
WHAT IS HYBRID CLOUD INFRASTRUCTURE?
Based on frictionless consumption, self-service, automation, and programmable APIs, hyper converged infrastructure accelerates new services across your clouds. Extending those benefits, NetApp’s disaggregated hybrid cloud infrastructure allows independent scaling of compute and storage, adapting to workloads with guaranteed performance. Reduce costs with unified data orchestration and integration across public, private, and on-premises environments.
Eliminate “Walled Gardens” through application and services compatability
Your data center functions with public cloud velocity in your multicloud with consistent management and rapid deployment.
Same tool for every cloud
Do more with the same tool! Stop wasting valuable time learning new tools. NetApp’s common control plane saves time with a consistent experience that makes it easy to deploy and manage any cloud you choose.
Seamless experience from on-premises to public cloud—and back
You decide, develop, and deploy your applications on the cloud of your choice. Easily move workloads across clouds to meet business needs.
HOW IT WORKS:
The first hybrid cloud infrastructure for everything that matters.
Makes managing infrastructure easy.

Deploy open hybrid clouds.
Start with NetApp HCI.
- Consume services the same way on every cloud—private, hybrid, and public.
- Optimize and run multiple applications with guaranteed performance on-premises.

Increase Storage Efficiency up to 10x
NetApp's disaggregated HCI architecture scales compute and storage independently.
Download the Evaluator Group Lab Insight for a NetApp HCI assessment.
ALL THE TOOLS AND INTEGRATIONS YOU NEED
to make your entire hybrid multicloud experience that works consistently across all your clouds.



Primary Use Cases
Models and Specifications
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H410C | H610C | H610S | H615C | |
Key Specification | ||||
Compute Nodes | H410C | H610C | H615C | |
Rack Units | 2 RU, half-width | 2 RU | 1 RU | |
CPU | 2x Intel Xeon Gold 5122, 4 cores, 3.6GHz
2x Intel Xeon Silver 4110, 8 cores, 2.1GHz 2x Intel Xeon Gold 5120, 14 cores, 2.2GHz 2x Intel Xeon Gold 6138, 20 cores, 2.0GHz |
2x Intel Xeon Gold 6130, 16 cores, 2.1GHz, 2x NVIDIA Tesla M10 GPU cards | 2x Intel Silver 4214, 12 cores, 2.2 GHz
2x Intel Gold 5222, 4 cores, 3.8 GHz 2x Intel Gold 6242, 16 core, 2.8 GHz 2x Intel Gold 6252, 24 core, 2.1GHz 2x Intel Gold 6240Y SpeedSelect, 18/14/8 cores 2.6/2.8/3.1 GHz plus 3x NVIDIA Tesla T4 GPU cards |
|
Cores for VM's | 8-40 | 32 | 8-48 | |
Memory | 384GB-1TB | 512GB | 384GB-1.5TB | |
Hypervisor | VMware vSphere 6.0, 6.5, & 6.7 | |||
Base Networking | 4x10/25GbE (SFP 28)**,?? 2 x 1GbE RJ45** | 2x10/25GbE (SFP 28)**,?? 2 x 1GbE RJ45** | 2x10/25GbE (SFP28)** | |
Out-of-Band Management (opt) | 1 x 1GbE RJ45 | |||
Storage Nodes | ||||
Storage Node | H410C | H610S | ||
2 RU, half-width | 1 RU | |||
SSD | 6x Encrypting or non-encrypting | 12x Encrypting or non-encrypting | ||
Drive Capacity | 480GB/960GB/1.92TB | 960GB/1.92TB/3.84TB | ||
Effective Capacity* | 5.5TB - 44TB | 20TB - 80TB | ||
Performance per node | 50,000 IOPS - 100,000 IOPS | 100,000 IOPS | ||
Base Networking | 2 x 10/25GbE iSCSI (SFP28)
2 x 1/10GbE Mgmt. (RJ45) |
2 x 10/25GbE iSCSI (SFP28) 2 x 1/10GbE Mgmt. (RJ45) |
||
Out-of-Band Management (opt) | 1 x 1GbE RJ45 | 2 x 1GbE RJ45 | ||
