Atoll 3.5 supports a staggering library of propagation models, but four stand out:
Efficient workflows and advanced simulation tools accelerate the deployment of new technologies, including 5G.
Engineers and administrators typically refer to several key manuals for Atoll 3.5, often found on platforms like Scribd : atoll 3.5
With the release of version 3.5, Forsk introduced core infrastructure changes designed to support large-scale enterprise deployments and high-volume parallel computing. 1. Native PostgreSQL Integration
As we navigate through the technological landscape, the demand for high-speed, low-latency connectivity continues to skyrocket. Tools like Atoll 3.5 bridge the gap between theoretical RF engineering and real-world network deployment. By leveraging machine learning-ready capabilities, comprehensive 5G NR modeling, and a deep integration of live telemetry, Forsk's Atoll 3.5 ensures that network operators can build, scale, and optimize the resilient networks of tomorrow. Atoll 3
, introduced advanced massive MIMO modeling and hybrid indoor/outdoor planning capabilities.
Import your LTE sites as usual. In Atoll 3.5, the new hierarchy system allows you to attach NR cells directly to the existing eNodeBs, maintaining the NSA (Non-Standalone) relationship structure automatically. Native PostgreSQL Integration As we navigate through the
Accurate planning prevents over-provisioning and reduces the need for costly post-deployment optimizations.
Furthermore, Atoll 3.5 features robust support for scripting (often using Python or VBScript) and integration via APIs. This allows enterprises to automate repetitive planning tasks, batch-process prediction studies, and integrate Atoll directly into their broader Network Management Systems (NMS) and automated OSS/BSS pipelines. The Future of Network Planning
Note: Atoll 3.5 was the last version to fully support the "Legacy Wallisch-Ikegami" model before it was deprecated.