Layer 1 5G IP specialist AccelerComm announces the general availability of its PUSCH channel end-to-end simulator.
The simulator allows telecom equipment vendors to evaluate their IP components, and allows AccelerComm engineers and customers to learn more about PUSCH processing components compared to the Matlab 5G toolbox, recognized as an industry benchmark by 3GPP. You can comprehensively analyze various behaviors. defined scenario.
In this way, both O-RAN communications equipment and silicon vendors can directly understand the spectral efficiency gains achieved by AccelerComm IP in their specific use cases.
High spectral efficiency is essential to enable mobile phone networks and other wireless networks to provide sufficient capacity, high data rates, good coverage, and high quality of service. Improved spectral efficiency can also significantly reduce infrastructure equipment and operational power consumption, requiring less equipment to provide the same network performance.
AccelerComm enables optimal performance of 5G radio access networks, solving challenges that can limit 5G throughput, latency, and spectral efficiency by mitigating the effects of noise, interference, and signal strength degradation. We offer complete physical layer IP solutions and components.
“The challenge we face, both externally and internally, is how to effectively quantify and demonstrate the spectral efficiency gains from the advanced algorithms we are delivering to our customers. Every link in the value chain We needed a tool that would help our customers quickly understand these performance improvements and how they could benefit their specific use cases,” said Will Brown, director of terrestrial network products at AccelerComm. states. “The PUSCH channel simulator provides a powerful tool to quantify these gains. For example, it clearly shows the 3dB spectral efficiency advantage of an AccelerComm equalizer or the 0.8dB gain of an LDPC decoder. Masu.”
To quantify the performance of the AccelerComm IP component and provide an apples-to-apples comparison, two signal processing chains are modeled side-by-side in the simulator. The primary chain consists of all MATLAB® and 5G Toolbox components, but includes AccelerComm’s interference estimator, channel equalizer, QAM demapper, and LDPC decoder. Meanwhile, for the benchmark chain, all components are from his MATLAB® and 5G Toolbox. Since each component can be replaced with an alternative solution, the impact of these components can be observed individually on the PUSCH channel of the upper PHY.
