Exactly. But nowhere in the press release is it mentioned. P5810 is constantly referred to as SLC which is not true.When in theory... but in reality its just QLC N38A 1Tb 144-Layers running in pSLC Mode
Yes i figured that out myself.Its not SLC
it's QLC running in pSLC Mode, the drive should be 4TB but since its a 1/4 o the capacity, its 1TB with 800GB available so its over 200GB of over provisioning
It is advertised as SLC. It is not mentioned in the press release or in slides that it's QLC. It's only compared to QLC.It's advertised as a cache drive, QLC is no issue here. You're not bothered by the slower writes, because cache is read way more often than it is written. And if it goes belly-up, it's just one drive among a hundred others, you just replace it (but that applies to any enterprise storage setup, it's not particular to cache drives).
Well they're certainly not telling us that in the press release. I would hope for their sake that their specs page correctly lists this as QLC.So you think that when you write data to this SSD, it's first stored in the SLC cache, then eventually moved to permanent storage with 4 bits per cell, but Intel, erm, Solidigm won't tell that to us? That would be extremely deceptive advertising even for a consumer SSD, let alone enterprise.
Processor | i5-6600K |
---|---|
Motherboard | Asus Z170A |
Cooling | some cheap Cooler Master Hyper 103 or similar |
Memory | 16GB DDR4-2400 |
Video Card(s) | IGP |
Storage | Samsung 850 EVO 250GB |
Display(s) | 2x Oldell 24" 1920x1200 |
Case | Bitfenix Nova white windowless non-mesh |
Audio Device(s) | E-mu 1212m PCI |
Power Supply | Seasonic G-360 |
Mouse | Logitech Marble trackball, never had a mouse |
Keyboard | Key Tronic KT2000, no Win key because 1994 |
Software | Oldwin |
Solidigm D7-P5810 uses SK hynix 144-layer 3D NAND flash
Which of those two is true? Are both true? I'm bothered because SK hynix does not use die designations such as N38A.in reality its just QLC N38A 1Tb 144-Layers
You're saying this as if it was something bad. No, this SSD does not store four bits in each cell. It stores one bit. It doesn't matter that they are reusing flash chips designed for many bits per cell.Well they're certainly not telling us that in the press release. I would hope for their sake that their specs page correctly lists this as QLC.
Regular prices of Optane drives - and "regular" should be in quotes - are somewhere between 2000 and 5000 EUR per terabyte. Enterprise NAND-based SSDs, mostly TLC, are roughly 20x cheaper. Your hope is very much justified.Also it is deceptive that they decided to name it P5810. The P5800X was Optane series. They are trying to convey to people that this is somehow upgrade over the P5800X although it is worse in nearly all metrics...except maybe the price (and availability) that i would hope is cheaper considering its QLC.
That remains to be seen.this SSD does not store four bits in each cell. It stores one bit.
On write focused cache drive it does matter.Of metrics, which are the most important? 4K QD1 random reads? Yes it's bad (about 75 MB/s calculated from latency) but QD1 doesn't matter in servers.
Optane warranty was always short considering the endrurance and price.Write endurance? You'll get 90,000 write cycles for the money. Real Optane has twice the DWPD rating, and the same warranty period.
Cant keep up in terms of performance? Because that's outright false. P5800X is Gen4 like this P5810.Conclusion: Real Optane can't keep up, and could never keep up, given that it stayed planar (two-layer if I understand correctly) from the first day to the last day of its life.
System Name | Blackbird |
---|---|
Processor | AMD Threadripper 3960X 24-core |
Motherboard | Gigabyte TRX40 Aorus Master |
Cooling | Full custom-loop water cooling, mostly Aqua Computer and EKWB stuff! |
Memory | 4x 16GB G.Skill Trident-Z RGB @3733-CL14 |
Video Card(s) | Nvidia RTX 3090 FE |
Storage | Samsung 950PRO 512GB, Crusial P5 2TB, Samsung 850PRO 1TB |
Display(s) | LG 38GN950-B 38" IPS TFT, Dell U3011 30" IPS TFT |
Case | CaseLabs TH10A |
Audio Device(s) | Edifier S1000DB |
Power Supply | ASUS ROG Thor 1200W (SeaSonic) |
Mouse | Logitech MX Master |
Keyboard | SteelSeries Apex M800 |
Software | MS Windows 10 Pro for Workstation |
Benchmark Scores | A lot. |
No. The point is 10us read latency at QD1. This makes it a pretty good OS drive.Not much point with these speeds. It has average or even first gen PCIe 4.0 speeds at 6400/4000 r/w.
