GOODRAM ATA Device
User Benchmarks

ModelTypeScoreSeq.
Read
MB
Seq.
Write
MB
Read
4k64QD
Write
4k64QD
Read
Access
msek.
Write
Access
msek.
GOODRAM ATA Device240691242227147.9064.170.140.07
WDS500G1X0E-00AFY // Samsung SSD 860 QVO 2T // SanDisk SDSSDP256 // Corsair Neutron GTX S // Wilk GOODRAM 32GB USB Devic // AVAGO MR9440-8i SCSI Disk Devic // WDC WD1200BEVS-75UST // WDC WD30EZRS-00J99B0 ATA Devic
The measurement of the GOODRAM ATA Device was carried out on Windows. Similar read and write speeds could certainly be achieved with the GOODRAM ATA Device under Linux and MacOS. Of course, the correct hard drive driver should be installed and the correct interface for the GOODRAM ATA Device should be used.
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GOODRAM ATA Device refers to a series of storage media manufactured by GOODRAM. GOODRAM is a well-known storage and computer hardware brand that offers a wide range of products including solid-state drives (SSDs) and other storage solutions. If you are referring to a specific GOODRAM ATA device, it may vary depending on the model and year. Below you will find a detailed description, technical details, features and application areas of a typical GOODRAM ATA device, especially if it is an older ATA (Advanced Technology Attachment) drive, which is now generally replaced by more modern SATA drives.

Technical Details


1. Capacity:
- Varies by model. GOODRAM offers various capacities, typically from a few gigabytes to several terabytes for current SSDs. Older ATA drives could have capacities from 20 GB to 500 GB or more.

2. Form Factor:
- 2.5-inch or 3.5-inch. Older ATA drives, such as IDE hard drives, are often available in these form factors. The 2.5-inch form factor is often used in laptops, while the 3.5-inch form factor is typically found in desktop PCs.

3. Interface:
- ATA/IDE (Integrated Drive Electronics). Also known as PATA (Parallel ATA). This interface used to be the standard for hard drives and optical drives before it was largely replaced by SATA (Serial ATA). Older ATA drives use a 40-pin or 80-pin connector cable for data transfer.

4. Rotational Speed:
- 5400 RPM or 7200 RPM. These rotational speeds refer to the speed at which the hard drive platters spin. 7200 RPM offers better performance than 5400 RPM, but it is also noisier and generates more heat.

5. Buffer Size (Cache):
- 2 MB to 16 MB. The cache helps improve performance by temporarily storing frequently accessed data for faster access.

6. Average Access Time:
- 8 to 12 ms (milliseconds). This time indicates how quickly the hard drive can access a specific location of data.

7. Fault Tolerance and Reliability:
- MTBF (Mean Time Between Failures): Typically over 500,000 hours for older ATA drives. This indicates average reliability.

8. Power Consumption:
- Operating Consumption: Typically 5 to 10 watts for older hard drives.
- Idle: Typically 2 to 5 watts. Older ATA drives tend to be more power intensive than modern SSDs.

9. Operating and Environmental Conditions:
- Operating Temperature: Typically 0 to 60°C.
- Storage Temperature: Typically -40 to 70°C.

Features


1. High Capacity:
- The GOODRAM ATA devices offer generous storage capacity, sufficient for many applications. Newer models are available in larger capacities.

2. Compatibility:
- Older ATA devices are backwards compatible and can be used in older computers and systems that have not yet converted to SATA.

3. Fault Tolerance:
- GOODRAM ATA drives are designed with basic fault tolerance technologies to ensure data integrity and reliability.

4. Reliability:
- The devices offer good durability and durability under normal operation. However, older drives can be more prone to wear and tear.

5. Easy replacement:
- The use of IDE cables and slots makes ATA drives relatively easy to install and replace, even though they are now being replaced by SATA.

6. Cost:
- Older ATA drives can be less expensive than newer SSDs, but do not offer the same performance or power efficiency.

Application Area


1. Older Computers and Laptops:
- ATA devices are ideal for use in older computers and laptops that do not have SATA interfaces.

2. Backup Solutions:
- Older ATA hard drives can be used for backup purposes, especially when integrated into existing systems.

3. External Storage Solutions:
- ATA drives can be used in external enclosures to provide portable storage solutions, although modern SATA and SSD options are more commonly used today.

4. System Upgrade:
- For older systems that need to be upgraded to improve performance, GOODRAM ATA drives can serve as a cost-effective solution.

5. Data Archival:
- Ideal for long-term storage of data, especially when continuing to use the computer or system that supports ATA technology.

6. Legacy Systems:
- Perfect for systems that still rely on older ATA technology due to specifications or requirements.

Summary


The GOODRAM ATA Device is a storage medium characterized by the use of the older ATA interface and technology. With capacities of typically 250 GB, rotational speeds of 5400 or 7200 RPM, and a buffer size of up to 16 MB, it offers solid performance for older systems. Support for this technology makes it compatible with older computers and laptops that still rely on ATA interfaces. Even though modern systems have largely moved to SATA and NVMe solutions, GOODRAM ATA drives continue to provide a useful and cost-effective solution for specific applications and legacy systems.
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GOODRAM ATA Device and the compatible operating systems


Windows Server 2025, 2022, 2019, 2016, ... or 2008 and higher

Windows 12, 11, 10 or Windows 7 and higher
Linux (various distributions)
macOS (from version 10.6)

Please note that the exact functions and areas of application may vary depending on the firmware version and configuration of GOODRAM ATA Device.

The GOODRAM ATA Device is a reliable disk in case of problems, failures, file loss and other errors, check the drivers of the GOODRAM ATA Device regardless of whether it is under Windows 12, 11, 10, etc. or Linux and Apples macOS.




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