Power and Dimension | ||||
Chassis | H410 2U 4 Node Enclosure | H610C | H610S | H615C |
Rack Units | 2 RU | 2 RU | 1 RU | 1 RU |
Power Input | 220-240V AC 1+1 redundant | 220-240V AC 1+1 redundant | 100-240V AC 1+1 redundant
-48-60V DC 1+1 redundant |
100-240V AC 1+1 redundant
-48-60V DC 1+1 redundant |
Maximum Wattage/Current (per power supply) | 2200W / 12-11A (fully populated enclosure) | 900W / 4.4-3.6A | 450W / 2.2A (200V) / 4.5A (100V) | 616-805W / 3-3.9A (200V) / 6.2-8A (100V) |
Node Physical Dimensions | 3.92cm / 1.54in H
19.625cm / 7.73in W 58.755cm / 23.13in D 4.17kg / 9.2lbs |
8.80cm / 3.46in H
44cm / 17.3in W 79.8cm / 31.4in D 25kg / 55.1lbs |
4.4cm / 1.73in H
44cm / 17.3in W 81cm / 31.9in D 18kg / 39.7lbs |
4.4cm / 1.73in H
44cm / 17.3in W 81cm / 31.9in D 15.51-16.65kg / 34.20-36.71lbs |
Enclosure Physical Dimensions Weight | 8.80cm / 3.46in H
44.70cm / 17.60in W 73.00cm / 28.74in D 19.50kg / 43.0lbs (empty incl. rails) 36.2kg / 79.8lbs (fully populated) |
8.80cm / 3.46in H
44cm / 17.3in W 79.8cm / 31.4in D 25kg / 55.1lbs |
4.4cm / 1.73in H
44cm / 17.3in W 81cm / 31.9in D 18kg / 39.7lbs |
4.4cm / 1.73in H
44cm / 17.3in W 81cm / 31.9in D 15.51-16.65kg / 34.20-36.71lbs |
Environmentals | ||||
Operating temperature, altitude and relative humidity+36:42A236:4136:4736:5236:4836:4736:4636:4436:43 | 10°C to 35°C / 50°F to 95°F at <= 914.40m (at <=3,000ft) elevation; 1°C derating per 1,000ft; 8% to 90% relative humidity, noncondensing | 10°C to 35°C / 50°F to 95°F at <= 914.40m (at <=3,000ft) elevation; 1°C derating per 1,000ft; 20% to 85% relative humidity, noncondensing | 10°C to 35°C / 50°F to 95°F at <= 914.40m (at <=3,000ft) elevation; 1°C derating per 1,000ft; 20% to 85% relative humidity, noncondensing. (note: configuration(s) containing Tesla T4 GPUs: 10°C to 30°C). | |
Nonoperating temperature and relative humidity | -40°C to 70°C (-40°F to 158°F); 5% to 95% relative humidity, noncondensing | -40°C to 70°C (-40°F to 158°F); 10% to 90% relative humidity, noncondensing | ||
Heat Dissipation | Typical BTU/hr —? 2,730*
Worst Case BTU/hr -? 6,142* *fully populated enclosure |
Typical BTU/hr — 2,795
Worst Case BTU/hr — 3,494 |
Typical BTU/hr — 1,228
Worst Case BTU/hr — 1,535 |
Typical BTU/hr — 2,102
Worst Case BTU/hr — 2,747 |
Standards and Certifications | Safety: IEC/EN 60950 (all national deviations), UL/CSA 60950, IEC/EN 60825, ACMA (Australia, New Zealand), BIS (India), BSMI (Taiwan), CE, EAC (Russia), IRAM (Argentina), Morocco, Mexico, NRCS (South Africa), Saudi Arabia, Kenya, Uganda, SONCAP (Nigeria), TBS (Tanzania), UKRSepro (Ukraine). FIPS-142*** |
Safety: IEC/EN 60950 (all national deviations), UL/CSA 60950, IEC/EN 62368 (all national deviations), UL/CSA 62368, IEC/EN 60825, ACMA (Australia, New Zealand), BIS (India), BSMI (Taiwan), CE, EAC (Russia), IRAM (Argentina), Morocco, Mexico, NRCS (South Africa), Saudi Arabia, Kenya, Uganda, SONCAP (Nigeria), TBS (Tanzania), UKRSepro (Ukraine). |
Safety:
IEC/EN 60950 (all national deviations), UL/CSA 60950, IEC/EN 60825, ACMA (Australia, New Zealand), BIS (India), BSMI (Taiwan), CE, EAC (Russia), IRAM (Argentina), Morocco, Mexico, NRCS (South Africa), Saudi Arabia, Kenya, Uganda, SONCAP (Nigeria), TBS (Tanzania), UKRSepro (Ukraine). FIPS-142*** |
Safety:
IEC/EN 60950 (all national deviations), UL/CSA 60950, IEC/EN 60825, ACMA (Australia, New Zealand), BIS (India), BSMI (Taiwan), CE, EAC (Russia), IRAM (Argentina), Morocco, Mexico, NRCS (South Africa), Saudi Arabia, Kenya, Uganda, SONCAP (Nigeria), TBS (Tanzania), UKRSepro (Ukraine). Energy Star |
Emissions/Immunity: FCC Part 15 Class A, ICES-03, CE, KCC, VCCI, AS/NZS CISPR 22, CISPR 32, EN55032, EN55024, EN61000-3-2, EN61000-3-3, BSMI | ||||
Compliance | RoHS-compliant | RoHS-compliant | RoHS-compliant | RoHS-compliant |
System Environment Specifications | ||||
Operating Vibration | 0.2 Grms, 5-350Hz random vibration
15 minutes per axis 3 mutually orthogonal axes |
0.21 Grms, 5-500Hz random vibration
15 minutes per axis 3 mutually orthogonal axes |
0.2 Grms, 5-350Hz random vibration
15 minutes per axis 3 mutually orthogonal axes |
|
Non-operating Vibration | 0.77 Grms, 5-500Hz random vibration
30 minutes per axis 3 mutually orthogonal axes |
0.77 Grms, 5-500Hz random vibration
30 minutes per axis 3 mutually orthogonal axes |
1.04 Grms, 10-500Hz random vibration
60 minutes per axis 3 mutually orthogonal axes |
0.77 Grms, 5-500Hz random vibration
30 minutes per axis 3 mutually orthogonal axes |
Operating Shock | 3G/11ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 3 shock pulse per direction |
5G/11ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 100 shock pulse per direction |
3G/11ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 3 shock pulse per direction |
|
Non-operating Shock | 20G/7ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 3 shock pulse per direction |
20G/11ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 3 shock pulse per direction |
20G/7ms half sine input profile
3 mutually orthogonal axes (positive and negative directions) 3 shock pulse per direction |
|
Switch | ||||
Mellanox SN2010 | Half-width open Ethernet switch with Mellanox Onyx. 18x SFP28 and 4x QSFP ports delivering up to 1.7Tb/s aggregate throughput | |||
Power Specifications | 2 power supplies (AC), P2C airflow, typical power with passive cables (ATIS): 57W Input voltage range:100-240VAC | |||
Physical | Dimensions: 1.72in (43.8mm) H x 7.87in (200mm) W x 20in (508mm) D Weight: 4.54kg (10lb). Railkit purchased separately. | |||
Features | Mellanox Neo management application, monitoring and telemetry, network virtualization, layer 2 and layer 3 support, management and automation | |||
Security | UC APL, FIPS 140-2, Storm Control (ACLs L2-L4 and user defined), 802.1X – Port-Based Network Access Control, SSH server strict mode – NIST 800-181A, CoPP (IP filter), port isolation | |||
- *NetApp HCI effective capacity calculation accounts for NetApp Element Software Helix? data protection, system overhead, and global efficiency including compression, deduplication, and thin provisioning. Element Software customers typically achieve an e effective capacity range of 5 to 10 times the (usable) capacity, depending on application workloads.
- ** Cables and transceivers not included.
- *** NetApp HCI supports the FIPS 140-2 level 1 standard. Third-party validation is in progress.
? 2019 NetApp, Inc. All Rights Reserved. NETAPP, the NETAPP logo, and the marks listed at www.seaworth.com.cn/TM are trademarks of NetApp, Inc. Other company and product names may be trademarks of their respective owners.
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