.
The static superscalar architecture allows the processor to execute up to four instructions per cycle, performing 24 fixed-point (16-bit) or six floating-point operations. Three independent 128-bit internal data buses, each connected to one of three 2Mbit memory banks, provide access to four-word data, instructions and I/O and 14.4GB internal memory bandwidth per second.
Operating at 300 MHz, the protsessora core has an instruction cycle time of 3.3 ns. The cost of the processor is half that of an analog digital signal processor manufactured in the United States, and the delivery time is significantly reduced compared to foreign offers on the market, since the processors are available in the Russian Federation.
Lauftex also announced low-noise amplifiers (LNAs), which are high-tech electronic components with improved signal transmission characteristics. Unlike conventional amplifiers, the wideband low noise amplifier selectively increases the power of the target signal while minimizing associated noise interference.
When integrated into satellite communication systems and high-frequency switching lines, these devices demonstrate exceptional efficiency due to bidirectional signal amplification - both during reception and transmission of information. An extremely low noise factor is also provided when operating in a wide frequency range. These characteristics determine the versatility of the use of devices in various communication networks - from local to trunk communication systems.
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