Western Digital 14TB DC HDD – Driving Up Capacity and Driving Down TCO
The Ultrastar DC HC500-series is designed for public and private cloud environments where storage density and cost-efficient infrastructure is critical.
Western Digital 14TB DC HDD – Driving Up Capacity and Driving Down TCO
The Ultrastar DC HC500-series is designed for public and private cloud environments where storage density and cost-efficient infrastructure is critical.
Western Digital 14TB DC HDD – Driving Up Capacity and Driving Down TCO
The Ultrastar DC HC500-series is designed for public and private cloud environments where storage density and cost-efficient infrastructure is critical.
Western Digital 14TB DC HDD – Driving Up Capacity and Driving Down TCO
The Ultrastar DC HC500-series is designed for public and private cloud environments where storage density and cost-efficient infrastructure is critical.
Driving Up Capacity and Driving Down TCO for Cloud and Enterprise Data Centers
The breadth and depth of big data is driving the universal need for higher capacities across a broad spectrum of applications and workloads. Laying the foundation for a worry-free data center, Western Digital delivers capacity to conquer the data explosion–the 14TB1 Ultrastar® DC HC530 hard drive. Built using HelioSeal technology, the industry’s only fifth-generation helium platform and the basis for our high-capacity DC HC500 series, Ultrastar DC HC530 was designed for public and private cloud environments where storage density, Watts/TB and $/TB are critical parameters for creating the most cost-efficient infrastructure. HelioSeal technology is key to achieving higher drive capacities, higher reliability ratings and extreme power efficiency for lower levels of total cost of ownership (TCO) for cloud and enterprise customers.
HelioSeal Technology Helps Solve Challenges Facing Next Generation Data Centers
Data centers are facing growing pressures. Data volume is expanding, operating costs are rising, yet budgets remain flat. HelioSeal technology enables Ultrastar DC HC530 to deliver one of the lowest power profiles in the industry, helping data center architects meet eco-environmental goals and requirements. Designed to handle workloads up to 550TB per year, the Ultrastar DC HC530 is based on conventional magnetic recording (CMR) technology for drop-in simplicity in enterprise and cloud data centers. Features like TDMR technology (two-dimensional magnetic recording) and a third-generation dual-stage microactuator work together to enhance head-positioning accuracy and deliver better performance, data integrity and overall drive reliability, critical in multi-drive environments where operational vibration is present. A choice of 6Gb/s SATA or 12Gb/s SAS interface enables easy integration into high performance data centers. Trust Western Digital and the Ultrastar DC HC530 hard drive to deliver more capacity, more efficiency, more reliability and more value to your data center.
Driving Up Capacity and Driving Down TCO for Cloud and Enterprise Data Centers
The breadth and depth of big data is driving the universal need for higher capacities across a broad spectrum of applications and workloads. Laying the foundation for a worry-free data center, Western Digital delivers capacity to conquer the data explosion–the 14TB1 Ultrastar® DC HC530 hard drive. Built using HelioSeal technology, the industry’s only fifth-generation helium platform and the basis for our high-capacity DC HC500 series, Ultrastar DC HC530 was designed for public and private cloud environments where storage density, Watts/TB and $/TB are critical parameters for creating the most cost-efficient infrastructure. HelioSeal technology is key to achieving higher drive capacities, higher reliability ratings and extreme power efficiency for lower levels of total cost of ownership (TCO) for cloud and enterprise customers.
HelioSeal Technology Helps Solve Challenges Facing Next Generation Data Centers
Data centers are facing growing pressures. Data volume is expanding, operating costs are rising, yet budgets remain flat. HelioSeal technology enables Ultrastar DC HC530 to deliver one of the lowest power profiles in the industry, helping data center architects meet eco-environmental goals and requirements. Designed to handle workloads up to 550TB per year, the Ultrastar DC HC530 is based on conventional magnetic recording (CMR) technology for drop-in simplicity in enterprise and cloud data centers. Features like TDMR technology (two-dimensional magnetic recording) and a third-generation dual-stage microactuator work together to enhance head-positioning accuracy and deliver better performance, data integrity and overall drive reliability, critical in multi-drive environments where operational vibration is present. A choice of 6Gb/s SATA or 12Gb/s SAS interface enables easy integration into high performance data centers. Trust Western Digital and the Ultrastar DC HC530 hard drive to deliver more capacity, more efficiency, more reliability and more value to your data center.
Driving Up Capacity and Driving Down TCO for Cloud and Enterprise Data Centers
The breadth and depth of big data is driving the universal need for higher capacities across a broad spectrum of applications and workloads. Laying the foundation for a worry-free data center, Western Digital delivers capacity to conquer the data explosion–the 14TB1 Ultrastar® DC HC530 hard drive. Built using HelioSeal technology, the industry’s only fifth-generation helium platform and the basis for our high-capacity DC HC500 series, Ultrastar DC HC530 was designed for public and private cloud environments where storage density, Watts/TB and $/TB are critical parameters for creating the most cost-efficient infrastructure. HelioSeal technology is key to achieving higher drive capacities, higher reliability ratings and extreme power efficiency for lower levels of total cost of ownership (TCO) for cloud and enterprise customers.
HelioSeal Technology Helps Solve Challenges Facing Next Generation Data Centers
Data centers are facing growing pressures. Data volume is expanding, operating costs are rising, yet budgets remain flat. HelioSeal technology enables Ultrastar DC HC530 to deliver one of the lowest power profiles in the industry, helping data center architects meet eco-environmental goals and requirements. Designed to handle workloads up to 550TB per year, the Ultrastar DC HC530 is based on conventional magnetic recording (CMR) technology for drop-in simplicity in enterprise and cloud data centers. Features like TDMR technology (two-dimensional magnetic recording) and a third-generation dual-stage microactuator work together to enhance head-positioning accuracy and deliver better performance, data integrity and overall drive reliability, critical in multi-drive environments where operational vibration is present. A choice of 6Gb/s SATA or 12Gb/s SAS interface enables easy integration into high performance data centers. Trust Western Digital and the Ultrastar DC HC530 hard drive to deliver more capacity, more efficiency, more reliability and more value to your data center.
Driving Up Capacity and Driving Down TCO for Cloud and Enterprise Data Centers
The breadth and depth of big data is driving the universal need for higher capacities across a broad spectrum of applications and workloads. Laying the foundation for a worry-free data center, Western Digital delivers capacity to conquer the data explosion–the 14TB1 Ultrastar® DC HC530 hard drive. Built using HelioSeal technology, the industry’s only fifth-generation helium platform and the basis for our high-capacity DC HC500 series, Ultrastar DC HC530 was designed for public and private cloud environments where storage density, Watts/TB and $/TB are critical parameters for creating the most cost-efficient infrastructure. HelioSeal technology is key to achieving higher drive capacities, higher reliability ratings and extreme power efficiency for lower levels of total cost of ownership (TCO) for cloud and enterprise customers.
HelioSeal Technology Helps Solve Challenges Facing Next Generation Data Centers
Data centers are facing growing pressures. Data volume is expanding, operating costs are rising, yet budgets remain flat. HelioSeal technology enables Ultrastar DC HC530 to deliver one of the lowest power profiles in the industry, helping data center architects meet eco-environmental goals and requirements. Designed to handle workloads up to 550TB per year, the Ultrastar DC HC530 is based on conventional magnetic recording (CMR) technology for drop-in simplicity in enterprise and cloud data centers. Features like TDMR technology (two-dimensional magnetic recording) and a third-generation dual-stage microactuator work together to enhance head-positioning accuracy and deliver better performance, data integrity and overall drive reliability, critical in multi-drive environments where operational vibration is present. A choice of 6Gb/s SATA or 12Gb/s SAS interface enables easy integration into high performance data centers. Trust Western Digital and the Ultrastar DC HC530 hard drive to deliver more capacity, more efficiency, more reliability and more value to your data center.
Specifications
- Ideal for high-capacity enterprise applications and environmentsHelioSeal design delivers outstanding power efficiency (Watts/TB)
- TDMR and improved dual-stage microactuator for optimal head positioning and rotational vibration robustness
- Windows, Windows Server, Linux
Specifications
- Ideal for high-capacity enterprise applications and environmentsHelioSeal design delivers outstanding power efficiency (Watts/TB)
- TDMR and improved dual-stage microactuator for optimal head positioning and rotational vibration robustness
- Windows, Windows Server, Linux
Specifications
- Ideal for high-capacity enterprise applications and environmentsHelioSeal design delivers outstanding power efficiency (Watts/TB)
- TDMR and improved dual-stage microactuator for optimal head positioning and rotational vibration robustness
- Windows, Windows Server, Linux
Specifications
- Ideal for high-capacity enterprise applications and environmentsHelioSeal design delivers outstanding power efficiency (Watts/TB)
- TDMR and improved dual-stage microactuator for optimal head positioning and rotational vibration robustness
- Windows, Windows Server, Linux
Ratings & Reviews
Support & Resources
Disclosures
- One MB is equal to one million bytes, one GB is equal to one billion bytes and one TB equals 1,000GB (one trillion bytes) when referring to hard drive capacity. Accessible capacity will vary from the stated capacity due to formatting and partitioning of the hard drive, the computer’s operating sys-tem, and other factors.
