GIGABYTE has introduced an upgraded version of its Aero 14 thin gaming notebook, upgrading to NVIDIA’s GeForce GTX 1060GPU with 6 GB of GDDR5 memory. The system has similar specs and features as the model introduced back in June, but now i…
Micron has announced their latest generation of enterprise SATA SSDs, all based on their 3D TLC NAND. The new 5100 series is a full range of enterprise SSDs with capacities ranging from 240GB to 8TB and in three tiers of endurance and performance. Spare area ranges from a minimum of 15% on the density-focused 5100 ECO up to a massive 60% on the performance-focused 5100 MAX. Conversely, write endurance ratings vary from less than one drive write per day (DWPD) on the 5100 ECO up to 5 DWPD on the 5100 MAX. The 5100 ECO and middle-tier 5100 PRO offer M.2 models up to 2TB in addition to their 2.5″ form factor models, while the 5100 MAX is only available as a 2.5″ drive.
Micron’s decision to use TLC NAND across the entire range is a notable departure from previous enterprise SSD product lines. The shift was made possible by two major factors: demand for the highest performance and highest write endurance has shifted from SATA to PCIe SSDs, and Micron’s 3D TLC with sufficient over-provisioning can hit their endurance targets and the bandwidth limits of SATA more economically than a drive based on 3D MLC would.
As enterprise SSDs optimized for consistent sustained performance, the 5100 series does not implement SLC caching and all writes go to TLC NAND. This means that the random and sequential write speeds of the lower-capacity models are significantly impaired, but the larger models in each of the three tiers can saturate a SATA link with sequential writes.
| Micron 5100 Series Specifications Comparison | ||||
| 5100 ECO | 5100 PRO | 5100 MAX | ||
| Form Factor | 2.5″ 7mm and single-sided M.2 2280 | 2.5″ | ||
| Capacities |
480GB, 960GB, 1920GB, 3840GB, 7680GB (2.5″) 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB, 3840GB (2.5″) 240GB, 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB |
|
| Controller | Marvell 88SS1074 | |||
| Interface | SATA 6Gb/s | |||
| NAND | Micron 384Gb 32-layer 3D TLC | |||
| Sequential Read | 540 MB/s | |||
| Sequential Write | 380–520 MB/s | 250–520 MB/s | 310–520 MB/s | |
| 4KB Random Read (QD32) | 93k IOPS | 78k–93k IOPS | 93k IOPS | |
| 4KB Random Write (QD32) | 9k–31k IOPS | 26k–43k IOPS | 48k–74k IOPS | |
| Endurance | 0.45–8.4 PB | 0.65–17.6 PB | 2.2–17.6 PB | |
| MSRP | 55–45¢/GB | 65–55¢/GB | 75–65¢/GB | |
| Encryption | optional TCG Enterprise and FIPS 140-2 validation | |||
The 5100 series has hardware similarities to the 1100 series client SATA SSDs and the consumer Crucial MX300, all of which use Micron’s 3D TLC and Marvell’s 88SS1074 “Dean” controller. The 5100 series adds full power loss protection and enterprise-focused firmware. In a feature Micron advertises as Flex Capacity, the divisions between the three product tiers can be blurred with manual over-provisioning. When reducing the accessible capacity of the drive using the device configuration overlay (DCO), steady-state write performance will naturally improve due to the increased spare area. But in addition, past certain thresholds the 5100s will also engage the same changes in flash management strategy that the higher-endurance tiers apply out of the box. Thus, a 5100 ECO can be reconfigured to be a 5100 PRO in all but name.
The different capacity and form factor options across the three tiers of the 5100 series adds up to 21 different models, each available with or without TCG Enterprise support and FIPS 140-2 certification. Many of these configurations will not initially be available in retail channels and will instead be sold primarily to high-volume customers. Exact pricing has not been announced, but retail prices are expected to range from 45¢/GB to 75¢/GB depending on capacity and endurance tier, and high-volume direct sales will be cheaper.