It's main benefit is endurance but for OS drive it's largely wasted unless you do full drive writes daily for some reason.
System Name | "The black one in the dining room" / "The Latest One" |
---|---|
Processor | Intel Xeon E5 2699 V4 22c/44t / i7 14700K @5.8GHz |
Motherboard | Asus X99 Deluxe / ASRock Z790 Taichi |
Cooling | Arctic Liquid Freezer II 240 w/4 Silverstone FM121 fans / Arctic LF II 280 w Silverstone FHP141's |
Memory | 64GB G.Skill Ripjaws V DDR4 2400 (8x8) / 96GB G.Skill Trident Z5 DDR5 6400 |
Video Card(s) | EVGA RTX 1080 Ti FTW3 / Asus Tuff OC 4090 24GB |
Storage | Samsung 970 Evo Plus, 1TB Samsung 860, 4 Western Digital 2TB / 2TB Solidigm P44 Pro & more. |
Display(s) | 43" Samsung 8000 series 4K / 65" Hisense U8N 4K |
Case | Modded Corsair Carbide 500R / Modded Corsair Graphite 780 T |
Audio Device(s) | Asus Xonar Essence STX/ Asus Xonar Essence STX II |
Power Supply | Corsair AX1200i / Seasonic Prime GX-1300 |
Mouse | Logitech Performance MX, Microsoft Intellimouse Optical 3.0 |
Keyboard | Logitech K750 Solar, Logitech K800 |
Software | Win 10 Enterprise LTSC 2021 IoT / Win 11 Enterprise IoT LTSC 24H2 |
Benchmark Scores | https://www.passmark.com/baselines/V11/display.php?id=202122048229 |
I have three of those. Two 512's and a 4TB. I bought them a year or two ago off the local Craigslist for $200. All were NIB, the seller was going to build a PC for his son and never got around to it. I have them in one of my Z690 12600K rigs with a Solidigm P44 Pro 1TB as the OS drive.
The 860 pro if I'm not mistaken was the last SSDs to use MLC. There is still some stock on the market for those interested.
System Name | Kincsem |
---|---|
Processor | AMD Ryzen 9 9950X |
Motherboard | ASUS ProArt X870E-CREATOR WIFI |
Cooling | Be Quiet Dark Rock Pro 5 |
Memory | Kingston Fury KF560C32RSK2-96 (2×48GB 6GHz) |
Video Card(s) | Sapphire AMD RX 7900 XT Pulse |
Storage | Samsung 970PRO 500GB + Samsung 980PRO 2TB + FURY Renegade 2TB+ Adata 2TB + WD Ultrastar HC550 16TB |
Display(s) | Acer QHD 27"@144Hz 1ms + UHD 27"@60Hz |
Case | Cooler Master CM 690 III |
Power Supply | Seasonic 1300W 80+ Gold Prime |
Mouse | Logitech G502 Hero |
Keyboard | HyperX Alloy Elite RGB |
Software | Windows 10-64 |
Benchmark Scores | https://valid.x86.fr/9qw7iq https://valid.x86.fr/4d8n02 X570 https://www.techpowerup.com/gpuz/g46uc |
Great news!
System Name | Gabriel-PC |
---|---|
Processor | Core i7-13700K (All Core 5.7GHz) |
Motherboard | MSI Z790-P PRO WIFI DDR4 |
Cooling | NZXT Kraken X72 360mm |
Memory | 32GB Netac DDR4-3200 MT/s CL-16 |
Video Card(s) | RTX 4070 Ti Super Colorful |
Storage | Memblaze P7940 7.68TB Gen5 (OS), Solidigm P44 2TB (Games) + 4x 4TB WD Black HD (Synology NAS DS1817) |
Display(s) | AOC G2460PF 144Hz 1ms (Kinda trash) |
Case | NZXT Phantom 820 Black |
Audio Device(s) | Motherboard onboard audio (good enough for me) |
Power Supply | Corsair RM1000X |
Mouse | Have no idea (Generic) |
Keyboard | Have no idea (Generic) |
Software | Windows 11 Pro 23H2 + Windows Server 2022 + Synology in NAS |
SK Hynix doesn't have 144-Layers NAND Flash, only 128-Layers and 176-Layers, 144-Layers is an Intel Design.Which of those two is true? Are both true? I'm bothered because SK hynix does not use die designations such as N38A.
its already listed as "pSLC"I think it would be best to mark it just like this in your database, therefore "QLC/SLC" or "QLC in SLC mode".
