ORv3 HPR
Seismic RDHx
ORv3 HPR Seismic RDHx
ORv3 HPR Seismic RDHx is an OCP-compliant server rack designed for high-performance servers in mission-critical data centers. It provides high equipment density, efficient liquid cooling, vibration isolation, and seismic resilience, ensuring reliable IT infrastructure operation in demanding environments.
HPR (High Power Rack)
ORv3 HPR is a versatile server rack tailored for high-load data centers. The design meets modern data center requirements, offering support for high-density deployments, efficient power management, and flexibility for various server solutions (OCP and EIA).
Compliance with Standards:
– OCP (Open Compute Project): Compatible with 21″ and 19″ architecture.
Liquid-Cooled Structure:
Supports up to 72 Nvidia GB200 GPUs, 36 Grace CPUs, and 9 NVLink switch trays (2 switches per tray) with a total power capacity of up to 140 kW.
Business Advantages:
1. Increased Density: Supports up to 48 OpenU, 52 RU, or 96 units of ½ OpenU equipment.
2. Load Capacity: 1800 kg
3. Versatility: Compatible with both 19” and 21” equipment formats.
4. High Power Capacity: Integrates the latest specifications (October 2024) with HPR busbars, enabling connection to 6 power shelf units.
5. Ease of Deployment: Racks can be seamlessly aligned into rows using standard brackets.
RDHx (Rear Door Heat Exchanger)
The Rear Door Heat Exchanger is a liquid-based thermal energy reclamation system designed to remove residual heat and improve the energy efficiency of HVAC systems in data centers.
Technical Specifications:
– Thermal Capacity: Up to 19.3 kW
– Airflow: 5500 m³/h
– Coolant: 30% Ethylene Glycol and Water
Heat Exchanger Temperatures:
– Inlet: 18°C
– Outlet: 23°C
Materials:
– Stainless Steel plates and copper tubing
Compliance with Standards:
– ISO 14001: Environmental management standards
– OCP: Integration into OCP rack architecture
Purpose:
– Reduces HVAC load by cooling residual heat.
– Maintains stable equipment temperatures under intensive workloads.
– Lowers the carbon footprint through optimized HVAC operations.
Business Advantages:
1. Reduced Operating Costs: Lowers HVAC energy consumption through localized heat removal.
2. Energy Efficiency: Lowers outlet air temperature by up to 10°C.
3. Ease of Integration: Installs seamlessly without rack modifications.
4. Environmental Sustainability: Residual heat can be repurposed for secondary needs (e.g., building heating), reducing indirect CO₂ emissions, especially in coal-reliant regions.
Seismic (Vibration Isolation and Seismic Resilience)
ORv3 HPR Seismic incorporates a vibration-isolating base for deployment in seismically active regions. It utilizes stainless-steel wire rope isolators as damping elements.
Compliance with Standards:
– GR-63-CORE (NEBS): Seismic resilience testing
– ISO 16750: Resistance to vibrational loads
Purpose:
– Protects server equipment during earthquakes up to 7 points on the MSK-64 scale.
– Reduces vibrational impact on sensitive components.
– Ensures stable operation under extreme conditions.
Business Benefits:
– Optimized Operating Costs: Integrated liquid cooling reduces HVAC energy expenses.
– Critical Equipment Protection: Vibration-isolation components ensure seismic stability and infrastructure integrity.
– Environmental Sustainability: Reducing HVAC load minimizes energy consumption and carbon emissions, aligning with high energy efficiency standards.
- New Data Centers
- Cloud providers and Major IT Companies
- High-Performance Computing Users
- Research Institutions
- Financial Institutions
- Software Developers
Energy Efficiency Open Rack ORv3 HPR Seismic RDHx: Transitioning to a 48-volt architecture can reduce energy consumption by 30%, providing a significant advantage for data center operators.
Hazardous Substance Evaluation:
– The product fully complies with the European RoHS directive and either contains no prohibited substances or maintains them within allowable limits.
Manufacturing Process:
– Production takes place at facilities certified to ISO 14001 standards, ensuring high environmental management practices at every stage.
Operation:
– The product emits no harmful substances, generates no noise, and requires no special precautions during use.
– It consumes no electricity, and maintenance does not require any special procedures.
End of Life Cycle:
– The product is designed with up to 95% recyclability by weight, including metals and plastics that can be processed using existing methods.
– No special disposal measures are needed; the product can be recycled through standard procedures.
Systematic Approach:
– The product complies with the RoHS directive and is suitable for use in assemblies and installations without restrictions.