With the 5100 series replacing the M500DC and M510DC, Micron’s business and enterprise SSDs have all transitioned over to their new naming scheme except for the S600DC SAS SSDs. Micron hasn’t announced what model number their future SAS SSDs will use, but they currently use 1100 for client SATA SSDs and 7100 and 9100 for PCIe SSDs. They also reserved 2100 for client PCIe SSDs before putting those plans on hold. The 1100 and 5100 Series use Micron’s 3D TLC NAND while the rest are still based on planar MLC NAND. Micron expects the 7100 series successor to also switch entirely to TLC when it adopts 3D NAND, so the successor to the 9100 series might be their first use of 3D MLC.
Micron has announced their latest generation of enterprise SATA SSDs, all based on their 3D TLC NAND. The new 5100 series is a full range of enterprise SSDs with capacities ranging from 240GB to 8TB and in three tiers of endurance and performance. Spare area ranges from a minimum of 15% on the density-focused 5100 ECO up to a massive 60% on the performance-focused 5100 MAX. Conversely, write endurance ratings vary from less than one drive write per day (DWPD) on the 5100 ECO up to 5 DWPD on the 5100 MAX. The 5100 ECO and middle-tier 5100 PRO offer M.2 models up to 2TB in addition to their 2.5″ form factor models, while the 5100 MAX is only available as a 2.5″ drive.
Micron’s decision to use TLC NAND across the entire range is a notable departure from previous enterprise SSD product lines. The shift was made possible by two major factors: demand for the highest performance and highest write endurance has shifted from SATA to PCIe SSDs, and Micron’s 3D TLC with sufficient over-provisioning can hit their endurance targets and the bandwidth limits of SATA more economically than a drive based on 3D MLC would.
As enterprise SSDs optimized for consistent sustained performance, the 5100 series does not implement SLC caching and all writes go to TLC NAND. This means that the random and sequential write speeds of the lower-capacity models are significantly impaired, but the larger models in each of the three tiers can saturate a SATA link with sequential writes.
| Micron 5100 Series Specifications Comparison | ||||
| 5100 ECO | 5100 PRO | 5100 MAX | ||
| Form Factor | 2.5″ 7mm and single-sided M.2 2280 | 2.5″ | ||
| Capacities |
480GB, 960GB, 1920GB, 3840GB, 7680GB (2.5″) 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB, 3840GB (2.5″) 240GB, 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB |
|
| Controller | Marvell 88SS1074 | |||
| Interface | SATA 6Gb/s | |||
| NAND | Micron 384Gb 32-layer 3D TLC | |||
| Sequential Read | 540 MB/s | |||
| Sequential Write | 380–520 MB/s | 250–520 MB/s | 310–520 MB/s | |
| 4KB Random Read (QD32) | 93k IOPS | 78k–93k IOPS | 93k IOPS | |
| 4KB Random Write (QD32) | 9k–31k IOPS | 26k–43k IOPS | 48k–74k IOPS | |
| Endurance | 0.45–8.4 PB | 0.65–17.6 PB | 2.2–17.6 PB | |
| MSRP | 55–45¢/GB | 65–55¢/GB | 75–65¢/GB | |
| Encryption | optional TCG Enterprise and FIPS 140-2 validation | |||
The 5100 series has hardware similarities to the 1100 series client SATA SSDs and the consumer Crucial MX300, all of which use Micron’s 3D TLC and Marvell’s 88SS1074 “Dean” controller. The 5100 series adds full power loss protection and enterprise-focused firmware. In a feature Micron advertises as Flex Capacity, the divisions between the three product tiers can be blurred with manual over-provisioning. When reducing the accessible capacity of the drive using the device configuration overlay (DCO), steady-state write performance will naturally improve due to the increased spare area. But in addition, past certain thresholds the 5100s will also engage the same changes in flash management strategy that the higher-endurance tiers apply out of the box. Thus, a 5100 ECO can be reconfigured to be a 5100 PRO in all but name.
The different capacity and form factor options across the three tiers of the 5100 series adds up to 21 different models, each available with or without TCG Enterprise support and FIPS 140-2 certification. Many of these configurations will not initially be available in retail channels and will instead be sold primarily to high-volume customers. Exact pricing has not been announced, but retail prices are expected to range from 45¢/GB to 75¢/GB depending on capacity and endurance tier, and high-volume direct sales will be cheaper.
