Services

5G RAN – Design and R&D Services in CU/DU/PHY

TechPhosis boasts a team of highly experienced engineers and senior architects with a wealth of expertise in designing and enhancing 5G stacks. Our Design and R&D Services for 5G 3GPP protocol stack encompass all critical components including Central Unit (CU), Distributed Unit (DU), and Physical Layer (PHY). With specialists proficient in CU, DU, and both upper and lower PHY layers, we provide comprehensive support across the entire 5G protocol stack. Our team has extensive experience working with various 5G platforms, including but not limited to Intel x86, Intel FlexRAN, NXP SoCs (such as LX2160, LX2080, LX2088, LS1046, and LA1200xx), Marvell, ARM Ampere, Nvidia Grace Hopper, AMD and RISC-V processors. 

We undertake turnkey projects, providing end-to-end solutions that include the development of new features, optimization, and hardening on reference stacks across various platforms. Our Integration services seamlessly integrate the developed solutions with a wide range of platforms, ensuring compatibility and performance optimization.

Moreover, we offer consultancy and feasibility studies for complex 3GPP features such as Non-Terrestrial Network (NTN), Integrated Access Backhaul (IAB), and Time-Sensitive Networking (TSN).

5G Core – Design and R&D Services

TechPhosis offers comprehensive customization, hardening, and feature augmentation for 5G Core Networks. Our expertise extends to designing carrier-grade solutions, with a particular emphasis on crafting highly efficient User Plane Function (UPF) designs. 

The UPF is pivotal in ensuring both high throughput and ultra-low latency, while concurrently optimizing CPU core consumption.

We offer complete development of new features in Core network Compliant to 3GPP & ORAN Specification like upgrade for URLLC, TSN, IOT etc

5G Edge

5G Edge technology stands at the forefront of enabling large-scale IoT applications and services, revolutionizing the way data is processed and shared across wireless IoT network devices. At TechPhosis, we recognize the pivotal role that Edge solutions play in enhancing the performance of 5G services, and we offer cutting-edge solutions tailored to meet the unique requirements of our customers. 

One of our key offerings is mobile edge computing (MEC) enablement within the network infrastructure, customized to align precisely with the specific use cases and demands of devices connected via 5G.

This strategic implementation of MEC empowers near real-time data processing capabilities, significantly enhancing application performance and expediting decision-making processes.

By leveraging Edge computing, we effectively bring computation and data storage closer to the source of data generation. This proximity optimizes data processing efficiency, reducing latency and ensuring swift response times. Consequently, end-users experience enhanced digital experiences characterized by seamless interactions and minimal delays.

AI in 5G

Artificial intelligence (AI) has transitioned from being an optional feature to a vital necessity within the Telecom Industry, particularly with the advent of 5G networks. Traditional network deployment methods alone are insufficient to fully harness the capabilities of 5G. At Techphosis, we specialize in leveraging AI to optimize various aspects of telecom networks, particularly in the Radio Access Network (RAN) and Core Network domains. 

Our expertise lies in implementing AI-driven 5G solutions that enhance the overall design and performance of 5G networks. Specifically, we focus on the following key areas:

  • Utilizes machine learning algorithms to analyze historical data and real-time network conditions.

  • Predicts spectrum usage patterns and dynamically allocates resources to different frequency bands based on traffic demand, interference levels, and user priorities.

  • Optimizes spectrum utilization to maximize throughput, minimize latency, and improve overall network efficiency.
  • Employs AI-based traffic steering algorithms to route user traffic through the most optimal paths and network nodes.

  • Considers factors such as network congestion, link quality, user location, and application requirements to make real-time routing decisions.

  • Enhances Quality of Experience (QoE) by ensuring low latency, high throughput, and reliable connectivity for critical applications and services.
  •  Applies machine learning techniques to analyze network performance data and detect potential faults or anomalies before they cause service disruptions.

 

  •  Identifies patterns indicative of equipment degradation, signaling issues, or capacity constraints, enabling proactive maintenance and troubleshooting.

