Processor | Ryzen 5700x |
---|---|
Motherboard | Gigabyte X570S Aero G R1.1 BiosF5g |
Cooling | Noctua NH-C12P SE14 w/ NF-A15 HS-PWM Fan 1500rpm |
Memory | Micron DDR4-3200 2x32GB D.S. D.R. (CT2K32G4DFD832A) |
Video Card(s) | AMD RX 6800 - Asus Tuf |
Storage | Kingston KC3000 1TB & 2TB & 4TB Corsair MP600 Pro LPX |
Display(s) | LG 27UL550-W (27" 4k) |
Case | Be Quiet Pure Base 600 (no window) |
Audio Device(s) | Realtek ALC1220-VB |
Power Supply | SuperFlower Leadex V Gold Pro 850W ATX Ver2.52 |
Mouse | Mionix Naos Pro |
Keyboard | Corsair Strafe with browns |
Software | W10 22H2 Pro x64 |
System Name | "Icy Resurrection" |
---|---|
Processor | 13th Gen Intel Core i9-13900KS Special Edition |
Motherboard | ASUS ROG MAXIMUS Z790 APEX ENCORE |
Cooling | Noctua NH-D15S upgraded with 2x NF-F12 iPPC-3000 fans and Honeywell PTM7950 TIM |
Memory | 32 GB G.SKILL Trident Z5 RGB F5-6800J3445G16GX2-TZ5RK @ 7600 MT/s 36-44-44-52-96 1.4V |
Video Card(s) | ASUS ROG Strix GeForce RTX™ 4080 16GB GDDR6X White OC Edition |
Storage | 500 GB WD Black SN750 SE NVMe SSD + 4 TB WD Red Plus WD40EFPX HDD |
Display(s) | 55-inch LG G3 OLED |
Case | Pichau Mancer CV500 White Edition |
Power Supply | EVGA 1300 G2 1.3kW 80+ Gold |
Mouse | Microsoft Classic Intellimouse |
Keyboard | Generic PS/2 |
Software | Windows 11 IoT Enterprise LTSC 24H2 |
Benchmark Scores | I pulled a Qiqi~ |
It looks like a bug to me. On my dual-channel DDR4 system it shows "2x 64-bit". On my dual-channel DDR5 AM5 system it shows "2x 32-bit" like in the screenshot, which is incorrect. Both AIDA64 and HWiNFO confirm that dual-channel DDR5 is enabled. It should probably show something like "2x (2x 32-bit)" for dual-channel DDR5.
Did you request couple of kits for review?I would love to see people trying to run this at 6000 on Ryzen 7000 or Intel 12/13/14. Good luck getting it to post.
System Name | Naboo (2019) |
---|---|
Processor | AMD 3800x |
Motherboard | Gigabyte Aorus Master V1 (X470) |
Cooling | individual EKWB/Heatkiller loop |
Memory | 4*8 GB 3600 Corsair Vengeance |
Video Card(s) | Sapphire Pulse 5700XT |
Storage | SSD 1TB PCIe 4.0x4, 2 TB PCIe 3.0 |
Display(s) | 2*WQHD |
Case | Lian Li O11 Rog |
Audio Device(s) | Hifiman, Topping DAC/KHV |
Power Supply | Seasonic 850W Gold |
Mouse | Logitech MX2, Logitech MX Ergo Trackball |
Keyboard | Cherry Stream Wireless, Logitech MX Keys |
Software | Linux Mint "Vera" Cinnamon |
By using that at a Asus board one should have bars that need a max of 1,25V. This seems to be a limit on using 4 DDR5 bars in general.I would love to see people trying to run this at 6000 on Ryzen 7000 or Intel 12/13/14. Good luck getting it to post.
I don't have a Kingston contact.Did you request couple of kits for review?
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 |
Why yes, the poison and the antidote both cost a lot.Finally the perfect antidote to Adobe software's woeful memory leaks.