With the 5100 series replacing the M500DC and M510DC, Micron’s business and enterprise SSDs have all transitioned over to their new naming scheme except for the S600DC SAS SSDs. Micron hasn’t announced what model number their future SAS SSDs will use, but they currently use 1100 for client SATA SSDs and 7100 and 9100 for PCIe SSDs. They also reserved 2100 for client PCIe SSDs before putting those plans on hold. The 1100 and 5100 Series use Micron’s 3D TLC NAND while the rest are still based on planar MLC NAND. Micron expects the 7100 series successor to also switch entirely to TLC when it adopts 3D NAND, so the successor to the 9100 series might be their first use of 3D MLC.
Micron has announced their latest generation of enterprise SATA SSDs, all based on their 3D TLC NAND. The new 5100 series is a full range of enterprise SSDs with capacities ranging from 240GB to 8TB and in three tiers of endurance and performance. Spare area ranges from a minimum of 15% on the density-focused 5100 ECO up to a massive 60% on the performance-focused 5100 MAX. Conversely, write endurance ratings vary from less than one drive write per day (DWPD) on the 5100 ECO up to 5 DWPD on the 5100 MAX. The 5100 ECO and middle-tier 5100 PRO offer M.2 models up to 2TB in addition to their 2.5″ form factor models, while the 5100 MAX is only available as a 2.5″ drive.
Micron’s decision to use TLC NAND across the entire range is a notable departure from previous enterprise SSD product lines. The shift was made possible by two major factors: demand for the highest performance and highest write endurance has shifted from SATA to PCIe SSDs, and Micron’s 3D TLC with sufficient over-provisioning can hit their endurance targets and the bandwidth limits of SATA more economically than a drive based on 3D MLC would.
As enterprise SSDs optimized for consistent sustained performance, the 5100 series does not implement SLC caching and all writes go to TLC NAND. This means that the random and sequential write speeds of the lower-capacity models are significantly impaired, but the larger models in each of the three tiers can saturate a SATA link with sequential writes.
| Micron 5100 Series Specifications Comparison | ||||
| 5100 ECO | 5100 PRO | 5100 MAX | ||
| Form Factor | 2.5″ 7mm and single-sided M.2 2280 | 2.5″ | ||
| Capacities |
480GB, 960GB, 1920GB, 3840GB, 7680GB (2.5″) 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB, 3840GB (2.5″) 240GB, 480GB, 960GB, 1920GB (M.2) |
240GB, 480GB, 960GB, 1920GB |
|
| Controller | Marvell 88SS1074 | |||
| Interface | SATA 6Gb/s | |||
| NAND | Micron 384Gb 32-layer 3D TLC | |||
| Sequential Read | 540 MB/s | |||
| Sequential Write | 380–520 MB/s | 250–520 MB/s | 310–520 MB/s | |
| 4KB Random Read (QD32) | 93k IOPS | 78k–93k IOPS | 93k IOPS | |
| 4KB Random Write (QD32) | 9k–31k IOPS | 26k–43k IOPS | 48k–74k IOPS | |
| Endurance | 0.45–8.4 PB | 0.65–17.6 PB | 2.2–17.6 PB | |
| MSRP | 55–45¢/GB | 65–55¢/GB | 75–65¢/GB | |
| Encryption | optional TCG Enterprise and FIPS 140-2 validation | |||
The 5100 series has hardware similarities to the 1100 series client SATA SSDs and the consumer Crucial MX300, all of which use Micron’s 3D TLC and Marvell’s 88SS1074 “Dean” controller. The 5100 series adds full power loss protection and enterprise-focused firmware. In a feature Micron advertises as Flex Capacity, the divisions between the three product tiers can be blurred with manual over-provisioning. When reducing the accessible capacity of the drive using the device configuration overlay (DCO), steady-state write performance will naturally improve due to the increased spare area. But in addition, past certain thresholds the 5100s will also engage the same changes in flash management strategy that the higher-endurance tiers apply out of the box. Thus, a 5100 ECO can be reconfigured to be a 5100 PRO in all but name.