Processor | i5-6600K |
---|---|
Motherboard | Asus Z170A |
Cooling | some cheap Cooler Master Hyper 103 or similar |
Memory | 16GB DDR4-2400 |
Video Card(s) | IGP |
Storage | Samsung 850 EVO 250GB |
Display(s) | 2x Oldell 24" 1920x1200 |
Case | Bitfenix Nova white windowless non-mesh |
Audio Device(s) | E-mu 1212m PCI |
Power Supply | Seasonic G-360 |
Mouse | Logitech Marble trackball, never had a mouse |
Keyboard | Key Tronic KT2000, no Win key because 1994 |
Software | Oldwin |
I don't have a proof, I just think that you can't market a QLC drive as "pure SLC" to datacenter people, that would be worse than the bait-and-switch that we consumers get to see. They'd never buy anything Solidigm again. Besides, a pSLC cache would be of no use in a SSD designed for constant writing. Too often it wouldn't be able to move cached data to permanent (QLC) locations, so it would have to operate at roughly 1/4 the capacity or 1/4 the speed.That remains to be seen.
As enterprise drives, they are not tuned for low QD. They show their strength when they serve many users and proceses simultaneously and still maintain a low average latency and a defined maximum latency.On write focused cache drive it does matter.
Considering the price too, that's what I meant. NAND advanced a lot, planar became 32-layer, then 232-layer. "3D XPoint" remained 2D all along, so manufacturing costs and sales prices per gigybyte remained at DRAM levels.Optane warranty was always short considering the endrurance and price.
Cant keep up in terms of performance? Because that's outright false. P5800X is Gen4 like this P5810.
Processor | Intel i5-12600k |
---|---|
Motherboard | Asus H670 TUF |
Cooling | Arctic Freezer 34 |
Memory | 2x16GB DDR4 3600 G.Skill Ripjaws V |
Video Card(s) | EVGA GTX 1060 SC |
Storage | 500GB Samsung 970 EVO, 500GB Samsung 850 EVO, 1TB Crucial MX300 and 2TB Crucial MX500 |
Display(s) | Dell U3219Q + HP ZR24w |
Case | Raijintek Thetis |
Audio Device(s) | Audioquest Dragonfly Red :D |
Power Supply | Seasonic 620W M12 |
Mouse | Logitech G502 Proteus Core |
Keyboard | G.Skill KM780R |
Software | Arch Linux + Win10 |
You assume "datacenter people" buy solely on what written on the label. In fact, they're the most anal kind of customers you can have. And again, it's not marketed as "pure SLC" (in part precisely because "datacenter people" don't fall for those).I don't have a proof, I just think that you can't market a QLC drive as "pure SLC" to datacenter people, that would be worse than the bait-and-switch that we consumers get to see. They'd never buy anything Solidigm again. Besides, a pSLC cache would be of no use in a SSD designed for constant writing. Too often it wouldn't be able to move cached data to permanent (QLC) locations, so it would have to operate at roughly 1/4 the capacity or 1/4 the speed.
Processor | i5-6600K |
---|---|
Motherboard | Asus Z170A |
Cooling | some cheap Cooler Master Hyper 103 or similar |
Memory | 16GB DDR4-2400 |
Video Card(s) | IGP |
Storage | Samsung 850 EVO 250GB |
Display(s) | 2x Oldell 24" 1920x1200 |
Case | Bitfenix Nova white windowless non-mesh |
Audio Device(s) | E-mu 1212m PCI |
Power Supply | Seasonic G-360 |
Mouse | Logitech Marble trackball, never had a mouse |
Keyboard | Key Tronic KT2000, no Win key because 1994 |
Software | Oldwin |
No, I certainly didn't assume that.You assume "datacenter people" buy solely on what written on the label. In fact, they're the most anal kind of customers you can have. And again, it's not marketed as "pure SLC" (in part precisely because "datacenter people" don't fall for those).