Yes, dual-channel is working, and as I wrote in the post you replied to both AIDA64 and HWiNFO report that it is on. It's just CPU-Z that is misreporting it.Did you ensure to populate slots A2 and B2 instead of placing them next to each other? If memory is installed correctly, it should report:
Dual 64-bit channel DDR4 with two sticks (2x 64-bit)
Quad 32-bit channel DDR5 with two sticks (4x 32-bit)
System Name | WorkInProgress |
---|---|
Processor | AMD 7800X3D |
Motherboard | MSI X670E GAMING PLUS |
Cooling | Thermalright AM5 Contact Frame + Phantom Spirit 120SE |
Memory | 2x32GB G.Skill Trident Z5 NEO DDR5 6000 CL32-38-38-96 |
Video Card(s) | Asus Dual Radeon™ RX 6700 XT OC Edition |
Storage | WD SN770 1TB (Boot)|1x WD SN850X 8TB (Gaming) | 2x2TB WD SN770| 2x2TB+2x4TB Crucial BX500 |
Display(s) | LG GP850-B |
Case | Corsair 760T (White) {1xCorsair ML120 Pro|5xML140 Pro} |
Audio Device(s) | Yamaha RX-V573|Speakers: JBL Control One|Auna 300-CN|Wharfedale Diamond SW150 |
Power Supply | Seasonic Focus GX-850 80+ GOLD |
Mouse | Logitech G502 X |
Keyboard | Duckyshine Dead LED(s) III |
Software | Windows 11 Home |
Benchmark Scores | ლ(ಠ益ಠ)ლ |
System Name | "Icy Resurrection" |
---|---|
Processor | 13th Gen Intel Core i9-13900KS Special Edition |
Motherboard | ASUS ROG MAXIMUS Z790 APEX ENCORE |
Cooling | Noctua NH-D15S upgraded with 2x NF-F12 iPPC-3000 fans and Honeywell PTM7950 TIM |
Memory | 32 GB G.SKILL Trident Z5 RGB F5-6800J3445G16GX2-TZ5RK @ 7600 MT/s 36-44-44-52-96 1.4V |
Video Card(s) | ASUS ROG Strix GeForce RTX™ 4080 16GB GDDR6X White OC Edition |
Storage | 500 GB WD Black SN750 SE NVMe SSD + 4 TB WD Red Plus WD40EFPX HDD |
Display(s) | 55-inch LG G3 OLED |
Case | Pichau Mancer CV500 White Edition |
Power Supply | EVGA 1300 G2 1.3kW 80+ Gold |
Mouse | Microsoft Classic Intellimouse |
Keyboard | Generic PS/2 |
Software | Windows 11 IoT Enterprise LTSC 24H2 |
Benchmark Scores | I pulled a Qiqi~ |
Now what if you can do something stupid, like allowing the AMD APU to use 128GB+ of ram??
