This site uses cookies and other tracking technologies to assist with navigation and your ability to provide feedback, analyse your use of our site and services and assist with our promotional and marketing efforts. You can read more about this in our Privacy Policy.
Solidigm D3-S4520 1.92 TB 2.5" Serial ATA III TLC 3D NAND
xOut of Stock
Contact your account manager
- 1.92 TB
- SSD
- SATA 3.0 6GB/S
- 2.5"
- 144L TLC 3D NAND
SATA drives, combining capacities up to 7.68TB with standard endurance to increase server efficiency and boost IOPS/TB performance over legacy hard disk drives (HDDs) for cloud storage.
Storage Inspired. Infrastructure Optimized.
Replace HDDs with the highly-efficient Intel SSD D3-S4520 and Intel SSD D3-S4620 to reduce storage operating costs and accelerate read-intensive and mixed-use workloads with power-efficient performance.
Featuring the latest-generation 144-Layer, TLC, Intel 3D NAND, Intel SSD D3-S4520 and D3-S4620 Series are designed to reduce storage operating cost, accelerate read-intensive and mixed workloads with power-efficient performance, and improve overall system reliability and flexibility, while preserving legacy infrastructure.
These reliable SSDs meet demanding service level requirements while increasing server efficiency. The fourth-generation Intel controller and innovative firmware paired with the latest generation of Intel 3D NAND make the SSD D3-S4520 and D3-S4620 Series compatible with existing SATA deployments for an easy storage upgrade.
Reduce operating costs while preserving infrastructure investment
Built for compatibility with legacy infrastructures, the SSD D3-S4520 and D3-S4620 reduce the costs associated with modernizing your data center. Available in a variety of capacities from 240GB up to 7.68TB, and in standard 2.5-inch and M.2 80mm form factors, the larger capacity drives consume up to 5x lower power and have up to 5x lower cooling requirements than 2.5-inch HDDs. The SSD D3-S4520 also enables 3.2x more data to be stored in the same amount of space.
Accelerate read-intensive workloads with power-efficient performance
Simply by integrating SSDs into the environment, organizations can improve server agility with up to 245x more IOPS/TB than HDDs, supporting more users and better services to grow the business without expanding the server footprint. The SSD D3- S4520 & D3-S4620 are up to 6.7x more bandwidth-efficient in sequential workloads as well, allowing an upgrade to hybrid or all-flash to more easily fit within existing cooling solutions.
Additionally, the Flex Workload feature enables a common drive type to cover more workloads with flexible capacity, endurance, and power-efficient performance.
Improve system reliability and flexibility
The reliability of the SSD D3-S4520 and D3-S4620 reduces the need for drive replacement that is necessary with HDDs. With an actual annualized failure rate (AFR) up to 1.9x lower than HDDs, IT departments will spend less time and expense replacing or upgrading storage devices. Equally important, once the SSDs are installed, the innovative SATA firmware completes updates without reset, reducing downtime.
Storage Inspired. Infrastructure Optimized.
Replace HDDs with the highly-efficient Intel SSD D3-S4520 and Intel SSD D3-S4620 to reduce storage operating costs and accelerate read-intensive and mixed-use workloads with power-efficient performance.
Featuring the latest-generation 144-Layer, TLC, Intel 3D NAND, Intel SSD D3-S4520 and D3-S4620 Series are designed to reduce storage operating cost, accelerate read-intensive and mixed workloads with power-efficient performance, and improve overall system reliability and flexibility, while preserving legacy infrastructure.
These reliable SSDs meet demanding service level requirements while increasing server efficiency. The fourth-generation Intel controller and innovative firmware paired with the latest generation of Intel 3D NAND make the SSD D3-S4520 and D3-S4620 Series compatible with existing SATA deployments for an easy storage upgrade.
Reduce operating costs while preserving infrastructure investment
Built for compatibility with legacy infrastructures, the SSD D3-S4520 and D3-S4620 reduce the costs associated with modernizing your data center. Available in a variety of capacities from 240GB up to 7.68TB, and in standard 2.5-inch and M.2 80mm form factors, the larger capacity drives consume up to 5x lower power and have up to 5x lower cooling requirements than 2.5-inch HDDs. The SSD D3-S4520 also enables 3.2x more data to be stored in the same amount of space.