The different capacity and form factor options across the three tiers of the 5100 series adds up to 21 different models, each available with or without TCG Enterprise support and FIPS 140-2 certification. Many of these configurations will not initially be available in retail channels and will instead be sold primarily to high-volume customers. Exact pricing has not been announced, but retail prices are expected to range from 45¢/GB to 75¢/GB depending on capacity and endurance tier, and high-volume direct sales will be cheaper.
With the 5100 series replacing the M500DC and M510DC, Micron’s business and enterprise SSDs have all transitioned over to their new naming scheme except for the S600DC SAS SSDs. Micron hasn’t announced what model number their future SAS SSDs will use, but they currently use 1100 for client SATA SSDs and 7100 and 9100 for PCIe SSDs. They also reserved 2100 for client PCIe SSDs before putting those plans on hold. The 1100 and 5100 Series use Micron’s 3D TLC NAND while the rest are still based on planar MLC NAND. Micron expects the 7100 series successor to also switch entirely to TLC when it adopts 3D NAND, so the successor to the 9100 series might be their first use of 3D MLC.
As we approach the holiday season, the fantastic community team that’s responsible for keeping tabs on our publisher’s technology forums – the AnandTech Forums and the Tom’s Hardware Forums – came to us with a request. They wanted to organize a community activity; something fun, something for charity and, most importantly, something immensely geeky. To that end, I’m happy to announce that we’re going to be holding a friendly vicious contest with our compatriots and competitors at Tom’s Hardware in order to answer one of the most important questions of all time: which site is better, AnandTech or Tom’s Hardware?
Starting December 1st, a contest is going to be held between the AnandTech and Tom’s Hardware forums to determine whose forum and whose community was better. And better still, it will be done for charity. As part of the contest, our publisher, Purch, will be furnishing a $2,500 donation to the Child’s Play charity, which will be made on behalf of the winning team.
As for the contest itself, it seemed only appropriate given the two sites’ history that the challenge be computing related, so we decided to compete in the field of distributed computing. What we settled on is to hold a race of sorts using the popular Folding@Home client.
In a nutshell, Folding@Home is a long-standing distributed computing project organized by Stanford University that allows individuals to contribute computing time to Stanford’s research. This in turn helps the researchers in combating the illnesses that emerge as a result of proteins not folding correctly, such as Alzheimer’s disease and Huntington’s disease. Folding@Home has now been going on for over a decade and a half. And along with a long-standing AnandTech folding team, we’ve even used it in GPU benchmarks for a few years now.
Kicking off on December 1st, we will be holding a one-week Folding race to see which team is better. The more computer time donated to Folding@Home – the more protein folding work completed – the more points a team will score, with the highest scoring team being crowned the winner.
AnandTech of course is no slouch when it comes to distributed computing. Our team, the aptly named Team AnandTech, has been at it since late 1998, which is almost as long as AnandTech has operated. Among its notable accomplishments is beating the likes of the Macintosh evangelists, Slashdot, Tweakers.net, and more across over a dozen distributed computing projects ranging from computer science to biology to hunting for alien signals.
Meanwhile for reasons beyond my understanding, my colleague over at Tom’s Hardware, Fritz Nelson, decided to take us on despite the fact that this is practically a home field advantage for Team AnandTech. Suffice it to say, Tom’s Hardware doesn’t have team members with the experience or the dedication of Team AnandTech; in other words, they don’t stand a chance. And with your help, I want to prove that while adding Tom’s to the list of teams that Team AnandTech has defeated. If nothing else, think of it as doing a favor for Tom’s Hardware: after we’ve burned them in this race, they’ll finally be able to put their thermal imaging camera to good use.
Ultimately this race is for fun, but it’s also for a good cause. Donating computing time to Folding@Home helps researchers to better understand folding-related diseases, and the $2,500 that our publisher is putting up as part of this contest is going to a wonderful cause that is the appropriately geeky Child’s Play charity. As a result I’d like to encourage everyone to take part in December.
The full details on the contest, including how to download the Folding@Home client and join Team AnandTech, our distributed computing team, can be found here. And be sure to drop on by our distributed computing forum and say hello; the team captain is keeping track of how many people sign up, and it’s the best place to go to connect with the other team members and to get answers to any questions.