System Name | WorkInProgress |
---|---|
Processor | AMD 7800X3D |
Motherboard | MSI X670E GAMING PLUS |
Cooling | Thermalright AM5 Contact Frame + Phantom Spirit 120SE |
Memory | 2x32GB G.Skill Trident Z5 NEO DDR5 6000 CL32-38-38-96 |
Video Card(s) | Asus Dual Radeon™ RX 6700 XT OC Edition |
Storage | WD SN770 1TB (Boot)|1x WD SN850X 8TB (Gaming) | 2x2TB WD SN770| 2x2TB+2x4TB Crucial BX500 |
Display(s) | LG GP850-B |
Case | Corsair 760T (White) {1xCorsair ML120 Pro|5xML140 Pro} |
Audio Device(s) | Yamaha RX-V573|Speakers: JBL Control One|Auna 300-CN|Wharfedale Diamond SW150 |
Power Supply | Seasonic Focus GX-850 80+ GOLD |
Mouse | Logitech G502 X |
Keyboard | Duckyshine Dead LED(s) III |
Software | Windows 11 Home |
Benchmark Scores | ლ(ಠ益ಠ)ლ |
I'm not sure that would serve any meaningful purpose, as more often than not even granting an unusually large aperture size to the iGPU results in no improvement than simply letting Windows manage the graphics memory itself... some anecdotal cases of reserving memory at the BIOS level being faster, but those are rare afaik
System Name | Still not a thread ripper but pretty good. |
---|---|
Processor | Ryzen 9 7950x, Thermal Grizzly AM5 Offset Mounting Kit, Thermal Grizzly Extreme Paste |
Motherboard | ASRock B650 LiveMixer (BIOS/UEFI version P3.08, AGESA 1.2.0.2) |
Cooling | EK-Quantum Velocity, EK-Quantum Reflection PC-O11, D5 PWM, EK-CoolStream PE 360, XSPC TX360 |
Memory | Micron DDR5-5600 ECC Unbuffered Memory (2 sticks, 64GB, MTC20C2085S1EC56BD1) + JONSBO NF-1 |
Video Card(s) | XFX Radeon RX 5700 & EK-Quantum Vector Radeon RX 5700 +XT & Backplate |
Storage | Samsung 4TB 980 PRO, 2 x Optane 905p 1.5TB (striped), AMD Radeon RAMDisk |
Display(s) | 2 x 4K LG 27UL600-W (and HUANUO Dual Monitor Mount) |
Case | Lian Li PC-O11 Dynamic Black (original model) |
Audio Device(s) | Corsair Commander Pro for Fans, RGB, & Temp Sensors (x4) |
Power Supply | Corsair RM750x |
Mouse | Logitech M575 |
Keyboard | Corsair Strafe RGB MK.2 |
Software | Windows 10 Professional (64bit) |
Benchmark Scores | RIP Ryzen 9 5950x, ASRock X570 Taichi (v1.06), 128GB Micron DDR4-3200 ECC UDIMM (18ASF4G72AZ-3G2F1) |
It seems kind of weird to me threadripper even offers lower core count parts when that's pretty much covered by AM4/AM5.So quad channels? That's what HEDT is for.
I've been saying for years that I think it's been a mistake to have the top "mainstream" CPUs (only) on the mainstream platforms. I wish that CPUs like i7-13700K and 7800X and up would be on the Xeon-W and Threadripper platforms, respectively, offering the same high clocks, but quad channel memory and plenty of PCIe lanes. I think this mix is exactly what many developers and content creators needs these days. Today we have to choose between fast cores and memory + IO (+ lots of slower cores).
I do wonder if we get to see Arrow Lake and Zen 5 supporting 256 GB of RAM. I would seriously consider it.
More instructions activated for professional purpose. Support 8 channel RAM and up to 2TB RAM. Much more PCIe lines. Make me AM4/5 PC with more of 192GB RAM right now, please.It seems kind of weird to me threadripper even offers lower core count parts when that's pretty much covered by AM4/AM5.
The 5955WX is approx. double the cost of 5950x for a 16 core Zen3 CPU just because?
System Name | Still not a thread ripper but pretty good. |
---|---|
Processor | Ryzen 9 7950x, Thermal Grizzly AM5 Offset Mounting Kit, Thermal Grizzly Extreme Paste |
Motherboard | ASRock B650 LiveMixer (BIOS/UEFI version P3.08, AGESA 1.2.0.2) |
Cooling | EK-Quantum Velocity, EK-Quantum Reflection PC-O11, D5 PWM, EK-CoolStream PE 360, XSPC TX360 |
Memory | Micron DDR5-5600 ECC Unbuffered Memory (2 sticks, 64GB, MTC20C2085S1EC56BD1) + JONSBO NF-1 |
Video Card(s) | XFX Radeon RX 5700 & EK-Quantum Vector Radeon RX 5700 +XT & Backplate |
Storage | Samsung 4TB 980 PRO, 2 x Optane 905p 1.5TB (striped), AMD Radeon RAMDisk |
Display(s) | 2 x 4K LG 27UL600-W (and HUANUO Dual Monitor Mount) |
Case | Lian Li PC-O11 Dynamic Black (original model) |
Audio Device(s) | Corsair Commander Pro for Fans, RGB, & Temp Sensors (x4) |
Power Supply | Corsair RM750x |
Mouse | Logitech M575 |
Keyboard | Corsair Strafe RGB MK.2 |
Software | Windows 10 Professional (64bit) |
Benchmark Scores | RIP Ryzen 9 5950x, ASRock X570 Taichi (v1.06), 128GB Micron DDR4-3200 ECC UDIMM (18ASF4G72AZ-3G2F1) |
Also threadripper is ECC RAM certified too I thought.More instructions activated for professional purpose. Support 8 channel RAM and up to 2TB RAM. Much more PCIe lines. Make me AM4/5 PC with more of 192GB RAM right now, please.
