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BWSim-5G

System level simulator for research and development in 5G and beyond wireless networks

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Release Notes

BWSim-5G

System level simulator for research and development in 5G and beyond wireless networks

Get Pricing
Get Free Trial
Release Notes

BWSim-5G

System level simulator for research and development in 5G and beyond wireless networks

Get Pricing
Get Free Trial
Release Notes

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Experience system level simulation for 5G and beyond wireless networks with ease.

Graphical Users Interface

The integrated GUI in the Simulator simplifies 5G parameter configuration, provides error feedback, captures dependencies, and enables running multiple simulations for side-by-side result comparison.

Adaptive Networks

In 5G, forward error correction, link adaptation, and rank adaptation are implemented in the Simulator.

Graphical Users Interface

The integrated GUI in the Simulator simplifies 5G parameter configuration, provides error feedback, captures dependencies, and enables running multiple simulations for side-by-side result comparison.

Adaptive Networks

In 5G, forward error correction, link adaptation, and rank adaptation are implemented in the Simulator.

Adaptive Networks

In 5G, forward error correction, link adaptation, and rank adaptation are implemented in the Simulator.

Multiple Input Multiple Output (MIMO) Systems

The Simulator supports the implementation of massive MIMO in 5G networks, enabling spatial multiplexing of multiple layers/streams with hundreds of antennas. It incorporates CSI acquisition methods, including reciprocity and feedback, along with Codebook Type I & Type-II.

Adaptive Networks

In 5G, forward error correction, link adaptation, and rank adaptation are implemented in the Simulator.

Multiple Input Multiple Output (MIMO) Systems

The Simulator supports the implementation of massive MIMO in 5G networks, enabling spatial multiplexing of multiple layers/streams with hundreds of antennas. It incorporates CSI acquisition methods, including reciprocity and feedback, along with Codebook Type I & Type-II.

System Level Simulator

BWSim-5G: 5G wireless system-level simulator with randomly dropped UEs and strategically located base stations for indoor, outdoor, small cell, and large cell terrains.

Performance Analyzer

Tool considers various input parameters and network performance parameters to evaluate the performance and make design trade-off questions at an early stage of network configuration.

Simulation Suite

Tool supports Link-level, Multi-cell, System-level simulations and is based upon R-16 of 3GPP standards and has been calibrated with submissions of several SDOs of 3GPP.

Simulation Key Performance Parameters

  • Link Level Simulation​
  • System Level Simulation​
  • Multi-cell Simulation​

In link level simulations, the users control the signal to noise ratio (SNR) of the link and evaluate the performance including Bit error rate (BER), Spectral Efficiency, Block Error Rate (BLER) and Throughput.

A system level simulation implements the complete system (with various UEs and BSs) consisting of multiple modules and layers on a software and allows the user to customize these entities to suit the purpose of their simulations.

Multi-cell simulation computes parameters related to channel/link including CDF of Transmit Antenna Gain, Link Gain, Channel Gain, Signal to Interference and Noise Ratio (SINR), Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ).

Use Cases

Industry

Product Development and Testing

5G: Fast, reliable, secure; optimized for seamless connectivity and innovation.

Network Design and Optimization

Strategic network design maximizes efficiency, reliability, and performance optimization.

Algorithm Design and Optimization

Efficient algorithms drive optimized 5G performance, speed, and network reliability.

Design New Wireless Standards

Innovative standards drive next-gen wireless advancements for seamless connectivity.

Academia

Industry / Lab / Research Oriented Curriculum

Curriculum tailored to industry and research needs enhances telecommunication expertise.

Skill Improvement for Students

5G-focused training equips students with advanced skills for telecommunications excellence.

Advanced Classroom Teaching​

Cutting-edge teaching methods enhance learning experience for 5G telecommunications students.

Research and Development for 5G/B5G Technologies

Continuous R&D drives 5G/B5G advancements, shaping the future of telecommunications.

Downloads

Download PDFs containing Lab Experiments and Project List for personal use.
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career and higher studies
The internship program not only provides scholars with hands-on experience in the field of wireless technology but also offers them a unique opportunity to join the organization as full-time Wireless Researchers upon completion of their internship. Furthermore, Gigayasa's location within the IITM Research Park allows scholars to apply for higher studies at IIT Madras, directly, without going through any entrance exam, while simultaneously continuing their work as part of our team. This affords researchers the opportunity to pursue advanced courses in parallel with their research work, facilitating a well-rounded development of their skills and knowledge.
career and higher studies
The internship program not only provides scholars with hands-on experience in the field of wireless technology but also offers them a unique opportunity to join the organization as full-time Wireless Researchers upon completion of their internship. Furthermore, Gigayasa's location within the IITM Research Park allows scholars to apply for higher studies at IIT Madras, directly, without going through any entrance exam, while simultaneously continuing their work as part of our team. This affords researchers the opportunity to pursue advanced courses in parallel with their research work, facilitating a well-rounded development of their skills and knowledge.
publication of research papers
Collaborating with Gigayasa can provide research scholars with access to cutting-edge technology and resources, which can enhance the quality and impact of their research. By partnering with us, scholars can benefit from the company's expertise in simulation technology, as well as its access to advanced computational resources and software tools. In addition to gaining access to these resources, research scholars who collaborate with us can also contribute to the development of new simulation methods and techniques, which can benefit us and the wider scientific community. One of the key benefits of collaborating with us is the potential for co-authorship and joint publication. By working together on research projects, scholars can produce high-quality publications that are jointly authored by both parties. Furthermore, we provide guidance to research scholars on publications in international journals, with the expectation that the scholars will cite and credit Gigayasa's simulation tool in their papers.
corporate training and incubation
Gigayasa is committed to advancing the field of 5G technology and promoting innovation in various industries. As part of this commitment, Gigayasa offers commercial licenses to academia, which provides various benefits to academic institutions and to the startups incubated through them. With the commercial license, academic institutions can utilize the 5G-Toolkit and BWSim-5G license for commercial purposes, including corporate training programs. Faculty members can utilize these simulation tools for delivering high-quality corporate training programs, either within their campuses or at corporate campuses. Additionally, the commercial license also enables academic institutions to offer the license/products to startups availing Institute's lab facilities. Startups can leverage the 5G-Toolkit and BWSim-5G license to develop and test their products, enabling them to accelerate their development process.
intellectual propery and patents
Intellectual property (IP) is a critical aspect of research collaboration, particularly in deep tech areas where we operate. We recognize the importance of IP and have developed a policy for IP ownership and sharing for work outputs that come through research collaboration. Under this policy, Gigayasa will file IP for work outputs that come through research collaboration. The institute will be a co-applicant in the IP, which means that they will have shared ownership of the IP. This provides the institute with legal protection over the IP and allows them to mention it in any medium, such as research papers or publications. The institute is free to use the IP for any of its research or publications, except for competing purposes or for commercializing the same. Gigayasa will use the IP for its own commercial purposes without any royalty payment to the institute. However, if we sell or sublicense the IP, then a share of the royalty would be paid to the institute.
Internships
Gigayasa recognizes the importance of internships in developing the next generation of researchers and offers internships ranging from 2 to 6 months in wireless communications. The internships offered by Gigayasa are a great opportunity for research scholars to gain hands-on experience in the field of wireless communications and contribute to its advancement. The internships offered by us are paid, and the stipend is in accordance with the norms of the institute. Our internships are also an opportunity for research scholars to network with experienced professionals in the field of wireless communications. This can be invaluable in building relationships that can lead to future job opportunities or collaborations.