 

  • Reduces downtime and operational costs by preemptively addressing network issues and optimizing maintenance schedules.
  • Leverages AI algorithms to optimize RAN parameters, such as antenna tilt, power levels, handover thresholds, and resource allocation strategies.

 

  • Dynamically adjusts network configurations in response to changing traffic patterns, environmental conditions, and user behavior.

 

  • Improves spectral efficiency, coverage, and capacity utilization, resulting in higher network performance and better user satisfaction.
  • Utilizes AI techniques to optimize beamforming and Multiple Input Multiple Output (MIMO) configurations for enhanced radio coverage and capacity.

 

  • Analyzes channel conditions, user locations, and mobility patterns to dynamically adjust beamforming weights and MIMO transmission schemes.

 

  • Maximizes signal strength, minimizes interference, and mitigates multipath fading effects to deliver robust and reliable wireless connectivity.
  • Harnesses predictive analytics to forecast network performance metrics, such as throughput, latency, and packet loss rates.

 

  • Anticipates potential service degradations or bottlenecks and proactively takes corrective actions to maintain service quality.

 

  • Provides network operators with actionable insights and recommendations for capacity planning, resource allocation, and service provisioning.

6G POCs:

Techphosis is poised to revolutionize the telecommunications landscape with its cutting-edge 6G Proof of Concept (PoC) service. Leveraging its extensive expertise and collaboration with academia, Techphosis is at the forefront of exploring the possibilities of 6G technology, pushing the boundaries of what is currently achievable. 

At the heart of Techphosis’ 6G PoC lies a meticulous integration of the latest advancements from 5G 3GPP Release 18 and beyond. This ensures that the groundwork is laid on the most advanced foundations, setting the stage for a seamless transition to 6G capabilities. By embracing the latest standards and technologies, Techphosis enables organizations to stay ahead of the curve and gain a competitive edge in the fast-evolving telecommunications landscape.

Key technical components of Techphosis’ 6G PoC include:

Techphosis designs and implements cutting-edge network architectures tailored to harness the full potential of 6G technology. This includes the integration of novel concepts such as hyper-dense networks, intelligent edge computing, and network slicing to deliver unparalleled performance and reliability.
Techphosis explores innovative spectrum utilization techniques to maximize spectral efficiency and accommodate the increasing demand for high-bandwidth, low-latency applications. This involves leveraging millimeter-wave frequencies, massive MIMO technology, and dynamic spectrum sharing schemes to optimize spectrum utilization and enhance network capacity.
Techphosis harnesses the power of artificial intelligence (AI) and machine learning (ML) algorithms to optimize network performance, automate network management tasks, and proactively mitigate potential issues. By leveraging AI-driven insights, Techphosis ensures that the 6G network operates at peak efficiency and delivers an unparalleled user experience.
Techphosis places paramount importance on security and privacy in its 6G PoC, implementing robust encryption algorithms, authentication mechanisms, and access control policies to safeguard sensitive data and protect against cyber threats. By adopting a holistic approach to security, Techphosis ensures that the 6G network infrastructure remains resilient and trustworthy.

Techphosis fosters a collaborative ecosystem by actively engaging with academia, industry partners, and standards bodies to drive innovation and shape the future of 6G technology. Through open collaboration and knowledge sharing, Techphosis accelerates the development and adoption of 6G solutions, paving the way for a more connected and intelligent world. 

Overall, Techphosis' 6G PoC represents a bold step towards realizing the full potential of next-generation wireless communications. By embracing the latest technological advancements and fostering collaborative partnerships, Techphosis empowers organizations to pioneer new use cases, unlock new revenue streams, and redefine the possibilities of connectivity in the 6G era

Radio design and R&D Services

Techphosis, in collaboration with its channel partner, offers a refined service tailored to address the specific challenges faced by OEMs in designing Radio units for next-generation gNB RAN (Radio Access Network) technologies of different band, different power form factors and different Antenna. With a focus on flexibility, quality, and cost-effectiveness, Techphosis facilitates the seamless integration of new design RRU components into Customer’s products, empowering customer to deliver cutting-edge RAN solutions. 

Key technical refinements of Techphosis’ Radio design service include:

Techphosis leverages its deep understanding of Open RAN principles to assist OEMs in navigating the complexities of selecting the right Radio partner and designer. By embracing the flexibility introduced by Open RAN architectures, OEMs can decouple software and Radio components, enabling greater freedom in vendor selection and customization.
Techphosis collaborates closely with its channel partner, drawing upon their expertise and industry relationships to identify and onboard best-in-class Radio design houses. This ensures that OEMs have access to a curated network of Radio designers capable of meeting their specific requirements and budget constraints.
Techphosis works hand-in-hand with OEMs to understand their deployment use cases and technical specifications, enabling the customization of Radio designs to align with their unique needs. Whether it's optimizing for coverage, capacity, or latency, Techphosis ensures that the Radio design meets the stringent performance requirements of the OEM's target market.
Techphosis serves as a single point of contact for end-to-end RF design solutions, streamlining communication and coordination between OEMs and Radio design partners. This simplifies the procurement process and accelerates time-to-market, allowing OEMs to focus on core product development and innovation.
Techphosis places a strong emphasis on quality assurance throughout the Radio design process, ensuring that all RF components meet rigorous performance standards and regulatory requirements. Through comprehensive testing and validation procedures, Techphosis mitigates the risk of design flaws and ensures the reliability and robustness of the final product.
Techphosis helps OEMs strike the right balance between quality and cost-effectiveness by offering a range of Radio design options tailored to their budget and requirements. By leveraging its network of Radio design partners and negotiating favorable terms, Techphosis enables OEMs to achieve cost savings without compromising on performance or reliability.

SOC platform and Design services

TechPhosis, in collaboration with its ecosystem and channel partners, offers a comprehensive solution for customers seeking to develop 4G or 5G RAN solutions based on integrated RAN technology. Whether it’s Indoor small cells, outdoor small cells, or Micro cells across various bands and form factors, TechPhosis provides the expertise and support needed to navigate the complexities of selecting the right System-on-Chip (SoC) and manufacturing partner for cost-optimized 5G gNB solutions. 

Key technical refinements of TechPhosis SOC Platform and Design service include:

TechPhosis works closely with customers to understand their deployment use cases, enabling the selection of the most suitable SoC for their specific requirements. With in-depth knowledge of SoC capabilities and performance metrics, TechPhosis ensures that customers achieve optimal performance and efficiency in their RAN solutions.
TechPhosis collaborates with leading channel partners specializing in SoC design, ensuring access to top-tier manufacturing capabilities and expertise. Through these partnerships, TechPhosis facilitates the design and production of high-quality SoCs that meet customers' stringent quality standards, delivery timelines, and budget constraints.
TechPhosis offers comprehensive consultancy services for end-to-end system solution, integration, providing customers with valuable insights and guidance throughout the development lifecycle. From initial concept ideation to final deployment, TechPhosis assists customers in making informed decisions and optimizing their RAN solutions for maximum performance and scalability.
TechPhosis prioritizes quality assurance throughout the SoC design and manufacturing process, ensuring adherence to industry standards and best practices. Through rigorous testing and validation procedures, TechPhosis guarantees the reliability, robustness, and compatibility of SoC solutions, minimizing the risk of technical issues and ensuring seamless integration into customers' RAN environments.
TechPhosis helps customers achieve cost optimization without compromising on quality or performance, leveraging its expertise in SoC selection, design, and manufacturing. By identifying cost-effective solutions and negotiating favorable terms with manufacturing partners, TechPhosis enables customers to maximize their return on investment and achieve competitive advantages in the market.

Testing

Techphosis, with its unparalleled 200+ man-years of collective experience in the Telecom Industry, epitomizes excellence in software development and system verification. Delving into the intricate nuances of each phase within the telecom product lifecycle, Techphosis understands the critical role that system verification testing plays in ensuring the successful deployment of OEM products. 