Processor | Ryzen 7 5700X |
---|---|
Motherboard | ASUS TUF Gaming X570-PRO (WiFi 6) |
Cooling | Noctua NH-C14S (two fans) |
Memory | 2x16GB DDR4 3200 |
Video Card(s) | Reference Vega 64 |
Storage | Intel 665p 1TB, WD Black SN850X 2TB, Crucial MX300 1TB SATA, Samsung 830 256 GB SATA |
Display(s) | Nixeus NX-EDG27, and Samsung S23A700 |
Case | Fractal Design R5 |
Power Supply | Seasonic PRIME TITANIUM 850W |
Mouse | Logitech |
VR HMD | Oculus Rift |
Software | Windows 11 Pro, and Ubuntu 20.04 |
I don't think that Threadripper supports more instructions than Ryzen.More instructions activated for professional purpose. Support 8 channel RAM and up to 2TB RAM. Much more PCIe lines. Make me AM4/5 PC with more of 192GB RAM right now, please.
Where I wrote that is question of support? Read me again.I don't think that Threadripper supports more instructions than Ryzen.
Processor | Ryzen 7 5700X |
---|---|
Motherboard | ASUS TUF Gaming X570-PRO (WiFi 6) |
Cooling | Noctua NH-C14S (two fans) |
Memory | 2x16GB DDR4 3200 |
Video Card(s) | Reference Vega 64 |
Storage | Intel 665p 1TB, WD Black SN850X 2TB, Crucial MX300 1TB SATA, Samsung 830 256 GB SATA |
Display(s) | Nixeus NX-EDG27, and Samsung S23A700 |
Case | Fractal Design R5 |
Power Supply | Seasonic PRIME TITANIUM 850W |
Mouse | Logitech |
VR HMD | Oculus Rift |
Software | Windows 11 Pro, and Ubuntu 20.04 |
I've gone through the page and I don't see anything in the feature list that isn't supported by Ryzen. The one exception would be support for RDIMMs.Where I wrote that is question of support? Read me again.
