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Solidigm D5-P5336 7.62 TB U.2 PCI Express 4.0 NVMe QLC 3D NAND
SKU
SBFPF2BV076TOF1
| SKU | SBFPF2BV076TOF1 |
|---|---|
| EAN | 0840307301994 |
| Manufacturer | SOLIDIGM |
| Availability | In Stock |
Highly efficient, cost-effective solution for read-intensive workloads with capacities up to 122TB.
Industry-Leading 122.88TB Capacity
Hyper-scalable, cost-effective solution for AI and data-intensive workloads. Scales with the increasingly massive datasets found in widely deployed, modern read-intensive workloads.
Targets data wherever that data is generated
Meets the storage challenges like space, power, cooling, and servicability in edge deployments where data-rich services and applications are created, processed, and stored outside the core data center.
Keeps up with data-hungry modern workloads
Store and access vast amounts of data efficiently for modern, data-hungry workloads such as data lakes for AI, machine learning, big data analytics, content delivery network, scale-out NAS, object storage and edge usages.
Unprecedented storage capacity
Capacities up to 122.88TB allow for a smaller footprint without sacrificing data volume. From data lakes to content delivery networks and cloud storage, store and access vast amounts of data efficiently at speed.
Easier edge deployment
High-density storage in modern compact form factors—E3.S, E1.L, and U.2—allow for easy deployment in edge environments where physical space is limited. This makes it ideal for edge AI deployments.
Massive TCO savings for new builds
High-capacity improves power efficiency for new AI data center builds with up to a 9:1 reduction in storage racks, consuming less storage power, allowing more compute for GPU servers, comparing all-QLC to hybrid HDD and TLC storage array.
Sustainability over time
It’s not easy to wear out 122TB of Solidigm storage. Even with the harshest random write workloads, running 24/7 for five years at 100%, you’ll still have additional storage space (based upon 122TB capacity using 100%4KB random writes at 18KIOPs, per product specifications).
Industry-Leading 122.88TB Capacity
Hyper-scalable, cost-effective solution for AI and data-intensive workloads. Scales with the increasingly massive datasets found in widely deployed, modern read-intensive workloads.
Targets data wherever that data is generated
Meets the storage challenges like space, power, cooling, and servicability in edge deployments where data-rich services and applications are created, processed, and stored outside the core data center.
Keeps up with data-hungry modern workloads
Store and access vast amounts of data efficiently for modern, data-hungry workloads such as data lakes for AI, machine learning, big data analytics, content delivery network, scale-out NAS, object storage and edge usages.
Unprecedented storage capacity
Capacities up to 122.88TB allow for a smaller footprint without sacrificing data volume. From data lakes to content delivery networks and cloud storage, store and access vast amounts of data efficiently at speed.
Easier edge deployment
High-density storage in modern compact form factors—E3.S, E1.L, and U.2—allow for easy deployment in edge environments where physical space is limited. This makes it ideal for edge AI deployments.
Massive TCO savings for new builds
High-capacity improves power efficiency for new AI data center builds with up to a 9:1 reduction in storage racks, consuming less storage power, allowing more compute for GPU servers, comparing all-QLC to hybrid HDD and TLC storage array.
Sustainability over time
It’s not easy to wear out 122TB of Solidigm storage. Even with the harshest random write workloads, running 24/7 for five years at 100%, you’ll still have additional storage space (based upon 122TB capacity using 100%4KB random writes at 18KIOPs, per product specifications).
| Hard drive | |
|---|---|
| PCI Express interface data lanes | x4 |
| SSD capacity | 7.62 TB |
| Memory type | QLC 3D NAND |
| Data transmission | |
| Random write (4KB) | 17900 IOPS |
| Random read (4KB) | 770000 IOPS |
| Endurance | |
| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
| Mean time between failures (MTBF) | 2000000 h |
| Features | |
| Interface | PCI Express 4.0 |
| Component for | Server |
| NVMe | Yes |
| NVMe version | 2.0 |
| PCI Express interface data lanes | x4 |
| SSD capacity | 7.62 TB |
| Memory type | QLC 3D NAND |
| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
| Random write (4KB) | 17900 IOPS |
| Random read (4KB) | 770000 IOPS |
| Mean time between failures (MTBF) | 2000000 h |
| SSD form factor | U.2 |
| Random latency - read (up to) | 110 µs |
| Random latency - write (up to) | 50 µs |
| Sequential latency - read (up to) | 10 µs |
| Sequential latency - write (up to) | 15 µs |
| Drive writes per day (DWPD) | 0.42 |
| Power | |
|---|---|
| Power consumption (idle) | 5 W |
| Performance | |
| Interface | PCI Express 4.0 |
| Component for | Server |
| NVMe | Yes |
| NVMe version | 2.0 |
| PCI Express interface data lanes | x4 |
| SSD capacity | 7.62 TB |
| Memory type | QLC 3D NAND |
| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
| Random write (4KB) | 17900 IOPS |
| Random read (4KB) | 770000 IOPS |
| Mean time between failures (MTBF) | 2000000 h |
| Design | |
| Component for | Server |
| SSD form factor | U.2 |
| Technical details | |
| Interface | PCI Express 4.0 |
| SSD form factor | U.2 |
| Warranty period | 5 year(s) |
| Other features | |
| Warranty period | 5 year(s) |
| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |