Dual-processor architecture for the most demanding enterprise workloads in a compact 2U footprint with full redundancy, remote management, and hardware level security built in.
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The Pro Maestro CT is a 2U rackmount compute server purpose built for organizations running high density dual processor workloads. It delivers maximum processing capacity in a compact footprint with full flexibility to configure storage, network bandwidth, and power to your exact operational needs all within the Pro Maestro C Series CPU Servers.

Your focus belongs on your work, and your hardware should quietly support that goal. We build every system with a deep commitment to reliability and immediate usability.
Hot-swappable fans, drives, and redundant power supply modules mean your team can service the hardware without interrupting production workloads. Replace a fan, swap a drive, or cycle a power unit while the server keeps running.
Four hot-swappable high-RPM fans and a purpose-built airflow path maintain processors and memory within optimal operating temperatures under sustained heavy loads. Cooling is not an afterthought it is architecture.
Built-in IPMI gives administrators complete out-of-band control BIOS access, hardware monitoring, power management from any location. Reduces operational overhead across high-density, multi-site compute environments.
Integrated TPM provides hardware-rooted encryption protecting enterprise data at rest. Physical intrusion detection alerts administrators upon unauthorized chassis access an operational security layer that complements software controls.
A 1+1 redundant power supply configuration ensures the server remains operational if one unit fails. No planned or unplanned power-related downtime the system self-sustains through PSU replacement in the field.
Full support for both AMD and Intel processor families gives your infrastructure team flexibility to standardize on existing tooling or leverage the performance characteristics that best match your specific workload profile.
Cloud flexibility comes at a price. Large CPU workloads on the cloud quickly rack up recurring costs, whereas on-premises servers deliver predictable expenses and better ROI

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Large-scale model training, NLP inference, and deep learning pipelines that need sustained, parallel compute without bottlenecks.

Genomic sequencing, molecular modeling, and clinical data analysis where accuracy and processing speed are non-negotiable.

High-frequency trading, risk modeling, and economic simulations that demand low-latency, deterministic processing at scale.

Aerospace simulations, fluid dynamics, and structural analysis workloads that push compute infrastructure to its limits.
Every serviceable component in the Pro Maestro C chassis is designed for live replacement no maintenance window required.
Keeps the server running if one unit fails, with no service interruption.
Can be replaced without a maintenance window under full operational load.
Expand or replace storage while the system is live, without rebooting.

Select the platform that matches your current workload requirements. Both configurations share the same 2U chassis and core reliability features. Full specification details are available on each model's individual page
Select the platform that matches your current workload requirements. Both configurations share the same 2U chassis and core reliability features. Full specification details are available on each model's individual page.
Single ProcessorFocused power for high-intensity, single-node workloads. Ideal when you need dedicated processing in a compact footprint with room to configure storage, network, and power to your exact needs.
View Full SpecificationsFind the answers to our most common questions about twin-socket servers, setups, and performance requirements.
Two processors don't simply double real-world performance, but they roughly double the resources available: total cores, memory capacity, memory channels, and PCIe lanes. For workloads that scale well across sockets, such as large-scale virtualization and parallel enterprise applications, the CT delivers substantially higher aggregate throughput than any single-processor system.