Here has detailed instructions that works for Ryzen Threadripper Pro series 5000. (On the bottom of the page)
System Name | "Icy Resurrection" |
---|---|
Processor | 13th Gen Intel Core i9-13900KS Special Edition |
Motherboard | ASUS ROG MAXIMUS Z790 APEX ENCORE |
Cooling | Noctua NH-D15S upgraded with 2x NF-F12 iPPC-3000 fans and Honeywell PTM7950 TIM |
Memory | 32 GB G.SKILL Trident Z5 RGB F5-6800J3445G16GX2-TZ5RK @ 7600 MT/s 36-44-44-52-96 1.4V |
Video Card(s) | ASUS ROG Strix GeForce RTX™ 4080 16GB GDDR6X White OC Edition |
Storage | 500 GB WD Black SN750 SE NVMe SSD + 4 TB WD Red Plus WD40EFPX HDD |
Display(s) | 55-inch LG G3 OLED |
Case | Pichau Mancer CV500 White Edition |
Power Supply | EVGA 1300 G2 1.3kW 80+ Gold |
Mouse | Microsoft Classic Intellimouse |
Keyboard | Generic PS/2 |
Software | Windows 11 IoT Enterprise LTSC 24H2 |
Benchmark Scores | I pulled a Qiqi~ |
Fallout/Skyrim and tonnes of graphical mods, addons and hi-res texture packs
System Name | WorkInProgress |
---|---|
Processor | AMD 7800X3D |
Motherboard | MSI X670E GAMING PLUS |
Cooling | Thermalright AM5 Contact Frame + Phantom Spirit 120SE |
Memory | 2x32GB G.Skill Trident Z5 NEO DDR5 6000 CL32-38-38-96 |
Video Card(s) | Asus Dual Radeon™ RX 6700 XT OC Edition |
Storage | WD SN770 1TB (Boot)|1x WD SN850X 8TB (Gaming) | 2x2TB WD SN770| 2x2TB+2x4TB Crucial BX500 |
Display(s) | LG GP850-B |
Case | Corsair 760T (White) {1xCorsair ML120 Pro|5xML140 Pro} |
Audio Device(s) | Yamaha RX-V573|Speakers: JBL Control One|Auna 300-CN|Wharfedale Diamond SW150 |
Power Supply | Seasonic Focus GX-850 80+ GOLD |
Mouse | Logitech G502 X |
Keyboard | Duckyshine Dead LED(s) III |
Software | Windows 11 Home |
Benchmark Scores | ლ(ಠ益ಠ)ლ |
Yeah, that's the reason I have always opted for GPUs with 16+ GB VRAM for the past 5 years or so, starting with the Vega FE. But I'm not sure if it matters when Windows manages the memory all the same, beyond this manually reserved aperture. One could argue that leaving the aperture at a smaller size, say, 128 to 256 MB reserved, and Windows manage the rest would even be beneficial since the memory that is free could be used by the OS if VRAM requirements are not so high.
System Name | Still not a thread ripper but pretty good. |
---|---|
Processor | Ryzen 9 7950x, Thermal Grizzly AM5 Offset Mounting Kit, Thermal Grizzly Extreme Paste |
Motherboard | ASRock B650 LiveMixer (BIOS/UEFI version P3.08, AGESA 1.2.0.2) |
Cooling | EK-Quantum Velocity, EK-Quantum Reflection PC-O11, D5 PWM, EK-CoolStream PE 360, XSPC TX360 |
Memory | Micron DDR5-5600 ECC Unbuffered Memory (2 sticks, 64GB, MTC20C2085S1EC56BD1) + JONSBO NF-1 |
Video Card(s) | XFX Radeon RX 5700 & EK-Quantum Vector Radeon RX 5700 +XT & Backplate |
Storage | Samsung 4TB 980 PRO, 2 x Optane 905p 1.5TB (striped), AMD Radeon RAMDisk |
Display(s) | 2 x 4K LG 27UL600-W (and HUANUO Dual Monitor Mount) |
Case | Lian Li PC-O11 Dynamic Black (original model) |
Audio Device(s) | Corsair Commander Pro for Fans, RGB, & Temp Sensors (x4) |
Power Supply | Corsair RM750x |
Mouse | Logitech M575 |
Keyboard | Corsair Strafe RGB MK.2 |
Software | Windows 10 Professional (64bit) |
Benchmark Scores | RIP Ryzen 9 5950x, ASRock X570 Taichi (v1.06), 128GB Micron DDR4-3200 ECC UDIMM (18ASF4G72AZ-3G2F1) |
I can say for Pro cpus such as 4750g (zen2) vs consumer 3800x (zen2) ECC support is different. For example Memtest86 ECC error injection actually seems to work.I've gone through the page and I don't see anything in the feature list that isn't supported by Ryzen. The one exception would be support for RDIMMs.
