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Scale compute and storage on-demand with NetApp® HCI—a hybrid cloud infrastructure that delivers predictable performance for your hybrid cloud on a highly flexible, ultra-efficient architecture. Let the innovation-palooza begin.
With NetApp HCI, you can scale storage and compute on demand—together or independently—so you never pay for what you aren’t using. In fact, consolidating multiple workloads with NetApp HCI can reduce your TCO by up to 60%.
NetApp HCI doesn’t just manage and run multiple applications with the predictable performance your enterprise and customers demand, it guarantees it. What’s more, resource contention is eliminated, storage performance is three times faster, and compute efficiency increases by 22%. And yes, integration into your data fabric is perfectly seamless.
Get hybrid cloud multicluster Kubernetes management with push-button ease.
NetApp HCI is the first hybrid cloud infrastructure for everything that matters. It makes managing infrastructure easy. It’s the only hybrid cloud infrastructure that meets hybrid multicloud demand and allows you to scale compute and storage independently. And with HCI, your data fabric simplifies data services orchestration across hybrid multiclouds.
Consume services the same way on every cloud—private, hybrid, and public. Optimize and run multiple applications with guaranteed performance on-premises.
Get the most effective storage efficiency guarantee with no impact to system performance.
NetApp's disaggregated HCI architecture scales compute and storage independently. Download the Evaluator Group Lab Insight for a NetApp HCI assessment.
Only NetApp’s enterprise-scale hyperconverged infrastructure lets you consume public cloud services on-premises, run anywhere.
Realize your vision. Accelerate deployment. Deliver an optimum user experience with NetApp HCI and VMware Horizon.
Run all your applications on one infrastructure and maximize your investment with minimal performance risk.
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H410C | H610C | H610S | H615C | |
Key Specifications | ||||
Compute Nodes | H410C | H610C | H615C | |
Rack Units | 2 RU, half-width | 2 RU | 1 RU | |
CPU | 2 Intel Xeon Gold 5122, 4 cores, 3.6GHz 2 Intel Xeon Silver 4110, 8 cores, 2.1GHz 2 Intel Xeon Gold 5120, 14 cores, 2.2GHz 2 Intel Xeon Gold 6138, 20 cores, 2.0GHz |
2 Intel Xeon Gold 6130, 16 cores, 2.1GHz 2 NVIDIA Tesla M10 GPU cards | 2 Intel Silver 4214, 12 cores, 2.2 GHz 2 Intel Gold 5222, 4 cores, 3.8 GHz 2 Intel Gold 6242, 16 core, 2.8 GHz 2 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 |
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Cores for VM's | 8-40 | 32 | 8-48 | |
Memory | 384GB-1TB | 512GB | 384GB-1.5TB | |
Hypervisor | VMware vSphere 6.5 and 6.7; Red Hat OpenStack/OpenShift, Microsoft Windows 2016 and 2019, Red Hat Virtualization | |||
Base Networking | 4x10/25GbE (SFP 28)Cables and transceivers not included., 2 x 1GbE RJ45Cables and transceivers not included. | 2x10/25GbE (SFP 28)Cables and transceivers not included., 2 x 1GbE RJ45Cables and transceivers not included. | 2x10/25GbE (SFP28)Cables and transceivers not included. | |
Out-of-Band Management (opt) | 1 x 1GbE RJ45 | |||
Storage Nodes | ||||
Storage Node | H410S | H610S | H610S-2F | |
Rack Units | 1 RU, half-width | 1 RU | 1 RU | |
SSD | 6 Encrypting | 12 Encrypting or nonencrypting | 12 FIPS | |
Drive Capacity | 480GB, 960GB, 1.92TB | 960GB, 1.92TB, 3.84TB | 1.92 TB | |
Effective CapacityNetApp 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. | 5.5TB - 44TB | 20TB - 80TB | 40TB | |
Performance per node | 50,000 IOPS – 100,000 IOPS | 100,000 IOPS | 100,000 IOPS | |
Base Networking | 2x 10/25GbE (SFP 28)2, 2x 1GbE RJ45 | 2x 10/25GbE (SFP 28)2, 2x 1GbE RJ45 | 2x 25GbE (SFP28)2, 2x 1GbE RJ45 | |
Out-of-Band Management (opt) | 1x 1GbE RJ45 | 1x 1GbE RJ45 | 1 x 1GbE RJ45 | |
Power and Dimension | ||||
Chassis | H410x 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) | 819-1024W / 4.1-5.2A (200V) | 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 | 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 — 2,730NetApp 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. Worst Case BTU/hr - 6,142NetApp 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. 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.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-142NetApp HCI supports the FIPS 140-2 level 1 standard. Third-party validation is in progress. |
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-142NetApp HCI supports the FIPS 140-2 level 1 standard. Third-party validation is in progress. |
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 | .4Grms, 5-200Hz random vibration 60 minutes per axis 3 mutually orthogonal axis |
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 | .98Grms, 5-200Hz 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 | 20G/2.5ms half sine profile 3 mutually orthogonal axis (Positive and negative directions) 1 shock pulse per direction |
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/10ms half sine profile 3 mutually orthogonal axis (Positive and negative directions) 1 shock pulse per direction |
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 |
Mellanox H-Series Switches | ||||
SN2010 | Half-width open Ethernet switch with Mellanox Onyx. 18 SFP28 (10/25GbE) and 4 QSFP (40/100GbE) ports delivering up to 1.7TB/s aggregate throughput. QSFP ports support 4x25GbE breakout cables. Switch sold with all ports licensed. | |||
SN2100 | Half-width open Ethernet switch with Mellanox Onyx. 16 QSFP (40/100GbE) ports delivering up to 3.2TB/s aggregate throughput. QSFP ports support 4x25GbE breakout cables. Switch sold with all ports licensed. | |||
SN2700 | Full-width open Ethernet switch with Mellanox Onyx. 32 QSFP (40/100GbE) ports delivering up to 6.4TB/s aggregate throughput. QSFP ports support 4x25GbE breakout cables. Switch sold with all ports licensed. | |||
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. |
Where speed matters. NetApp HCI Provides Ducati with an edge on the track.
A strong and efficient product that can scale storage and compute independently. NetApp HCI's ability to scale on demand is a differentiator in the marketplace. This solution can scale, compute, and scale independently, whereas in competing solutions if I need more compute, I have to bring more storage along with it.
Steve Lamesey, Vice President, Hardwood International Corp
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