Accelerate read-intensive workloads with power-efficient performance
Simply by integrating SSDs into the environment, organizations can improve server agility with up to 245x more IOPS/TB than HDDs, supporting more users and better services to grow the business without expanding the server footprint. The SSD D3- S4520 & D3-S4620 are up to 6.7x more bandwidth-efficient in sequential workloads as well, allowing an upgrade to hybrid or all-flash to more easily fit within existing cooling solutions.
Additionally, the Flex Workload feature enables a common drive type to cover more workloads with flexible capacity, endurance, and power-efficient performance.
Improve system reliability and flexibility
The reliability of the SSD D3-S4520 and D3-S4620 reduces the need for drive replacement that is necessary with HDDs. With an actual annualized failure rate (AFR) up to 1.9x lower than HDDs, IT departments will spend less time and expense replacing or upgrading storage devices. Equally important, once the SSDs are installed, the innovative SATA firmware completes updates without reset, reducing downtime.
SKU | SSDSC2KB019TZ01 |
---|---|
EAN | 0840307303424 |
Manufacturer | SOLIDIGM |
In Stock | N |
Hard drive | |
---|---|
SSD capacity | 1.92 TB |
Memory type | TLC 3D NAND |
Data transmission | |
Read speed | 550 MB/s |
Write speed | 510 MB/s |
Random write (4KB) | 38000 IOPS |
Random read (4KB) | 91000 IOPS |
Endurance rating | 8.8 PB |
Security | |
Security algorithms | 256-bit AES |
Endurance | |
Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
Mean time between failures (MTBF) | 2000000 h |
Features | |
Interface | Serial ATA III |
Component for | Server/workstation |
End-to-End Data Protection | Yes |
SSD capacity | 1.92 TB |
Security algorithms | 256-bit AES |
Read speed | 550 MB/s |
Write speed | 510 MB/s |
Memory type | TLC 3D NAND |
Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
Random write (4KB) | 38000 IOPS |
Random read (4KB) | 91000 IOPS |
Mean time between failures (MTBF) | 2000000 h |
Hardware encryption | Yes |
Enhanced Power Loss Data Protection technology | Yes |
SSD form factor | 2.5" |
Temperature monitoring and logging | Yes |
Power | |
---|---|
Power consumption (max) | 3.1 W |
Power consumption (idle) | 1.1 W |
Performance | |
Interface | Serial ATA III |
Component for | Server/workstation |
End-to-End Data Protection | Yes |
SSD capacity | 1.92 TB |
Security algorithms | 256-bit AES |
Read speed | 550 MB/s |
Write speed | 510 MB/s |
Memory type | TLC 3D NAND |
Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
Random write (4KB) | 38000 IOPS |
Random read (4KB) | 91000 IOPS |
Mean time between failures (MTBF) | 2000000 h |
Hardware encryption | Yes |
Enhanced Power Loss Data Protection technology | Yes |
Design | |
Component for | Server/workstation |
SSD form factor | 2.5" |
Operational conditions | |
Operating temperature (T-T) | 0 - 70 °C |
Operating shock | 1000 G |
Non-operating shock | 1000 G |
Operating vibration | 2.17 G |
Non-operating vibration | 3.13 G |
Maximum non-operating altitude | 0.5 m |
Maximum operating temperature | 70 °C |
Technical details | |
Interface | Serial ATA III |
Operating temperature (T-T) | 0 - 70 °C |
Operating shock | 1000 G |
Non-operating shock | 1000 G |
Operating vibration | 2.17 G |
Non-operating vibration | 3.13 G |
Maximum non-operating altitude | 0.5 m |
Hardware encryption | Yes |
Enhanced Power Loss Data Protection technology | Yes |
SSD form factor | 2.5" |
Other features | |
Endurance rating | 8.8 PB |
Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |