Kingston Fury Renegade Ssd Vs Samsung 990 Pro: Showdown Of Nvme Titans
What To Know
- Among the top contenders in the NVMe SSD market are the Kingston FURY Renegade SSD and the Samsung 990 PRO.
- The Kingston FURY Renegade SSD comes in capacities ranging from 500GB to 2TB, while the Samsung 990 PRO offers a wider range of options from 1TB to 4TB.
- In a neck-and-neck competition, the Samsung 990 PRO emerges as the victor due to its slightly faster speeds, superior endurance, and comprehensive feature set.
In the realm of storage solutions, solid-state drives (SSDs) have emerged as game-changers, offering lightning-fast data transfer speeds and exceptional reliability. Among the top contenders in the NVMe SSD market are the Kingston FURY Renegade SSD and the Samsung 990 PRO. In this comprehensive comparison, we pit these two storage powerhouses against each other to determine which one reigns supreme.
Performance: Speed and Endurance
Both the Kingston FURY Renegade SSD and the Samsung 990 PRO boast impressive performance metrics. The Renegade SSD delivers sequential read/write speeds of up to 7,300/6,000 MB/s, while the 990 PRO offers slightly higher speeds of up to 7,450/6,900 MB/s.
In terms of endurance, the Renegade SSD has a rated lifespan of 1.6 million hours mean time between failures (MTBF), while the 990 PRO has an even longer MTBF of 1.8 million hours. Both drives provide ample endurance for even the most demanding workloads.
Capacity and Form Factor
The Kingston FURY Renegade SSD comes in capacities ranging from 500GB to 2TB, while the Samsung 990 PRO offers a wider range of options from 1TB to 4TB. Both drives adopt the M.2 2280 form factor, making them compatible with most modern motherboards.
Features and Technology
The Kingston FURY Renegade SSD utilizes TLC (Triple-Level Cell) NAND flash memory, while the Samsung 990 PRO employs MLC (Multi-Level Cell) NAND flash. MLC offers greater endurance and reliability compared to TLC, but it also comes at a higher cost.
In terms of features, the Samsung 990 PRO has an edge over the Renegade SSD. It features a built-in heat sink to prevent overheating, as well as support for the PCIe 5.0 interface, which offers even faster data transfer speeds.
Pricing and Value
The Kingston FURY Renegade SSD offers a more affordable option compared to the Samsung 990 PRO. For example, the 1TB Renegade SSD is priced around $100 less than the 1TB 990 PRO. However, the 990 PRO’s superior performance and features may justify the higher price tag for certain users.
Application Scenarios
Both the Kingston FURY Renegade SSD and the Samsung 990 PRO are suitable for various applications, including:
- Gaming: Fast loading times and smooth gameplay
- Content creation: Rapid file transfers and editing
- Data analysis: Efficient handling of large datasets
- Operating system storage: Improved boot times and overall performance
Which SSD to Choose?
The choice between the Kingston FURY Renegade SSD and the Samsung 990 PRO ultimately depends on your specific requirements and budget.
- For users seeking a cost-effective option with solid performance, the Kingston FURY Renegade SSD is a great choice.
- For users who prioritize极致 performance, endurance, and features, the Samsung 990 PRO is the better option.
Verdict: A Close Contest
In a neck-and-neck competition, the Samsung 990 PRO emerges as the victor due to its slightly faster speeds, superior endurance, and comprehensive feature set. However, the Kingston FURY Renegade SSD remains a compelling alternative for users seeking a more affordable NVMe SSD with strong performance.
Information You Need to Know
Q: Which SSD has a longer lifespan?
A: The Samsung 990 PRO has a higher MTBF rating of 1.8 million hours compared to the Renegade SSD‘s 1.6 million hours.
Q: Does the 990 PRO support PCIe 5.0?
A: Yes, the Samsung 990 PRO supports the PCIe 5.0 interface, which offers faster data transfer speeds than PCIe 4.0.
Q: Is the Renegade SSD compatible with all motherboards?
A: The Kingston FURY Renegade SSD uses the M.2 2280 form factor, which is compatible with most modern motherboards.