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System Name | RBMK-1000 |
---|---|
Processor | AMD Ryzen 7 5700G |
Motherboard | ASUS ROG Strix B450-E Gaming |
Cooling | DeepCool Gammax L240 V2 |
Memory | 2x 8GB G.Skill Sniper X |
Video Card(s) | Palit GeForce RTX 2080 SUPER GameRock |
Storage | Western Digital Black NVMe 512GB |
Display(s) | BenQ 1440p 60 Hz 27-inch |
Case | Corsair Carbide 100R |
Audio Device(s) | ASUS SupremeFX S1220A |
Power Supply | Cooler Master MWE Gold 650W |
Mouse | ASUS ROG Strix Impact |
Keyboard | Gamdias Hermes E2 |
Software | Windows 11 Pro |
Corsair, a worldwide designer and supplier of high-performance components to the PC gaming hardware market, today announced its plans for the upcoming transition from 34 nanometer to 25 nanometer flash chips used on its solid-state drives.
"There is a lot of confusion in the market about the impact the move from 34 to 25nm flash will have on both the price and the performance of solid-state drives," said John Beekley, VP of Technical Marketing at Corsair. "We've been working closely with SandForce to ensure the smoothest possible transition and we're sharing the details today."
Flash memory manufacturers are transitioning to using 25nm process for fabrication, allowing them to boost capacity and reduce costs, which in turn will allow SSD suppliers to pass those savings to the consumer. The downside is that SSDs built using 25nm flash ICs may require more over-provisioning (a technique used to ensure reliability) which lowers the capacity of the SSD and may also see a reduction in performance.
"The Corsair and SandForce engineering teams have been working closely with the key flash memory suppliers to profile and qualify 25nm parts," continued Beekley, "and we've been running our Force drives through performance and reliability testing alongside them. We're pleased with the progress that's been made in getting the Force Series 25nm drives ready to ship to customers."
In the Corsair Labs, using the ATTO synthetic benchmark, only a small reduction in performance (roughly 3-4%) was seen when testing Force Series SSDs built with 25nm flash. Real-world tests, such as copying groups of files or measuring Windows boot times, support the ATTO results and show little to no performance loss. However, the over-provisioning needed means that in some cases the capacity of the drives will be reduced.
"So that our customers are perfectly clear about what they are getting, we will be changing the model numbers on all 25nm based drives and transitioning the drive capacities we offer where necessary. For example, a drive that would have been sold as 120GB when built with 34nm flash will be launched as a 115GB version," said Jared Peck, Global Product Marketing Manager for SSDs at Corsair, "All Force Series drives built with 25nm flash will also have a '-A' suffix on the part and/or model number, making it easy to determine exactly what you're getting."
Force Series 115GB and 80GB 25nm drives will be available by the end of February from Corsair's worldwide network of resellers and distributors. The F115-A has a Manufacturer's Suggested Retail Price (MSRP) of $215 and the F80-A has an MSRP of $169 in the U.S. For comparison the current Force Series F120 has an MSRP of $249 and the F80 has an MSRP of $199.
You can read more about the transition plan, including the full set of results from our Corsair Lab performance testing, on the Corsair Blog.
View at TechPowerUp Main Site
"There is a lot of confusion in the market about the impact the move from 34 to 25nm flash will have on both the price and the performance of solid-state drives," said John Beekley, VP of Technical Marketing at Corsair. "We've been working closely with SandForce to ensure the smoothest possible transition and we're sharing the details today."
Flash memory manufacturers are transitioning to using 25nm process for fabrication, allowing them to boost capacity and reduce costs, which in turn will allow SSD suppliers to pass those savings to the consumer. The downside is that SSDs built using 25nm flash ICs may require more over-provisioning (a technique used to ensure reliability) which lowers the capacity of the SSD and may also see a reduction in performance.
"The Corsair and SandForce engineering teams have been working closely with the key flash memory suppliers to profile and qualify 25nm parts," continued Beekley, "and we've been running our Force drives through performance and reliability testing alongside them. We're pleased with the progress that's been made in getting the Force Series 25nm drives ready to ship to customers."
In the Corsair Labs, using the ATTO synthetic benchmark, only a small reduction in performance (roughly 3-4%) was seen when testing Force Series SSDs built with 25nm flash. Real-world tests, such as copying groups of files or measuring Windows boot times, support the ATTO results and show little to no performance loss. However, the over-provisioning needed means that in some cases the capacity of the drives will be reduced.
"So that our customers are perfectly clear about what they are getting, we will be changing the model numbers on all 25nm based drives and transitioning the drive capacities we offer where necessary. For example, a drive that would have been sold as 120GB when built with 34nm flash will be launched as a 115GB version," said Jared Peck, Global Product Marketing Manager for SSDs at Corsair, "All Force Series drives built with 25nm flash will also have a '-A' suffix on the part and/or model number, making it easy to determine exactly what you're getting."
Force Series 115GB and 80GB 25nm drives will be available by the end of February from Corsair's worldwide network of resellers and distributors. The F115-A has a Manufacturer's Suggested Retail Price (MSRP) of $215 and the F80-A has an MSRP of $169 in the U.S. For comparison the current Force Series F120 has an MSRP of $249 and the F80 has an MSRP of $199.
You can read more about the transition plan, including the full set of results from our Corsair Lab performance testing, on the Corsair Blog.
View at TechPowerUp Main Site