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
As me and others have mentioned, there are many other features than just pure core count that matters, including but not limited to;It seems kind of weird to me threadripper even offers lower core count parts when that's pretty much covered by AM4/AM5.
The 5955WX is approx. double the cost of 5950x for a 16 core Zen3 CPU just because?
There are certainly different levels of ECC support and features, it's not as simple as either/or.I can say for Pro cpus such as 4750g (zen2) vs consumer 3800x (zen2) ECC support is different. For example Memtest86 ECC error injection actually seems to work.
Not sure if this is a UEFI/BIOS limitation or chip limitation.
System Name | Still not a thread ripper but pretty good. |
---|---|
Processor | Ryzen 9 7950x, Thermal Grizzly AM5 Offset Mounting Kit, Thermal Grizzly Extreme Paste |
Motherboard | ASRock B650 LiveMixer (BIOS/UEFI version P3.08, AGESA 1.2.0.2) |
Cooling | EK-Quantum Velocity, EK-Quantum Reflection PC-O11, D5 PWM, EK-CoolStream PE 360, XSPC TX360 |
Memory | Micron DDR5-5600 ECC Unbuffered Memory (2 sticks, 64GB, MTC20C2085S1EC56BD1) + JONSBO NF-1 |
Video Card(s) | XFX Radeon RX 5700 & EK-Quantum Vector Radeon RX 5700 +XT & Backplate |
Storage | Samsung 4TB 980 PRO, 2 x Optane 905p 1.5TB (striped), AMD Radeon RAMDisk |
Display(s) | 2 x 4K LG 27UL600-W (and HUANUO Dual Monitor Mount) |
Case | Lian Li PC-O11 Dynamic Black (original model) |
Audio Device(s) | Corsair Commander Pro for Fans, RGB, & Temp Sensors (x4) |
Power Supply | Corsair RM750x |
Mouse | Logitech M575 |
Keyboard | Corsair Strafe RGB MK.2 |
Software | Windows 10 Professional (64bit) |
Benchmark Scores | RIP Ryzen 9 5950x, ASRock X570 Taichi (v1.06), 128GB Micron DDR4-3200 ECC UDIMM (18ASF4G72AZ-3G2F1) |
Aren't those feature provided by the I/O die though? In essence you are paying for the CPU cores and the more advanced I/O die with Threadripper.As me and others have mentioned, there are many other features than just pure core count that matters, including but not limited to;
- Memory support (bandwidth, ECC, ...)
- PCIe lanes (for GPUs, SSDs, NICs, ...)
I think the basics are reporting, correction, and fail action (halt or reboot). Not sure what else there is but I imagine servers likely have more advanced features like chipkill.Such features are though fairly irrelevant for those not into any professional/semi-professional use cases.
Unfortunately, even the 12 and 16 core Threadrippers have a bit lower clock speeds (of the same generation), and are far behind the current generation Ryzen CPUs.
The "HEDT" segment have largely faded away, but should be more relevant now than ever, considering the rise of content creation. Having the fastest cores combined with more memory and PCIe shold be the ideal mix for (semi-)professionals. And even with the addition for a few more PCIe lanes, mainstream platforms are still falling short.
There are certainly different levels of ECC support and features, it's not as simple as either/or.
I think you have a good point here. Without proper validation your just taking a chance it's not going to work properly when you need it. I almost shelled out the bucks for Xeon but ended up going with Zen+ R5 2600 when I read multiple people were reporting ECC was working just fine on those chips. I think I got a better deal for the price/performance over Xeon and managed to confirm it was working via ram overclocking and memtest86 error injection. UEFI/BIOS updates later borked memtest86's error injection feature so it was a bit of a reminder AMD could close the door on unverified CPU's at any time.And any such feature must be supported on every level in order for it to work, so in most cases the ECC memory itself, CPU memory controller, BIOS and OS(!). If one is lacking the desired support, the entire feature is just a placebo. And even though most CPU memory controllers have support technically, if they don't support it officially, they are probably not verified, so it might not offer the protection that you want, so a BIOS "enabling" ECC on an unverified CPU might not be a good idea.
I would go with one of those Asrock AM4/AM5 workstation boards but the I/O ports are lacking and is really meant for server boxes. Also they lack RGB.I wish I had time to do a deep-dive into researching what ECC levels are supported on various mainstream and workstation platforms,
It's that validation cost of course vendors are avoiding (or so people say) on consumer platforms and provides continued fuel for segmentation that people often complain about who are looking for ECC support. Asrock listed support for ECC on a wide variety of their AM4 boards which was a nice nod that things were changing. MSI didn't seem to do that and not sure if any of their AM4 boards ever supported it. I think Gigabyte and Asus have some AM4 boards that support ECC.and do real validation on it, not just trust marketing gimmicks.
Since I starting using ECC ram I've had very few PC problems (that I didn't cause myself) but that's anecdotal evidence and sample size of one that's not a very convincing argument. It's not just cosmic blips that can be a problem but with the increase in high speed components, busses, and overcall capacity of RAM with more to go wrong, and mix in overclocking you've got a recipe for disaster. I'm surprised it hasn't become more of a problem but I guess the quality of technology was keeping up in pace with good enough reliability. Eventually wall started closing in with the DDR5 and on-chip ECC was born just to get it to work. Obviously though people have had working and stable non-ECC systems.But even moreso, get some real answer to find out when ECC actually makes a real world difference. Even though I understand well how it works, I still couldn't give a clear answer to where to draw the line on having it or not. Clearly, mission critical servers should have it, but should your home "workstation" have it?
Since I run VM's for daily work I worry about it more than the average person since memory corruption there can cause a lot of damage and headaches if things go wrong. Other issues of importance surrounding memory corruption includes things like SSD/NVMe caching which is something people probably don't think much about. Then there are also software out there like Primocache and of course ZFS.And I'm not primarily worried about crashes. I mostly use Linux, and system crashes and reboots are hardly in my vocabulary. I'm more worried about undetected memory corruption leading to corrupted files/data. When applications are running for months, what are the likelihood of corrupted data?
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
Depends on whether they are validated or not.I would go with one of those Asrock AM4/AM5 workstation boards but the I/O ports are lacking and is really meant for server boxes. Also they lack RGB.
While I have no issue with sub-$150 boards lacking ECC, I do think they should include it on "workstation"-ish boards (along with real heatsinks instead of these giant metal blobs).It's that validation cost of course vendors are avoiding (or so people say) on consumer platforms and provides continued fuel for segmentation that people often complain about who are looking for ECC support. Asrock listed support for ECC on a wide variety of their AM4 boards which was a nice nod that things were changing. MSI didn't seem to do that and not sure if any of their AM4 boards ever supported it. I think Gigabyte and Asus have some AM4 boards that support ECC.
BIOS issues is a common problem with Asrock.I'm not sure wtf is going on with AM5 though. From Asrock forums there were messages about ECC support having trouble and support eventually coming in UEFI/BIOS updates.
None of which should be an issue, they either aren't competent or aren't prioritizing proper validation, and this is not a good sign for anyone who wants a computer that "just works".I was hesitant to bite on AM5 when I heard Asrock pulled their advertising of ECC support for motherboards sometime after the launch of AM5. I thought perhaps AMD finally pulled the plug and decided to segment ECC support with Threadripper. Perhaps it took them some time to adjust for DDR5 like with higher capacity ram modules.
Yeah, it's really hard to tell.Since I starting using ECC ram I've had very few PC problems (that I didn't cause myself) but that's anecdotal evidence and sample size of one that's not a very convincing argument.
Absolutely important points.Since I run VM's for daily work I worry about it more than the average person since memory corruption there can cause a lot of damage and headaches if things go wrong. Other issues of importance surrounding memory corruption includes things like SSD/NVMe caching which is something people probably don't think much about. Then there are also software out there like Primocache and of course ZFS.