Description
RPM and Data Transfer Rate
RPM and Data Transfer Rate are important technical specifications that determine the performance of a hard drive. Here are some subheadings to cover this topic in more detail:
- Understanding RPM (Rotations Per Minute)
- Definition and Functionality
- Impact on Drive Performance
- Comparison with Other Drives (SSD, HDD)
- RPM and Sequential Data Transfer Rate
- Definition and Calculation
- Impact on Data Access and Transfer Speed
- Performance Benchmarks and Testing
- RPM and Random Data Transfer Rate
- Definition and Calculation
- Impact on IOPS (Input/Output Operations per Second)
- Performance Benchmarks and Testing
- Factors Affecting RPM and Data Transfer Rate
- Drive Size and Form Factor
- Platter Density and Spindle Speed
- Interface and Controller Technology
- RPM and Data Transfer Rate in HP 4 TB Midline Hard Drive
- Specification Details and Performance Benchmarks
- Comparison with Other Drives (HP, Third-Party)
- Choosing the Right RPM and Data Transfer Rate for Your Needs
- Use Case Considerations (Server, Desktop, Gaming, etc.)
- Budget and Performance Tradeoffs
- Future Proofing and Scalability
Server and Storage Systems
Server and storage systems are key applications for the HP 4 TB Midline Hard Drive. Here are some subheadings to cover this topic in more detail:
- Overview of Server and Storage Systems
- Definition and Types of Systems
- Key Components and Functions
- Common Use Cases and Applications
- Benefits of HP 4 TB Midline Hard Drive in Server and Storage Systems
- High Capacity and Reliability
- Fast Data Transfer and Access Speeds
- Easy Installation and Maintenance
- HP Server and Storage Systems Compatible with HP 4 TB Midline Hard Drive
- ProLiant DL Series Servers
- ProLiant ML Series Servers
- HP StorageWorks Disk Enclosures
- Other Compatible Systems
- Installing and Configuring HP 4 TB Midline Hard Drive in Server and Storage Systems
- Step-by-Step Installation Guide
- Configuration Options and Best Practices
- Troubleshooting Tips and Common Issues
- Use Cases for HP 4 TB Midline Hard Drive in Server and Storage Systems
- Data Backup and Archive
- Media Storage and Streaming
- Virtualization and Cloud Computing
- Big Data Analytics and Data Warehousing
- Comparison with Other Drives for Server and Storage Systems
- Performance, Capacity and Reliability Comparison
- Price and Value Proposition
- Future Trends and Developments in Server and Storage Systems
- Emerging Technologies and Trends
- Impact on Hard Drive Technology and Performance
- Future Prospects and Opportunities
Cache Size and Average Latency
Cache Size and Average Latency are important technical specifications that affect the performance of a hard drive. Here are some subheadings to cover this topic in more detail:
- Understanding Cache Size
- Definition and Functionality
- Types of Cache (Read, Write, Adaptive, etc.)
- Impact on Drive Performance
- Cache Size and Data Transfer Speed
- Definition and Calculation
- Impact on Data Access and Transfer Speed
- Performance Benchmarks and Testing
- Cache Size and Data Transfer Efficiency
- Definition and Calculation
- Impact on IOPS (Input/Output Operations per Second)
- Performance Benchmarks and Testing
- Factors Affecting Cache Size and Performance
- Drive Size and Form Factor
- Interface and Controller Technology
- Operating System and Applications
- Understanding Average Latency
- Definition and Functionality
- Impact on Drive Performance
- Comparison with Seek Time and Transfer Time
- Average Latency and Data Access Speed
- Definition and Calculation
- Impact on Data Access and Transfer Speed
- Performance Benchmarks and Testing
- Average Latency and IOPS
- Definition and Calculation
- Impact on IOPS (Input/Output Operations per Second)
- Performance Benchmarks and Testing
- Cache Size and Average Latency in HP 4 TB Midline Hard Drive
- Specification Details and Performance Benchmarks
- Comparison with Other Drives (HP, Third-Party)
- Choosing the Right Cache Size and Average Latency for Your Needs
- Use Case Considerations (Server, Desktop, Gaming, etc.)
- Budget and Performance Tradeoffs
- Future Proofing and Scalability
Product Information:
- Manufacturer Name: HP
- MPN: 694534-001
- Type: Hot-Swap Hard Drive
- HDD Type: SATA-3GBPS
- Option Part Number: 694374-B21
- Model Number: MB4000GCWDC
- Assembly Part Number: 695503-004
- SKU: 694534-001
Technical Information
- Capacity: 4 TB
- Form Factor: 3.5 inch LFF
- Interface: SATA 3Gbps
- Bytes per Sector: 512e
- Features: Native Command Queuing (NCQ)
Dimension and Weight
- Width : 4 Inch
- Depth : 5.8 Inch
- Height : 1 Inch
- Weight : 1.52 Lbs
Performance
- Drive Transfer Rate: 300 MBps (external)
- Seek Time: 8.5 ms (average) / 16.2 ms (max)
- Track-to-Track Seek Time: 0.8 ms
- Spindle Speed: 7200 rpm
Expansion & Connectivity
- Interfaces: 1 x SATA 3 Gbps – 7 pin Serial ATA
- Compatible Bays: 1 x hot-swap – 3.5 inch LFF
Environmental Parameters
- Min Operating Temperature: 50 °F
- Max Operating Temperature: 95 °F
Compatibility Information:
- ProLiant DL Series: DL1000 DL120 (G5 G6 G7) DL140 (G3) DL145 (G3) DL160 (G5 G5p G6 G7) DL160se (G6 G7)
- ProLiant DL Series: DL165 (G5 G5p G6 G7) DL170e (G6) DL170h (G6) DL2x170h (G6) DL4x170h (G6)
- ProLiant DL Series: DL180 (G5 G6 G7) DL185 (G5) DL320 (G3 G4 G5 G5p G6 G7) DL320sDL370 (G6 G7)
- ProLiant DL Series: DL380 (G4 G5 G6 G7) DL385 (G5 G5p G6 G7) DL580 (G4 G5 G6 G7) DL585 (G2 G5 G6 G7)
- ProLiant DL Series: DL785 (G5 G6)
- ProLiant ML Series: ML110 (G7) ML150 (G5 G6 G7) ML310 (G5p) ML330 (G6) ML350 (G5 G6 G7) ML370 (G5 G6 G7)
- HP Storage arrays: D2600 MDS600 MSA60 P4300 P4500 P4000 (G2) 60 Modular Array StoreAll 9730
- HP StoreEasy: 1430 1440 1530 1540 1630 1640 1830 1840 5530 X1400 X1500 X1600 X1800 X3400 X3800