– It is designed with eco-friendly principles, reducing its environmental impact.
Space Optimization of ORv3 HPR Seismic RDHx: Increasing the space utilization rate to 87.5% makes the Open Rack v3 more efficient compared to traditional racks.
Performance, Reliability, and Cost Reduction
Operational Cost Optimization
“The liquid cooling system significantly reduces operating costs, leading to lower energy consumption and maintenance costs in the long run. This helps minimize PUE and your carbon footprint.”
High-Density Equipment Deployment
“With support for up to 44 OpenU or 47RU and a load capacity of up to 1500 kg, the ORv3 HPR Seismic RDHx rack optimizes space and power usage, ensuring stable operation even in high-density environments.”
Protection for Critical Equipment
“Vibration isolation and seismic resistance mean that your equipment is safe even in seismically active regions. The racks protect data and mission-critical systems from external impacts.”
💡 What do you feel? – Peace of mind knowing that your equipment is protected and running at maximum efficiency, minimizing operational costs. Confidence in a high-tech infrastructure that can withstand any challenge.
Simplified Work and High Reliability
Innovative Solutions for Quick and Easy Installation
“Installing equipment is quick and hassle-free. We’ve made sure everything is in place: standard mounting, easy access to components, and cable organizers. You won’t waste time on setup and adjustments.”
Reliability in the Harshest Conditions
“It doesn’t matter how unstable the environment is. The ORv3 HPR Seismic RDHx rack is resistant to vibrations and seismic impacts. You can be sure that the equipment will keep running even under heavy loads and in seismically active regions.”
Efficient Cooling with Minimal Maintenance
“The integrated liquid cooling system reduces energy costs and simplifies maintenance. It allows you to not only save on cooling but also quickly address potential temperature issues.”
💡 What do you feel? – Confidence that installation and maintenance will be quick and seamless. Peace of mind knowing that the equipment is reliable and performs efficiently in any condition.
Profit, Sustainability, and Environmental Responsibility
Investments That Pay Off
“The ORv3 HPR Seismic RDHx racks offer long-term savings through low operating costs and enhanced reliability. You reduce maintenance costs and extend equipment lifespan, which leads to higher returns in the long run.”
Enhanced Status Through Environmental Responsibility
“Modern ESG standards demand the use of energy-efficient and eco-friendly solutions. RDHx helps reduce your carbon footprint and energy consumption, enhancing your reputation as a company focused on the future. This will attract new investors and clients.”
Flexibility and Lower Capital Expenditure
“By choosing modular equipment that can be scaled and adapted to new needs, you reduce upfront costs for long-term investments and improve your business scalability. This opens up new opportunities for growth.”
💡 What do you feel? – Confidence that your investment is sound, with a sustainable business model. Pride in being part of a company that cares for the future, and peace of mind knowing your money is working for you.
The capability for co-location of 21-inch OCP-standard equipment alongside 19-inch EIA-standard equipment within a single rack.
1. Dimensions:
– Height: (52 RU)
– Width: 600 mm
– Depth: 1608 mm
2. Load Capacity:
– Maximum load: 1800 kg
3. Compatibility:
– Supports 21-inch OCP-standard equipment
– Installation of 19-inch EIA-standard equipment with adapters
4. Power Supply:
– 48V DC busbar
– Blind-mate connections
5. Doors and Panels:
– Front: single, perforated (optional)
– Rear: RDHx (Rear Door Heat Exchanger)
6. Seismic (Vibration Isolation and Seismic Resilience)
7. Mounting Options:
– Profiles for 21″ OCP equipment (optional)
– 21″ to 19″ adapters (optional)
8. Delivery:
– Packaging: delivered assembled on a euro pallet
– Contents: one unit per box.
SALES PROCESS (CUSTOMER INTERACTION)
The sales process in the Made-to-Order (MTO) model is based on product customization, strict adherence to customer requirements, and control over all stages—from initial communication to final delivery.
Stage 1: Needs Assessment and Initial Communication
Process Overview:
– The customer fills out a brief, specifying key equipment requirements (technical specifications, operating conditions, budget, and deadlines).
– If exact data is unavailable, a predefined selection of parameters based on the application is provided.
– The customer receives access to an online form or PDF questionnaire to facilitate information collection.
Actions Taken:
– A technical specialist analyzes the submitted data and forms a preliminary assessment of potential solutions.
– If clarifications are required, an additional consultation is conducted (via call, video conference, or email).
– The customer receives confirmation of request processing within 24–48 hours.
Stage Duration: 1–3 business days.
Stage 2: Preparation of the Commercial Proposal
Process Overview:
– Based on the collected data, specialists prepare a customized commercial proposal (CP).
– The CP includes:
– Equipment description and technical specifications.
– Available configuration options.
– Production and delivery timeframes.
– Pricing, including any customization costs.
– Alternative configurations (if applicable).
Actions Taken:
– The customer receives technical documentation (schematics, specifications, implementation examples).
– The proposal validity period and revision conditions are clearly defined.
Stage Duration: 3–5 business days.
Stage 3: Detailed Discussion and Final Order Confirmation
Process Overview:
– The customer reviews the proposal and provides feedback.
– Technical modifications, configuration adjustments, and service conditions (warranty, support) are discussed.
– A virtual meeting is conducted for final negotiations.
Actions Taken:
– If necessary, the proposal is revised, and a Final Agreement Document is prepared, fixing all key order parameters.
– Production and delivery schedules are confirmed and documented.
– If additional guarantees are required, a Service Level Agreement (SLA) is signed.
Stage Duration: 2–5 business days.
Stage 4: Invoice Approval and Payment
Process Overview:
– Based on the finalized CP, the customer receives a final invoice for payment.
Actions Taken:
– Payment structure is defined:
– 50% prepayment – initiates production.
– 50% balance payment – upon completion of assembly and readiness for shipment.
– Flexible payment terms may be offered for large orders.
– Shipping costs and logistics conditions are reviewed and confirmed.
Stage Duration: 1–3 business days after final order confirmation.
Stage 5: Production and Order Status Updates
Process Overview:
– Production begins once the prepayment is received.
– The customer receives regular updates on order status via a personal account or email notifications.
– Key production milestones:
– 30% completion – component procurement and preparation.
– 60% completion – core assembly finalized.
– 90% completion – testing and final inspection.
Actions Taken:
– The customer can request urgent modifications if technically feasible.
– If schedule adjustments are necessary, the customer receives an official notification with updated timelines and reasons.
Stage Duration: 4–12 weeks, depending on order complexity.
Stage 6: Final Preparation and Delivery
Process Overview:
– The final quality control and testing procedures are completed.
– All necessary shipping documents (certificates, invoices, customs declarations) are prepared.
– The customer is notified of shipment readiness.
Actions Taken:
– A final order verification is conducted based on a checklist.
– Direct shipment from the production facility is arranged to avoid intermediate handling.
– A tracking number and contact details of the responsible logistics coordinator are provided.
Stage Duration: 3–7 business days (depending on logistics).
Conclusion: Why Is This Process Effective?
Transparency and control – customers receive real-time updates at every stage.
Customization – solutions tailored to specific business requirements.
Flexibility – modifications are possible at key stages.
Risk minimization – fixed schedules and contractual execution conditions.
This structured approach ensures efficiency, predictability, and high-quality customer interactions in the Made-to-Order model.
The standard warranty on equipment is 3 years and covers all metal parts. This warranty protects against manufacturing defects and failures that may occur when the product is used as intended.
Warranty Details:
1. Warranty Period:
– The warranty period is 3 years from the date the equipment is shipped to the client.
2. Scope of Warranty Coverage:
– The warranty applies to all metal components, including the frame, mounting profiles, doors, panels, and other structural parts. It covers manufacturing defects in the metal, such as deformation, cracks, fractures, or corrosion that affect the equipment’s functionality.
– The warranty does not cover non-metal parts, such as locks, plastic or rubber components, seals, electronic parts, or separately supplied accessories.
3. Operating Conditions:
– The warranty is valid only if the equipment is used according to its intended purpose and in compliance with all operating conditions outlined in the manufacturer’s instructions.
– Damage resulting from misuse, improper installation, exposure to aggressive chemicals, or mechanical impacts is not covered.
4. Warranty Claim Procedure:
– If a defect is found, the client should contact support, describe the issue, and provide photographic or other evidence of the defect.
– If necessary, the equipment or its part may be sent for inspection to determine the cause of the defect.
– If the defect is confirmed to fall under warranty, the manufacturer will repair or replace the damaged part at no cost to the client.
5. Warranty Exclusions:
– The warranty does not cover damage caused by external factors such as fires, natural disasters, liquid exposure, or corrosion due to exposure to aggressive substances.
– Instances in which the equipment was modified or repaired by unauthorized personnel are also excluded from coverage.
These warranty terms provide assurance of the durability and reliability of the equipment’s metal components, offering support and protection to the client throughout the equipment’s service life.