CommScope has announced the deployment of its vCCAP Evo™ Virtual Converged Cable Access Platform at Vidanet, a broadband provider serving Hungary. The deployment marks a significant step in Vidanet’s transition to a Distributed Access Architecture (DAA) network. The project includes CommScope’s vCCAP Evo platform, along with E6000r™ High-Density and E6000r Remote PHY (R-PHY) shelves, which will allow Vidanet to virtualize its CMTS core and shift DOCSIS® signal generation from centralized hardware to the network edge via R-PHY technology.
By virtualizing its cable access network, Vidanet will centralize the management of its R-PHY shelves through the vCCAP Evo’s automated provisioning, monitoring, and fault management features. The solution will reduce operational costs, improve energy efficiency, and accelerate the introduction of new services for Vidanet’s customers. The deployment will be supported by CommScope’s Intelligent Access Controller (IAC), providing additional management capabilities such as zero-touch activation and disaster recovery.
The vCCAP Evo deployment will be rolled out in a centralized hub serving select Hungarian cities and surrounding areas, helping Vidanet reduce hardware dependencies and improve network scalability. CommScope’s channel partner HFC Technics will assist with installation and integration as Vidanet migrates to a modern, cloud-optimized DAA infrastructure.
Key Points:
• Vidanet deploys CommScope’s vCCAP Evo™ platform and E6000r R-PHY shelves for DAA network upgrade.
• Virtualized CMTS core enables DOCSIS® signal generation at the edge via Remote PHY devices.
• vCCAP Evo supports centralized provisioning, network monitoring, and automation for Vidanet’s cable network.
• CommScope’s Intelligent Access Controller (IAC) will enable zero-touch activation and enhanced network resiliency.
• The project improves energy efficiency and scalability, supporting Vidanet’s service expansion plans.
“Virtualizing our CMTS core with the vCCAP Evo solution has many advantages,” said Attila Friedrich, CTO of Vidanet. “It allows us to deploy new E6000 series shelves into our network with minimal service disruptions, and then provision and manage those devices more efficiently than we could with a traditional, hardware-based CCAP.”
- Distributed Access Architecture (DAA) is a next-generation cable network design that decentralizes key network functions by moving them closer to subscribers, typically at the node or access point level. Unlike traditional centralized architectures where DOCSIS signal generation occurs at a headend via a monolithic CMTS or CCAP platform, DAA shifts digital processing to Remote PHY (R-PHY) devices deployed at the network edge. This approach reduces backhaul requirements, lowers latency, and enhances scalability and resiliency. DAA enables operators to simplify their core network infrastructure, improve energy efficiency, and deliver higher-speed broadband and advanced services to meet growing demands for bandwidth and low-latency applications.
- The Data Over Cable Service Interface Specification (DOCSIS) has evolved significantly since its introduction in 1997 by CableLabs, transforming cable networks into robust broadband platforms. DOCSIS 1.0 enabled basic internet access with speeds up to 40 Mbps downstream and 10 Mbps upstream, followed by DOCSIS 1.1, which added Quality of Service (QoS) for voice services. DOCSIS 2.0, released in 2001, boosted upstream speeds to 30 Mbps, enhancing symmetry for emerging applications. The major leap came with DOCSIS 3.0 in 2006, introducing channel bonding to achieve multi-gigabit downstream speeds (up to 1 Gbps) and support for IPv6, meeting the demands of HD video and cloud services. DOCSIS 3.1, launched in 2013, further revolutionized performance with OFDM modulation, offering up to 10 Gbps downstream and 1-2 Gbps upstream, alongside improved energy efficiency. The latest release, DOCSIS 4.0, announced in 2019 and now being deployed, pushes the envelope with symmetrical multi-gigabit speeds (up to 10 Gbps downstream and 6 Gbps upstream), low-latency capabilities via features like Low Latency DOCSIS (LLD), and support for extended spectrum (up to 1.8 GHz), enabling cable operators to compete with fiber while leveraging existing hybrid fiber-coaxial (HFC) infrastructure. This evolution reflects DOCSIS’s adaptability to escalating bandwidth and performance needs.
- Vidanet is a prominent telecommunications provider in Hungary, offering a range of services including high-speed internet, cable television, and telephony to residential and business customers, primarily in the western and central regions of the country. Established in 1991, the company has grown to become a key player in Hungary’s broadband market, leveraging the nation’s hybrid fiber-coaxial (HFC) infrastructure to deliver reliable connectivity. Vidanet has embraced modern network technologies, such as DOCSIS 3.0 and 3.1, to provide multi-gigabit speeds, aligning with the industry’s shift toward higher bandwidth to support streaming, gaming, and remote work demands. In recent years, Vidanet has been part of the broader consolidation trend in Hungary’s telecom sector, being acquired by 4iG Plc, a major IT and telecommunications group, which has bolstered its resources and market reach. With a focus on customer service and network upgrades, Vidanet continues to play a vital role in enhancing digital access in Hungary, though specific updates on its adoption of next-generation architectures like Distributed Access Architecture (DAA) or DOCSIS 4.0 are not widely publicized as of early 2025.