- Advanced Format drive: 4K (4096-byte) physical sectors.
- 512e models can be converted to 4Kn and vice versa.
- Portion of buffer capacity used for drive firmware.
- Based on internal testing; performance may vary depending on host environment, drive capacity, and other factors. 1MiB = 1,048,576 bytes (2²⁰), 1MB = 1,000,000 bytes (10⁶).
- MTBF and AFR specifications are based on a sample population and are estimated by statistical measurements and acceleration al-gorithms under typical operating conditions for this drive model. MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- SATA models: 8KB Queue Depth = 1 @ 40 IOPS, SAS models: 4KB Queue Depth = 4 @ Max IOPS
- Idle specification is based on use of Idle_A
- One MB is equal to one million bytes, one GB is equal to one billion bytes and one TB equals 1,000GB (one trillion bytes) when referring to hard drive capacity. Accessible capacity will vary from the stated capacity due to formatting and partitioning of the hard drive, the computer’s operating sys-tem, and other factors.
- Advanced Format drive: 4K (4096-byte) physical sectors.
- 512e models can be converted to 4Kn and vice versa.
- Portion of buffer capacity used for drive firmware.
- Based on internal testing; performance may vary depending on host environment, drive capacity, and other factors. 1MiB = 1,048,576 bytes (2²⁰), 1MB = 1,000,000 bytes (10⁶).
- MTBF and AFR specifications are based on a sample population and are estimated by statistical measurements and acceleration al-gorithms under typical operating conditions for this drive model. MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- SATA models: 8KB Queue Depth = 1 @ 40 IOPS, SAS models: 4KB Queue Depth = 4 @ Max IOPS
- Idle specification is based on use of Idle_A
- One MB is equal to one million bytes, one GB is equal to one billion bytes and one TB equals 1,000GB (one trillion bytes) when referring to hard drive capacity. Accessible capacity will vary from the stated capacity due to formatting and partitioning of the hard drive, the computer’s operating sys-tem, and other factors.
- Advanced Format drive: 4K (4096-byte) physical sectors.
- 512e models can be converted to 4Kn and vice versa.
- Portion of buffer capacity used for drive firmware.
- Based on internal testing; performance may vary depending on host environment, drive capacity, and other factors. 1MiB = 1,048,576 bytes (2²⁰), 1MB = 1,000,000 bytes (10⁶).
- MTBF and AFR specifications are based on a sample population and are estimated by statistical measurements and acceleration al-gorithms under typical operating conditions for this drive model. MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- SATA models: 8KB Queue Depth = 1 @ 40 IOPS, SAS models: 4KB Queue Depth = 4 @ Max IOPS
- Idle specification is based on use of Idle_A
- One MB is equal to one million bytes, one GB is equal to one billion bytes and one TB equals 1,000GB (one trillion bytes) when referring to hard drive capacity. Accessible capacity will vary from the stated capacity due to formatting and partitioning of the hard drive, the computer’s operating sys-tem, and other factors.
- Advanced Format drive: 4K (4096-byte) physical sectors.
- 512e models can be converted to 4Kn and vice versa.
- Portion of buffer capacity used for drive firmware.
- Based on internal testing; performance may vary depending on host environment, drive capacity, and other factors. 1MiB = 1,048,576 bytes (2²⁰), 1MB = 1,000,000 bytes (10⁶).
- MTBF and AFR specifications are based on a sample population and are estimated by statistical measurements and acceleration al-gorithms under typical operating conditions for this drive model. MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- SATA models: 8KB Queue Depth = 1 @ 40 IOPS, SAS models: 4KB Queue Depth = 4 @ Max IOPS
- Idle specification is based on use of Idle_A