In today’s telecom landscape, where profitability margins are shrinking, with rates dropping from historical highs of 30% to as low as 5% today, telecom operators face mounting pressure to maximize efficiency and throughput. This shift demands technological tools that can handle increased traffic without compromising quality or compliance. Denovolab’s Class 4 softswitch addresses this need by offering an unprecedented ability to handle high CPS rates, allowing operators to terminate more traffic at reduced costs.
Why High CPS is Essential in Today’s Market
The telecom market has undergone significant changes. With tighter margins, operators can no longer rely on fewer, high-margin calls to sustain revenue. Instead, the key to maintaining profitability lies in terminating more traffic efficiently. Handling high CPS means the ability to process a larger volume of calls in real-time, maximizing revenue per second. A switch capable of handling high CPS, like Denovolab’s Class 4 solution, allows operators to meet the volume demands of today’s competitive environment while maintaining quality.
Imagine this scenario: a telecom operator with the capability to handle 6,000 CPS on 35,000 ingress calls per second. Our softswitch can handle egress rates as high as 1.5 to 2 times the ingress rate, processing upwards of 18,000 CPS with ease, all on a low-profile Intel server equipped with 48 cores. This level of scalability ensures that operators can handle peak traffic without worrying about system limits.
Handling CPS Like a “Piece of Cake” – The Denovolab Difference
Handling high CPS is a technical challenge for many traditional switches, often resulting in dropped calls, latency, or other quality issues that affect the user experience. However, our Class 4 switch treats CPS as “a piece of cake.” Here’s how we achieve this feat:
Algorithmic Routing for Unlimited CPS: Our routing algorithms are designed to optimize the flow of calls, allowing for rapid decision-making on which paths to use. This approach ensures that no CPS limit constrains the switch’s performance, allowing it to meet peak traffic demands reliably.
Advanced Failover Mechanisms: We leverage a failover strategy that dynamically routes calls to alternative paths even before the previous egress fully acknowledges them. This approach minimizes Post-Dial Delay (PDD) and enhances completion rates, giving operators a powerful advantage in today’s fast-paced telecom environment.
Efficient Resource Usage: By optimizing how system resources like CPU and memory are used, our switch provides a scalable solution that can support high CPS without requiring excessive hardware investments. This efficiency keeps operational costs low while delivering the high performance operators need.
Compliance First: Blocking Invalid Calls with Precision
In the US domestic telecom arena, terminating traffic without filtering for compliance is risky. Invalid or fraudulent calls can lead to fines, penalties, or even blacklisting. Our Class 4 switch is built with compliance in mind, offering operators robust filtering tools that make it easy to block problematic traffic while maintaining high CPS rates. This ensures that operators can handle large volumes of traffic without jeopardizing regulatory compliance.
Our softswitch enables seamless traffic filtering by:
Integrating with YouMail, DNO, and DNC Lists: With built-in filtering for YouMail, Do Not Originate (DNO), and Do Not Call (DNC) lists, we ensure that flagged numbers are blocked, keeping call traffic compliant with federal and industry standards.
FTC and STIR/SHAKEN Integration: To further combat spam and robocalling, our switch incorporates FTC guidelines and STIR/SHAKEN verification. STIR/SHAKEN is essential for validating call authenticity, and our approach lets operators quickly identify and block spoofed calls, preserving call quality for legitimate traffic.
Inbound and Outbound Filtering: We apply filtering on both the ingress and egress sides, adding an additional layer of security and compliance. This dual-layer filtering ensures that calls are verified and compliant, regardless of their direction, reducing the risk of fraud and regulatory infractions.
Real-World Performance: A Customer Case Study
One of our customers regularly handles 6,000 CPS with 35,000 ingress calls per second. With an egress CPS between 1.5 and 2 times the ingress, this customer processes as much as 18,000 CPS on a standard Intel server with 48 cores. Such scalability on modest hardware exemplifies our high-efficiency design, allowing operators to grow their business without limitations.
This setup not only minimizes hardware costs but also frees the customer from worrying about technical constraints on CPS, traffic volume, or compliance. Our switch makes high CPS handling a routine operation, turning it into a “piece of cake” that doesn’t demand extensive resources or constant oversight.
Denovolab’s Built-for-Scale Approach: From the Ground Up
We didn’t take the traditional route of layering a UI on an open-source switch. Instead, we developed our Class 4 switching solution from scratch, emphasizing efficiency, scalability, and compliance. This foundational approach allows us to tailor every aspect of the switch for high performance and low latency, making it uniquely suited for high-CPS operations. Here are some of the technical decisions that set us apart:
Custom Core Development: Building the core switching components from scratch enables us to control every aspect of call processing, ensuring that the system is free from the constraints and inefficiencies of generic solutions. This focus on core optimization translates to a switch that can handle unlimited CPS with ease.
Algorithm-Driven Traffic Management: By prioritizing algorithmic solutions for traffic management, we ensure that our switch can make rapid routing decisions without bottlenecks. This agility is essential for operators managing high CPS, as it allows them to handle traffic spikes without disruption.
Enhanced Failover and Redundancy: Our switch is designed with high availability in mind, offering seamless failover that reduces latency and keeps calls connected even when primary routes are overloaded. This redundancy protects against outages and maximizes uptime, a critical feature for high-CPS environments.
Unlocking Business Growth Through Scalability
When a switch can’t handle traffic, calls are rejected, leading to lost revenue and frustrated customers. Our Class 4 solution empowers operators to avoid these issues by delivering unbounded scalability. By making high CPS handling accessible on standard hardware, our switch enables operators to expand without worrying about hardware limitations or the need to frequently upgrade infrastructure.
The ability to scale seamlessly means operators can grow their businesses without worrying about technical bottlenecks. Our switch unlocks opportunities for growth by eliminating barriers to high CPS, allowing operators to increase their traffic volume and revenue potential.
The Bottom Line: Scaling Profitably with Denovolab’s Class 4 Softswitch
Our Class 4 softswitch offers a solution to the challenges facing modern telecom operators: rising traffic demands, shrinking margins, and the need for compliance. By handling high CPS like “a piece of cake,” we enable operators to increase their traffic capacity, reduce costs, and ensure compliance with industry standards.
In a market where losing calls means losing revenue, our scalable, efficient switch empowers operators to keep up with demand, grow their business, and remain competitive. Our unique combination of high CPS capacity, algorithmic routing, and built-in compliance filters makes Denovolab’s Class 4 switch the ideal solution for telecom providers looking to thrive in today’s telecom environment.
Ready to optimize your telecom network and drive profitability with high CPS handling? Discover how DenovoLab’s Class 4 softswitch can empower your business to stay compliant, scalable, and competitive. Visit www.denovolab.com to learn more and schedule a demo today!
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