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Ultrastar DC HC580 Data Center HDD
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The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See moreThe relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
... See more
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24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
24TB data center HDD with OptiNAND™ technology
The relentless growth of data means organizations must find ways to efficiently store ever more data. The Ultrastar DC HC580 24TB1 HDD with improved OptiNAND technology is the next step in high-capacity hard drives, allowing data centers to maximize their storage, especially in footprint- and power-constrained environments.
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Keep up with exponential data growth
The 24TB1 Ultrastar DC HC580 HDD with OptiNAND technology’s capacity-enabling features provides more efficient storage on a 10-disk CMR drive, enabling you to store more in the same footprint
Innovative technologies for higher capacities
Improved OptiNAND technology, energy-assisted magnetic recording (EAMR), triplestage actuator (TSA), and HelioSeal enable high capacity with low power
Performance and protection
ArmorCache is a feature enabled by OptiNAND that offers higher performance in write cache disabled mode and provides enterprise power loss protection in write cache enabled mode
Designed for data center workloads
The Ultrastar DC HC580 is performance-optimized to handle heavy application workloads of up to 550TB2 per year.
Built with reliability in mind
This robust drive delivers dependability in intense data center environments with up to 2.5M hours MTBF3 (projected).
Quality and security
Provides additional peace of mind with a 5-year limited warranty
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Specifications
- Cloud and hyperscale storage
- Massive scale-out (MSO), high-density data centers
- Distributed File Systems
- Primary and secondary storage for Apache Hadoop® for Big Data analytics
- Hybrid cloud environments
- Hyperconverged infrastructure servers
- New, improved OptiNAND technology enables more efficient storage footprint
- Energy-assisted magnetic recording (EAMR), triple-stage actuator (TSA), and HelioSeal for high capacity with low power
- ArmorCache improves performance and provides enterprise power loss protection
- Windows®
- Windows Server®
- Linux®
Ratings & Reviews
Support & Resources
Disclosures
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.
- One terabyte (TB) = one trillion bytes. Actual user capacity may be less due to operating environment.
- Workload Rate is defined as the amount of user data transferred to or from the hard drive. Workload Rate is annualized (TB transferred X (8760 / recorded power-on hours)). Workload Rate will vary depending on your hardware and software components and configurations.
- Projected values. Final MTBF and AFR specifications will be based on a sample population and are estimated by statistical measurements and acceleration algorithms under typical operating conditions, typical workload and 40°C device-reported temperature. Derating of MTBF and AFR will occur above these parameters, up to 550TB/year and 60°C (device-reported temperature). MTBF and AFR ratings do not predict an individual drive’s reliability and do not constitute a warranty.