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Enterprise Compute Platform

Rackmount 2U CPU Server in India | Pro Maestro C Series

Reliable compute nodes built to process heavy corporate workloads. Scale your infrastructure with 2U rackmount CPU servers, available in single and dual-socket configurations for AMD EPYC and Intel Xeon processors.

High Performance CPU Computing Workspace
Pro Maestro C Server Chassis
Solution Overview

Built to Run. Built to Last.

The Pro Maestro C is a 2U rackmount compute server designed for organizations running workloads that demand sustained, high-throughput processing. It comes in two configurations: a single-processor model for focused, dedicated compute, and a dual-processor model for workloads that require maximum parallel capacity.

Both configurations share the same chassis, the same reliability features, and the same support for AMD and Intel processor families. Your choice comes down to the scale of work you are running today and the headroom you need for tomorrow.

Platform Selector

Choose Your Configuration

Select the hardware that matches your workload. Both setups utilize the same 2U chassis to maintain consistent physical dimensions in your server rack while offering different processing capacities.

CS Single Processor PlatformSingle Processor

CS Single Processor Platform

Deploy a single AMD EPYC or Intel Xeon processor. This system handles standard enterprise applications and localized virtualization environments while leaving PCIe lanes open for high-capacity storage and network expansions.

Explore Pro Maestro CS
CT Twin Processor PlatformTwin Processor

CT Twin Processor Platform

Integrate two processors to maximize compute density. This dual-socket architecture doubles your core count within the same 2U rack space to support heavy database management, large-scale virtualization clusters, and intensive data processing tasks.

Explore Pro Maestro CT
Compute and Management

Compute Density Built for Enterprise Workloads

The Pro Maestro C series is built to handle serious workloads and give you full control over how it runs.

High Core Density

Up to two 192 core AMD EPYC or Intel Xeon processors, up to 384 cores in a dual socket configuration, for heavy virtualization, large databases, or parallel data pipelines without contention.

Thermal Design That Sustains Performance

Four hot swappable high-RPM fans and a purpose-built airflow path work together to keep processors and memory within optimal operating temperatures under sustained heavy loads. Cooling is part of the performance architecture.

Remote Management (IPMI)

Built in IPMI gives your administrators complete control from anywhere BIOS access, hardware monitoring, and system management available remotely, reducing the operational overhead of managing high density compute environments.

Hardware Level Security (TPM)

An integrated TPM provides hardware rooted encryption to protect enterprise data at rest. Physical intrusion detection alerts administrators immediately upon unauthorized chassis access, complementing software level controls.

High Core Density

Up to two 192 core AMD EPYC or Intel Xeon processors, up to 384 cores in a dual socket configuration, for heavy virtualization, large databases, or parallel data pipelines without contention.

Thermal Design That Sustains Performance

Four hot swappable high-RPM fans and a purpose-built airflow path work together to keep processors and memory within optimal operating temperatures under sustained heavy loads. Cooling is part of the performance architecture.

Remote Management (IPMI)

Built in IPMI gives your administrators complete control from anywhere BIOS access, hardware monitoring, and system management available remotely, reducing the operational overhead of managing high density compute environments.

Hardware Level Security (TPM)

An integrated TPM provides hardware rooted encryption to protect enterprise data at rest. Physical intrusion detection alerts administrators immediately upon unauthorized chassis access, complementing software level controls.

Industries We Serve

Who It Is Built For

Build your IT foundation with servers designed for heavy workloads. These systems handle the continuous data processing required for scientific research, financial modeling, and physical simulations.

AI & Machine Learning

AI & Machine Learning

Coordinate data preprocessing, NLP inference, and machine learning pipelines. Engineered to sustain continuous compute tasks and organize massive datasets.

Healthcare & Biotechnology

Healthcare & Biotechnology

Process genomic sequencing, molecular modeling, and clinical data analysis. Built to maintain consistency and evaluate large medical datasets securely.

Finance & Quant Analysis

Finance & Quant Analysis

Run high-frequency trading algorithms, risk modeling, and economic simulations. Configured for low-latency processing and reliable deterministic execution.

Engineering & Manufacture

Engineering & Manufacture

Manage aerospace simulations, fluid dynamics, and structural analysis workloads. Engineered to support intensive hardware demands for physical engineering tests.

AI & Machine Learning

AI & Machine Learning

Coordinate data preprocessing, NLP inference, and machine learning pipelines. Engineered to sustain continuous compute tasks and organize massive datasets.

Healthcare & Biotechnology

Healthcare & Biotechnology

Process genomic sequencing, molecular modeling, and clinical data analysis. Built to maintain consistency and evaluate large medical datasets securely.

Finance & Quant Analysis

Finance & Quant Analysis

Run high-frequency trading algorithms, risk modeling, and economic simulations. Configured for low-latency processing and reliable deterministic execution.

Engineering & Manufacture

Engineering & Manufacture

Manage aerospace simulations, fluid dynamics, and structural analysis workloads. Engineered to support intensive hardware demands for physical engineering tests.

Built In Resilience

Redundancy and Uptime

Every serviceable component in the Pro Maestro C series CPU servers are designed for live replacement, so maintenance won't interrupt your workloads.

Redundant 1+1 Power Supply

Maintains continuous power delivery and server operation during a primary unit failure.

Hot Swappable Cooling Fans

Allows direct module replacement during full operational load to sustain system thermal management.

Hot Swappable Drive Bays

Facilitates active storage expansion and physical drive replacement while keeping the operating system online.

Built for Zero Downtime chassis component hot-swap
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