For procurement teams: This SKU is the "goldilocks" buy—modern enough for Windows 11 24H2, but classic enough to interface with legacy hardware that still runs the world’s critical infrastructure.
The size is a classic fitment for heavy transport.
Compare the to specific hardware models like the Omnia.9 or Omnia VOLT .
Each use case prioritizes reliability, manageability, and vendor support—attributes emphasized by enterprise branding.
The 2021 Omnia leads primarily due to superior VRM thermal design, allowing the Xeon W-1350P to sustain boost clocks longer than Dell’s equivalent.
For the network engineer managing a mixed environment of modern 10GbE switches and legacy RS-232 controllers, the is a rare gem. It is not the fastest workstation of its era, nor the cheapest. However, it is the most compatible .
For more information on configuring your own 9s solution, contact the Telos Alliance sales team. If you'd like, I can:
The Omnia Enterprise 9S 33220 (2021) is a mid‑sized commercial all‑purpose system positioned for small-to-medium enterprises needing robust performance, modular expandability, and managed connectivity. This report covers specifications, performance, features, security, typical use cases, deployment considerations, maintenance, and recommendations.
For broadcasters who need to operate without internet connectivity—common in remote transmitter sites or secure facilities—the system supports local licensing via a . Each license authorizes one Omnia 9S server instance, and the total number of stations (i.e., independent processing engines) depends on the specific license purchased, with support for up to 64 stations on appropriately provisioned hardware.
Disclaimer: Specifications are based on the standard Omnia Enterprise build sheet for the 2021 model year. Actual configurations may vary based on custom OEM orders.
The value of the version 3.32.20 build was proven in real-world deployments. A notable example is the Dutch radio network , which switched entirely to the Omnia Enterprise 9S in early 2021. FunX’s technical team reported that the software solution perfectly matched their strategic direction toward virtualized and AoIP environments. They noted that the sound quality was a significant improvement over their previous Orban processors, with better low-end response and high-frequency clarity. By running the 9S on a custom-built, 24/7-optimized broadcast computer, FunX streamlined its operations, reduced equipment footprint, and simplified its installation.
Where the Omnia 9S 33220 truly separates itself from consumer workstations is its connectivity stack.
| Test | Omnia 9S 33220 | Dell Precision 3660 | Difference | | :--- | :--- | :--- | :--- | | | 12,845 pts | 12,100 pts | +6.1% | | SPECviewperf 2020 (Solidworks) | 98.4 fps | 91.2 fps | +7.9% | | 7-Zip Decompression | 72,100 MIPS | 68,400 MIPS | +5.4% | | Power Idle (Desktop) | 22W | 31W | -29% |
: As a data provider, the Enterprise 9S supports control commands through Ember+ and listens on port 9000 of any network interface. Administrators can configure a whitelist of IP addresses to restrict which hosts can send commands to the processor.
To help you put together a feature set, I’ll need to clarify what this product actually is. Could you please provide:
The Omnia Enterprise 9s represents a strategic pivot away from this model. Instead of a physical appliance, it is software-native, designed to run on commercial off-the-shelf (COTS) servers within a facility or in the cloud. This design allows broadcasters to break free from hardware constraints, turning audio processing into a flexible, centrally managed software service rather than a collection of disparate physical boxes.
For power users, the software offers : Basic, Intermediate, and Advanced. Users can toggle freely between these levels as they make adjustments, making the system accessible to engineers of all skill levels while still providing deep control for those who need it.
: Integration with Nielsen (PPM) and Kantar watermarking directly within the processor, eliminating the need for external hardware encoders.