What are Key Features?

SDS Hybrid Series is designed to support high-performance and always-on data reduction.
Eternal Storage

Preconfigured Triple Parity RAID. Global Hot Spare drive included. Write back on NVMe SSDs. Integrity and Resilience without compromises.

Always-On Data Reduction

Inline Compression + Dedupe. Online capacity expansion. Thin and Thick provisioning. You will no longer have to save space.

Always High Performance

Solid-state performance at spinning-disk capacity and cost. Multi-layer caching system to optimize read and write performance.

Modern Management Tools

Powerful web-based console to simplyfy control and monitoring operations. Certified workload profiles for an easy configuration.

Performance, Data-reduction with cost-effective solutions

SDS Hybrid Series provide an average 3:1 data reduction with no performance loss. It lets you increase performance and scale capacity while conserving power and saving money.
  • Multi Level Caching
  • Inline Compression + Deduplication
  • Intel Xeon Scalable Processors acceleration
  • NVMe Solid State Drives
  • 10 GbE up to 100 GbE

No compromises for data integrity and resilience

Thanks to Triple Parity RAID our solution tolerates three simultaneous drive failures. Moreover, a Global Hot Spare drive adds additional data-loss protection.
  • Triple Parity RAID
  • Global Hot Spare
  • Hot swappable drives
  • Bad block scan + HDD S.M.A.R.T.
  • Enclosure monitoring and alert LEDs

Simplify IT monitoring and control from your browser

Evoloop SDS storage comes with a powerful HTML5-based dashboard that allows quick configurations to authorized persons directly without any installation. Included tips and safety locks to prevent accidental damage.
  • HTML5 dashboard
  • Real time data visualization
  • Easy configuration
  • Performance counters
  • Preconfigured Workload Profiles

Technical Specifications

Three models to embrace all your needs.

96TB

max**

H2040

  • Rack Space

    2U

  • Redundant Power Supplies

    Yes

  • CPU

    2x Intel Xeon Scalable 2nd gen.

  • RAM

    128 GB

  • Network

    4x 10 GbE RJ45

  • Network (option)

    25 GbE - 40 GbE - 100 GbE

  • HDD

    12x 4 TB SAS3 12Gb/s

  • Storage License

    min 8 TB max 32 TB

  • Average Data Reduction**

    3:1

  • Average Effective Capacity

    min 24 TB max 96 TB

  • Read Cache

    NVMe SSD 200 GB

  • Write Cache

    NVMe SSD 80 GB RAID 1

  • Performance

    Up to 260,000 IOPS. Based on specific workload.

  • Triple Parity RAID

    Yes

  • All-Inclusive Feature Licensing

    Included

192TB

max**

H2080

  • Rack Space

    2U

  • Redundant Power Supplies

    Yes

  • CPU

    2x Intel Xeon Scalable 2nd gen.

  • RAM

    192 GB

  • Network

    4x 10 GbE RJ45

  • Network (option)

    25 GbE - 40 GbE - 100 GbE

  • HDD

    12x 8 TB SAS3 12Gb/s

  • Storage License

    min 16 TB max 64 TB

  • Average Data Reduction**

    3:1

  • Average Effective Capacity

    min 48 TB max 192 TB

  • Read Cache

    NVMe SSD 300 GB

  • Write Cache

    NVMe SSD 100 GB RAID 1

  • Performance

    Up to 260,000 IOPS. Based on specific workload.

  • Triple Parity RAID

    Yes

  • All-Inclusive Feature Licensing

    Included

384TB

max**

H2160

  • Rack Space

    2U

  • Redundant Power Supplies

    Yes

  • CPU

    2x Intel Xeon Scalable 2nd gen.

  • RAM

    256 GB

  • Network

    4x 10 GbE RJ45

  • Network (option)

    25 GbE - 40 GbE - 100 GbE

  • HDD

    12x 16 TB SAS3 12Gb/s

  • Storage License

    min 32 TB max 128 TB

  • Average Data Reduction**

    3:1

  • Average Effective Capacity

    min 96 TB max 384 TB

  • Read Cache

    NVMe SSD 400 GB

  • Write Cache

    NVMe SSD 120 GB RAID 1

  • Performance

    Up to 260,000 IOPS. Based on specific workload.

  • Triple Parity RAID

    Yes

  • All-Inclusive Feature Licensing

    Included

  1. All capacities are expressed in Base 10: 1 MB = 1,000,000 bytes.
  2. Average data reduction ratios are based on capacity savings from data deduplication and data compression.
    Actual data reduction ratios can vary and depend on individual environments and data structures.