System Name | Main PC |
---|---|
Processor | 13700k |
Motherboard | Asrock Z690 Steel Legend D4 - Bios 13.02 |
Cooling | Noctua NH-D15S |
Memory | 32 Gig 3200CL14 |
Video Card(s) | 4080 RTX SUPER FE 16G |
Storage | 1TB 980 PRO, 2TB SN850X, 2TB DC P4600, 1TB 860 EVO, 2x 3TB WD Red, 2x 4TB WD Red |
Display(s) | LG 27GL850 |
Case | Fractal Define R4 |
Audio Device(s) | Soundblaster AE-9 |
Power Supply | Antec HCG 750 Gold |
Software | Windows 10 21H2 LTSC |
System Name | Gabriel-PC |
---|---|
Processor | Core i7-13700K (All Core 5.7GHz) |
Motherboard | MSI Z790-P PRO WIFI DDR4 |
Cooling | NZXT Kraken X72 360mm |
Memory | 32GB Netac DDR4-3200 MT/s CL-16 |
Video Card(s) | RTX 4070 Ti Super Colorful |
Storage | Memblaze P7940 7.68TB Gen5 (OS), Solidigm P44 2TB (Games) + 4x 4TB WD Black HD (Synology NAS DS1817) |
Display(s) | AOC G2460PF 144Hz 1ms (Kinda trash) |
Case | NZXT Phantom 820 Black |
Audio Device(s) | Motherboard onboard audio (good enough for me) |
Power Supply | Corsair RM1000X |
Mouse | Have no idea (Generic) |
Keyboard | Have no idea (Generic) |
Software | Windows 11 Pro 23H2 + Windows Server 2022 + Synology in NAS |
it doesnt have a "SLC Cache" it just runs for all the time the drive as SLC mode, so the speeds doesn't fallI don't have a proof, I just think that you can't market a QLC drive as "pure SLC" to datacenter people, that would be worse than the bait-and-switch that we consumers get to see. They'd never buy anything Solidigm again. Besides, a pSLC cache would be of no use in a SSD designed for constant writing. Too often it wouldn't be able to move cached data to permanent (QLC) locations, so it would have to operate at roughly 1/4 the capacity or 1/4 the speed.
its 4TB, the drive would be 3.2TB if it was QLC indeed, so if it was 3.2 TB it would have close to 37.4% of Over-provisioningI think the 800 gigs is already the 1/4 capacity? So its actually 3.2TB QLC physically.
System Name | Main PC |
---|---|
Processor | 13700k |
Motherboard | Asrock Z690 Steel Legend D4 - Bios 13.02 |
Cooling | Noctua NH-D15S |
Memory | 32 Gig 3200CL14 |
Video Card(s) | 4080 RTX SUPER FE 16G |
Storage | 1TB 980 PRO, 2TB SN850X, 2TB DC P4600, 1TB 860 EVO, 2x 3TB WD Red, 2x 4TB WD Red |
Display(s) | LG 27GL850 |
Case | Fractal Define R4 |
Audio Device(s) | Soundblaster AE-9 |
Power Supply | Antec HCG 750 Gold |
Software | Windows 10 21H2 LTSC |
it doesnt have a "SLC Cache" it just runs for all the time the drive as SLC mode, so the speeds doesn't fall
Its extremely rare to find SLC NAND Dies that are natevely SLC, but we do have QLC NANDs that in SLC mode can reach 100.000 PEC, for example the N48R which is micron's QLC 176-Layer 1Tb dies.
its 4TB, the drive would be 3.2TB if it was QLC indeed, so if it was 3.2 TB it would have close to 37.4% of Over-provisioning
But since it's 800GB with 37.4% of OP, the real capacity is 1TB
System Name | Gabriel-PC |
---|---|
Processor | Core i7-13700K (All Core 5.7GHz) |
Motherboard | MSI Z790-P PRO WIFI DDR4 |
Cooling | NZXT Kraken X72 360mm |
Memory | 32GB Netac DDR4-3200 MT/s CL-16 |
Video Card(s) | RTX 4070 Ti Super Colorful |
Storage | Memblaze P7940 7.68TB Gen5 (OS), Solidigm P44 2TB (Games) + 4x 4TB WD Black HD (Synology NAS DS1817) |
Display(s) | AOC G2460PF 144Hz 1ms (Kinda trash) |
Case | NZXT Phantom 820 Black |
Audio Device(s) | Motherboard onboard audio (good enough for me) |
Power Supply | Corsair RM1000X |
Mouse | Have no idea (Generic) |
Keyboard | Have no idea (Generic) |
Software | Windows 11 Pro 23H2 + Windows Server 2022 + Synology in NAS |
Oh i see interesting. By the way i'll try adding that SSD to my Database, but it's hard AF to get proper information for those SSDs, specially their Controllers.Yes, I meant usable capacity, sorry if that wasnt clear.
On my DC P4600 I actually have 2TB usable, they didnt stick on 2TB and remove 30%, they added 30% on top.
What they did on this drive seems overly harsh. So 20% OP probably should be a 4.8TB drive, with 1TB usable.