At the heart of Techphosis’s testing prowess lies its formidable team of experts, boasting hands-on experience across the spectrum of system verification testing, spanning from the legacy 2G technologies to the cutting-edge realms of 5G. Their proficiency is not confined to execution alone; they excel in crafting comprehensive test plan documents, meticulously aligning them with requirements specifications outlined by the 3GPP standard to ensure full compliance and eliminate any latent bugs lurking within the system.

A key differentiator for Techphosis is its expertise in developing automated test frameworks. These frameworks, tailored to the specific needs of each project, play a pivotal role in accelerating the testing process, thereby substantially reducing test cycles with every new release. This efficiency translates to faster time-to-market and enhanced product reliability.

Techphosis’s proficiency extends beyond theoretical knowledge, with practical experience encompassing a wide array of industry-standard telecom test tools. From QXDM to Vivai TM500, Simnovus/Amarisoft to Spirent, and Nethawk protocol analyzer, the team leverages the full spectrum of these tools to optimize testing efficiency and accuracy.

In summary, if you seek a robust testing partner capable of delivering carrier-grade solutions, Techphosis stands ready with its proven track record, unparalleled expertise, and unwavering commitment to excellence in system verification testing within the telecom industry.

Test tool development and services

TechPhosis offers comprehensive end-to-end services for telecom-related test tool development and testing. Specializing in Telecom RAN and Core network software development, we are deeply involved in the entire lifecycle of program development, from initial software development to system verification testing. 

Our experienced team utilizes test tools extensively throughout the software development verification phase. As we progress through the program lifecycle, these tools are seamlessly integrated into system verification testing, ensuring thorough and efficient testing processes.

We possess in-depth knowledge of various test tools and are adept at guiding test tool companies in enhancing their products. Our expertise includes optimizing performance, suggesting feature enhancements based on 3GPP specifications, and providing insights on how to increase efficiency and effectiveness.

Lab as a service

TechPhosis provides a laboratory environment that is accessible to customers as a service. This lab is specifically geared towards testing various aspects of 5G technology from end-to-end.
by providing comprehensive lab as testing services, TechPhosis assists its clients in minimizing the expenses and time associated with bringing their products or services to market.
TechPhosis helps its clients achieve certification by ensuring that their products or services comply with relevant standards and regulations, which is crucial for market acceptance and legal compliance.
TechPhosis provides testing facilities for devices like smartphones, tablets, and other gadgets that connect to 5G networks.
TechPhosis also offers testing services for the core infrastructure of 5G networks with commercial UEs and load testing
Techphosis enable auto test frame and test script to test the gNB a key component of 5G networks and enable ORAN compliance test cases
TechPhosis supports testing for a variety of use cases beyond traditional devices. Enable emerging technologies like drones, robots, and Internet of Things (IoT) devices compliant to 5G
CU stands for Central Unit, and DU stands for Distributed Unit, both components of 5G RAN architecture. TechPhosis enables testing for these modules independently and ensures compliance with 3GPP and ORAN standards for all different interface like F1, E1, E2, O1 compliance.
TechPhosis specializes in offering end-to-end services for UE (User Equipment) or mobile stack software development and protocol conformance testing. Our team boasts extensive experience in UE stack development, ensuring compliance with stringent 3GPP specifications and facilitating interoperability testing

With our comprehensive understanding of both RAN and Core network software development, as well as interoperability testing across various network functions, we provide customers with a one-stop solution for all their lab infrastructure needs for UE stack development life cycle. Our integrated approach encompasses robust development and testing teams, ensuring seamless coordination and efficient project execution for UE development with shorter time and economically as well.

In addition to engineering resources, TechPhosis offers comprehensive support for certification processes, covering everything from device certification to complete telecom infrastructure setup. This comprehensive service offering positions us as the preferred choice for customers seeking UE software development or testing services.

Regardless of the target platform type, our hands-on experience enables us to develop protocol stacks on all major platforms, ensuring compatibility and performance across diverse environments and hence if you require carrier-grade UE product development, TechPhosis is your trusted partner.

If you're in need of a strong team to create a carrier-grade UE product in-house, don't hesitate to reach out to TechPhosis. Let's discuss how we can support your project and drive success together.