Aviz Service Node outlines vendor-neutral packet visibility for 4G/5G
Aviz outlined how its Aviz Service Node (ASN) uses DPDK-based packet processing on x86 servers and integrates with Open Packet Broker and Network Co-Pilot to deliver vendor-neutral visibility across 4G/5G and other environments. The update is relevant to enterprise IT and security leaders managing multi-vendor telemetry, scaling constraints, and data distribution workflows.
Research Overview
The post describes ASN as a software-first packet processing appliance designed to support growth in 4G/5G networks and multi-technology traffic. It also positions the solution as part of a broader vendor-neutral visibility stack built around OPB and Network Co-Pilot.
The article frames the approach around operational scaling needs and the management of visibility workloads on standard server hardware. It highlights an orchestration and telemetry interface called Flow Vision.
Key Findings
ASN is described as providing unified monitoring for 4G, 5G NSA/SA, data centers, and enterprise sites. The post also attributes functions for deep packet inspection, per-subscriber KPIs, packet de-duplication, and session distribution across tools.
The article states that ASN supports open data export by streaming enriched metadata to Elasticsearch, Kibana, Kafka, or a data lake. It also includes a quoted claim that removing proprietary hardware and licensing fees results in 50% cost savings.
Technical Breakdown
According to the post, ASN is a high-performance, DPDK-powered packet processing component that runs on standard x86 servers. It integrates with Open Packet Broker and Aviz Network Co-Pilot to form a complete vendor-neutral visibility stack.
The article lists features including deep packet inspection that identifies encrypted apps such as WhatsApp and Facebook using multiple techniques. It also describes per-subscriber KPI correlation across control and user plane flows, covering throughput, latency, and session metrics.
Operational Impact
For deployment operations, the post states that Flow Vision centrally manages all ASN nodes through a unified UI for orchestration and telemetry. It also describes packet de-duplication to remove duplicates from multiple taps to reduce bandwidth and tool costs.
The post adds that a smart load balancing function distributes subscriber sessions across tools to prevent overload. It pairs this with open metadata export that streams enriched data to Elasticsearch, Kibana, Kafka, or a data lake.
Leadership Perspective
The article includes a quote from Ilanchezhian Raman, Senior Solution Architect at Aviz, stating that operators need vendor-neutral scaling of packet processing on commodity servers. The quote attributes 50% cost savings to removing proprietary hardware and licensing fees and refers to “the three C’s” as choice, control, and savings.
The quote also frames ASN as enabling customer choice and control while reducing tool-related cost drivers. The post does not provide supporting metrics beyond the stated 50% claim and the listed feature set.
The post describes Aviz Service Node (ASN) as a DPDK-based packet processing component on x86 hardware that integrates with Open Packet Broker and Network Co-Pilot, with centralized management via Flow Vision. It outlines capabilities for unified monitoring, per-subscriber KPIs, de-duplication, load balancing, and open metadata export, alongside a quoted 50% cost-savings claim. Blog Signals brief is a fact-based summary of the vendor blog.