Processor | i5-6600K |
---|---|
Motherboard | Asus Z170A |
Cooling | some cheap Cooler Master Hyper 103 or similar |
Memory | 16GB DDR4-2400 |
Video Card(s) | IGP |
Storage | Samsung 850 EVO 250GB |
Display(s) | 2x Oldell 24" 1920x1200 |
Case | Bitfenix Nova white windowless non-mesh |
Audio Device(s) | E-mu 1212m PCI |
Power Supply | Seasonic G-360 |
Mouse | Logitech Marble trackball, never had a mouse |
Keyboard | Key Tronic KT2000, no Win key because 1994 |
Software | Oldwin |
But do you know of any SSD that is sold as x GB, and the usable capacity is less?On my DC P4600 I actually have 2TB usable, they didnt stick on 2TB and remove 30%, they added 30% on top.
The calculation of total capacity is only possible when you have all the details about the die (bytes/page, pages/block, blocks/plane, planes/die), and even that can only be an approximation. There's also firmware, FTL, other metadata that take up space, then there's allowance for bad blocks (bad when factory tested), and maybe more.its 4TB, the drive would be 3.2TB if it was QLC indeed, so if it was 3.2 TB it would have close to 37.4% of Over-provisioning
But since it's 800GB with 37.4% of OP, the real capacity is 1TB
System Name | Gabriel-PC |
---|---|
Processor | Core i7-13700K (All Core 5.7GHz) |
Motherboard | MSI Z790-P PRO WIFI DDR4 |
Cooling | NZXT Kraken X72 360mm |
Memory | 32GB Netac DDR4-3200 MT/s CL-16 |
Video Card(s) | RTX 4070 Ti Super Colorful |
Storage | Memblaze P7940 7.68TB Gen5 (OS), Solidigm P44 2TB (Games) + 4x 4TB WD Black HD (Synology NAS DS1817) |
Display(s) | AOC G2460PF 144Hz 1ms (Kinda trash) |
Case | NZXT Phantom 820 Black |
Audio Device(s) | Motherboard onboard audio (good enough for me) |
Power Supply | Corsair RM1000X |
Mouse | Have no idea (Generic) |
Keyboard | Have no idea (Generic) |
Software | Windows 11 Pro 23H2 + Windows Server 2022 + Synology in NAS |
i'm aware i have many datasheets which already lists it.But do you know of any SSD that is sold as x GB, and the usable capacity is less?
Of course you need to take into account that tera equals 1000^4, not 1024^4, and it's been this way since spinning rust.
The calculation of total capacity is only possible when you have all the details about the die (bytes/page, pages/block, blocks/plane, planes/die), and even that can only be an approximation. There's also firmware, FTL, other metadata that take up space, then there's allowance for bad blocks (bad when factory tested), and maybe more.
Here's an example for which your database has full data: the Micron B47R die, nominally 512 Gbit, is 609 GBit raw in decimal units, or 567 Gi-bit raw in binary units. There would be more if you counted in page-level metadata (ECC etc.) but metadata can never be user data. Is that 19% OP (=609/512-1)? Or less?
System Name | Main PC |
---|---|
Processor | 13700k |
Motherboard | Asrock Z690 Steel Legend D4 - Bios 13.02 |
Cooling | Noctua NH-D15S |
Memory | 32 Gig 3200CL14 |
Video Card(s) | 4080 RTX SUPER FE 16G |
Storage | 1TB 980 PRO, 2TB SN850X, 2TB DC P4600, 1TB 860 EVO, 2x 3TB WD Red, 2x 4TB WD Red |
Display(s) | LG 27GL850 |
Case | Fractal Define R4 |
Audio Device(s) | Soundblaster AE-9 |
Power Supply | Antec HCG 750 Gold |
Software | Windows 10 21H2 LTSC |
But do you know of any SSD that is sold as x GB, and the usable capacity is less?
Of course you need to take into account that tera equals 1000^4, not 1024^4, and it's been this way since spinning rust.
The calculation of total capacity is only possible when you have all the details about the die (bytes/page, pages/block, blocks/plane, planes/die), and even that can only be an approximation. There's also firmware, FTL, other metadata that take up space, then there's allowance for bad blocks (bad when factory tested), and maybe more.
Here's an example for which your database has full data: the Micron B47R die, nominally 512 Gbit, is 609 GBit raw in decimal units, or 567 Gi-bit raw in binary units. There would be more if you counted in page-level metadata (ECC etc.) but metadata can never be user data. Is that 19% OP (=609/512-1)? Or less?