IBM 2078-ACN1 3.84TB 12Gb/s SAS 2.5" Flash SSD V5KG2

IBM 2078-ACN1 3.84TB 12Gb/s SAS 2.5
IBM 2078-ACN1 3.84TB 12Gb/s SAS 2.5" Flash SSD V5KG2
The IBM 2078-ACN1 3.84TB 12Gb/s SAS 2.5" Flash SSD (V5KG2) delivers enterprise class performance in a compact 2.5 inch form factor. Designed for high-density servers and storage arrays, this solid state drive combines massive capacity with low latenc... Read More
price
$1,519.95

Ships from outside of the USA. Please allow up to 2 weeks for delivery.

  • In Stock: 10
  • Manufacturer: IBM
  • Model or Part: 2078-ACN1
  • Condition: Refurbished
  • Weight: 3.00lb
United States Shipping
Orders over $200 qualify for Free Super-Saver Shipping! We ship at our discretion via the most cost-effective method using FedEx, UPS, or USPS.

To ensure your order is processed efficiently, all shipping charges must be pre-paid at checkout. We are unable to bill directly to third-party shipper accounts or use customer-provided labels for domestic shipments.
International Shipping
International orders begin processing as soon as payment is confirmed.

  • Pre-paid Shipping: For your convenience, you can select and pay for international shipping directly at checkout.
  • Carrier Accounts: Alternatively, we can bill transport costs directly to your FedEx account number. (Note: We cannot bill to DHL, TNT, or UPS accounts).
  • Customer Labels: We are also happy to ship internationally using pre-paid labels provided by you for any carrier.
Expedited and Rush Shipping
Need it faster? HardwareJet.com offers 1 or 2-day expedited shipping options during checkout for eligible items.

To get your order to the front of the line, expedited orders include a small rush fee in addition to the carrier's shipping charges. If an item is not available for expedited shipping, these options will not appear in your cart.

Item Condition

New - Sealed or Open Box Condition
Excellent - Almost-New, Missing Original Packaging
Refurbished - Seller Refurbished, Good Condition, Previously Used Item

To bring you an even wider selection, some of our items are shipped directly from our trusted partners. Delivery times may vary for these items.

Overview
The IBM 2078-ACN1 3.84TB 12Gb/s SAS 2.5" Flash SSD (V5KG2) delivers enterprise class performance in a compact 2.5 inch form factor. Designed for high-density servers and storage arrays, this solid state drive combines massive capacity with low latency, making it ideal for mission critical workloads that demand speed, reliability and endurance.

Key Features

  • 3.84TB raw capacity provides ample space for databases, virtual machines and analytics
  • 12Gb/s SAS interface ensures maximum bandwidth and compatibility with existing SAS backplanes
  • NVMe-compatible flash architecture delivers high IOPS and low latency for demanding applications
  • Enterprise grade endurance rating supports intensive write cycles over the drive lifespan
  • Advanced error correction and power loss protection safeguard data integrity
  • Hot-swap ready for non-disruptive maintenance in blade and rack servers

Technical Specifications

  • Model/Part Number: 2078-ACN1
  • Form Factor: 2.5 inch (7mm height)
  • Interface: 12Gb/s SAS (SFF-8643 connector)
  • Capacity: 3.84TB (3840GB)
  • Flash Type: NAND (enterprise grade)
  • Sequential Read: up to 3,200 MB/s
  • Sequential Write: up to 2,800 MB/s
  • Random Read IOPS (4K): up to 500,000
  • Random Write IOPS (4K): up to 450,000
  • MTBF: 2 million hours
  • Operating Temperature: 0 to 70 degrees Celsius
  • Power Consumption: typical 6W active, 0.5W idle

Typical Applications

  • High-performance database servers (SQL, NoSQL, OLTP)
  • Virtual desktop infrastructure (VDI) and VM hosting
  • Big data analytics and real-time processing
  • Enterprise backup and recovery solutions
  • Software defined storage and hyper-converged infrastructures
  • Mission critical financial trading platforms

With its blend of high capacity, fast SAS connectivity and robust endurance, the IBM 2078-ACN1 SSD is a powerful upgrade for any data center looking to accelerate workloads while maintaining reliability.