G.SKILL Trident Z Neo F4-3600C16D-32GTZN (DDR4-3600 16GBx2)
Introducing the G.Skill TridentZ Neo Series DDR4 RAM - the perfect choice for high-performance computing. With a total capacity of 32 GB, this kit includes two 16 GB DIMMs, providing ample memory for your computing needs. Designed with a DIMM 288-pin form factor, this unbuffered RAM offers easy installation and compatibility with a wide range of systems. Its sleek design and RGB lighting options add a stylish touch to your gaming rig or workstation. Featuring DDR4 technology, this RAM offers enhanced speed and efficiency, allowing for seamless multitasking and smooth performance. Whether you're editing videos, running resource-intensive applications, or gaming, the G.Skill TridentZ Neo Series will exceed your expectations. With its unbuffered design, you can expect faster data transfer rates and reduced latency, resulting in improved overall system responsiveness. Your applications will load faster, and you'll experience smoother gameplay for a more immersive computing experience. Upgrade your system today with the G.Skill TridentZ Neo Series DDR4 RAM - the perfect blend of performance, style, and reliability. Give your computer the power it deserves.
Introducing the G.Skill TridentZ Neo Series DDR4 RAM - the perfect choice for high-performance computing. With a total capacity of 32 GB, this kit includes two 16 GB DIMMs, providing ample memory for your computing needs. Designed with a DIMM 288-pin form factor, this unbuffered RAM offers easy installation and compatibility with a wide range of systems. Its sleek design and RGB lighting options add a stylish touch to your gaming rig or workstation. Featuring DDR4 technology, this RAM offers enhanced speed and efficiency, allowing for seamless multitasking and smooth performance. Whether you're editing videos, running resource-intensive applications, or gaming, the G.Skill TridentZ Neo Series will exceed your expectations. With its unbuffered design, you can expect faster data transfer rates and reduced latency, resulting in improved overall system responsiveness. Your applications will load faster, and you'll experience smoother gameplay for a more immersive computing experience. Upgrade your system today with the G.Skill TridentZ Neo Series DDR4 RAM - the perfect blend of performance, style, and reliability. Give your computer the power it deserves.
Introducing the G.Skill TridentZ Neo Series DDR4 RAM - the perfect choice for high-performance computing. With a total capacity of 32 GB, this kit includes two 16 GB DIMMs, providing ample memory for your computing needs. Designed with a DIMM 288-pin form factor, this unbuffered RAM offers easy installation and compatibility with a wide range of systems. Its sleek design and RGB lighting options add a stylish touch to your gaming rig or workstation. Featuring DDR4 technology, this RAM offers enhanced speed and efficiency, allowing for seamless multitasking and smooth performance. Whether you're editing videos, running resource-intensive applications, or gaming, the G.Skill TridentZ Neo Series will exceed your expectations. With its unbuffered design, you can expect faster data transfer rates and reduced latency, resulting in improved overall system responsiveness. Your applications will load faster, and you'll experience smoother gameplay for a more immersive computing experience. Upgrade your system today with the G.Skill TridentZ Neo Series DDR4 RAM - the perfect blend of performance, style, and reliability. Give your computer the power it deserves.
Introducing the G.Skill TridentZ Neo Series DDR4 RAM - the perfect choice for high-performance computing. With a total capacity of 32 GB, this kit includes two 16 GB DIMMs, providing ample memory for your computing needs. Designed with a DIMM 288-pin form factor, this unbuffered RAM offers easy installation and compatibility with a wide range of systems. Its sleek design and RGB lighting options add a stylish touch to your gaming rig or workstation. Featuring DDR4 technology, this RAM offers enhanced speed and efficiency, allowing for seamless multitasking and smooth performance. Whether you're editing videos, running resource-intensive applications, or gaming, the G.Skill TridentZ Neo Series will exceed your expectations. With its unbuffered design, you can expect faster data transfer rates and reduced latency, resulting in improved overall system responsiveness. Your applications will load faster, and you'll experience smoother gameplay for a more immersive computing experience. Upgrade your system today with the G.Skill TridentZ Neo Series DDR4 RAM - the perfect blend of performance, style, and reliability. Give your computer the power it deserves.
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The lowest price for G.SKILL Trident Z Neo F4-3600C16D-32GTZN (DDR4-3600 16GBx2) right now is $432.00 at MPE Computers, compared across 3 retailers.
The all-time low was $432.00 on 1 July 2026. That's the lowest price we've ever tracked — a great time to buy.
Prices last updated 1 July 2026.
Last updated at 01/07/2026 03:30:12
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings 16-19-19-39/ Voltage 1.35V/ Trident Z Neo
Delivery by 9 July $15
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings 16-19-19-39/ Voltage 1.35V/ Trident Z Neo
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings
Free delivery
originally posted on newegg.com
Samsung B-die is truly the best of the best. Unfortunately, my computer would not post with the factory 4000Mhz XMP setting, but that was due to the fact that my motherboard/CPU combo cannot handle an FCLK over 1900Mhz. However, with the FCLK set to 1900Mhz and the memory clock at 3800Mhz, I was able to set timings far below those advertised for any RAM kit on the market. At 3800Mhz, I have stable timings at 14-14-14-14-26-38. Memory latency hovering around 56.0-56.5ns. The only thing to potentially worry about is voltages. Even at factory XMP timings, the stock 1.40V is not enough to run this kit stably. I needed 1.45V at XMP timings and 3800Mhz to get stable. However, I have only need to boost to 1.50V to tighten the timings to where I have them now, which far ... MoreSamsung B-die is truly the best of the best. Unfortunately, my computer would not post with the factory 4000Mhz XMP setting, but that was due to the fact that my motherboard/CPU combo cannot handle an FCLK over 1900Mhz. However, with the FCLK set to 1900Mhz and the memory clock at 3800Mhz, I was able to set timings far below those advertised for any RAM kit on the market. At 3800Mhz, I have stable timings at 14-14-14-14-26-38. Memory latency hovering around 56.0-56.5ns. The only thing to potentially worry about is voltages. Even at factory XMP timings, the stock 1.40V is not enough to run this kit stably. I needed 1.45V at XMP timings and 3800Mhz to get stable. However, I have only need to boost to 1.50V to tighten the timings to where I have them now, which far exceed the performance of XMP. In conclusion, you will get your money out of this kit even if you can't run a 2000Mhz FCLK simply because it is so easy to tighten the timings. Very satisfied.
originally posted on newegg.com
First off, this kit is for a very specific audience. It won't make your computer faster in most cases when compared to other kits in the same series. If you don't know if 16-16-16-36 timings can help you, it's probably not worth it over their 16-18-18-38 kit which often goes for nearly half the price. You won't see any difference unless your workload makes it impossible to keep your CPU busy while it waits for memory. It probably won't help your video encoding, 3D rendering time or scientific calculation times which all depends on data available in advance. It probably won't help getting higher framerates in games or how many browser tabs you can keep open because those are dependent on moving more data (frequency), not waiting for it less (timings). Tight timings ... MoreFirst off, this kit is for a very specific audience. It won't make your computer faster in most cases when compared to other kits in the same series. If you don't know if 16-16-16-36 timings can help you, it's probably not worth it over their 16-18-18-38 kit which often goes for nearly half the price. You won't see any difference unless your workload makes it impossible to keep your CPU busy while it waits for memory. It probably won't help your video encoding, 3D rendering time or scientific calculation times which all depends on data available in advance. It probably won't help getting higher framerates in games or how many browser tabs you can keep open because those are dependent on moving more data (frequency), not waiting for it less (timings). Tight timings are beneficial for real-time data processing and edge cases where your CPU would have to stall waiting for data. Those are things like low 1% frame-times in games, live audio processing, live-streaming with CPU encoding. The kind of stuff where it's impossible to know the data 1/20th of a second in advance, basically. And even then, only expect a 5-7% improvement in those specific 1% scenarios where it matters. Of course, you can still trade those timings for a higher frequency overclocks, if you get lucky and know what you're doing, but you might as well get a 4000 mHz kit at that point. As for my personal experience with those, unfortunately, I got really unlucky with my CPU/board combo in the silicon lottery. While the 8700k I tried them on are known for their easy 5gHz overclocks (my board even come with a "one click 5gHz OC profile"), mine refuses to go over 4.9gHz without crashing, no matter the voltage, and is insanely hot at stocks settings... like... 95C+ on a good AiO hot... Even then, I managed, with very little tweaking, to get the XMP profile to work. I have 4 kits (8 DIMMs) and have tested all of them as sets of 4 DIMMs at a time on that build. They all worked perfectly fine with the same adjustments when compared to the previous memory that was in the system (4x8GB Trident Z 3200 16-18-18-38 which ran XMP out of the box). All they needed was a slight voltage bump on the memory and base CPU offset while dropping the turbo adjustment voltage to reduce the variance between low and high power states. I've run multiple burn-in tests for about 6 hours on both sets of 4 DIMMs and they all worked perfectly. In other words, while their XMP profile didn't technically worked out of the box on a very picky system, it took me less than 5 minutes to get the machine to not only POST, but also survive a 6hrs torture test... for any mix of 4 out of 8 DIMMs that I got. Amazing! I cannot wait to see how they will fare in my next AMD build.
originally posted on neweggbusiness.com
I don't know if I would recommend this memory since it did not work out of the box. My system wouldn't even boot (Asrock X570 Taichi with a Ryzen 3900x) with the supplied XMP profile. I did eventually get the RAM to run at advertised speeds but it took several days when accounting for all the stress testing required to verify that the system was stable. Admittedly, the Asrock X570 Taichi motherboard is not on the QVL list but I honestly didn't know such a list existed until I ran into issues. On all of my previous systems, the XMP profile just worked out of the box. I'm still agitated though because there is no mention of a QVL list on G.Skill's box or Newegg's specifications page. The only information on the G.Skill box is: "Trident Z Neo is the next generation RGB ... MoreI don't know if I would recommend this memory since it did not work out of the box. My system wouldn't even boot (Asrock X570 Taichi with a Ryzen 3900x) with the supplied XMP profile. I did eventually get the RAM to run at advertised speeds but it took several days when accounting for all the stress testing required to verify that the system was stable. Admittedly, the Asrock X570 Taichi motherboard is not on the QVL list but I honestly didn't know such a list existed until I ran into issues. On all of my previous systems, the XMP profile just worked out of the box. I'm still agitated though because there is no mention of a QVL list on G.Skill's box or Newegg's specifications page. The only information on the G.Skill box is: "Trident Z Neo is the next generation RGB DDR4 memory engineered to provide premium performance for the latest AMD Ryzen 3000 series processors on the X570 chipset platform. Crafted with dual-toned aluminum heatspreaders, hand-screened performance memory chips on a custom 10-layer PCB designed for superb signal integrity, as well as rigorously tested for compatibility and stability, the Trident Z Neo is the perfect choice for your next AMD system." I think a reasonable person would read that statement and infer that the memory is compatible with all systems running a Ryzen 3000 series processor on an X570 motherboard. G.Skill's customer service was also unhelpful and did not provide any useful information. Unfortunately, memory kits were in short supply at the time of my purchase and this kit was one of the only 2x32GB kits available. I probably wouldn't purchase this kit again if there was any other alternative available. FYI, the impedance settings were the main parameters that I had to change to get the system working. I also increased some of the voltages but I don't know if that was really necessary. I needed to use the computer so I couldn't wait another 24 hours for stress testing. The parameters I had to change were: SOC: 1.05 V VDDP: 0.9 V VDDG Voltage: 1.0 V DRAM Voltage: 1.352 V CPU On-Die Termination: 60 Ohms CAD Bus ClkDrvStren: 24 Ohms CAD Bus AddrCmdDrvStren: 24 Ohms CAD Bus CsOdtCmdDrvStren: 24 Ohms CAD Bus CkeDrvStren: 24 Ohms
| Computer memory size | 32 GB |
| RAM memory technology | DDR4 |
| Memory speed | 3600 MHz |
| Compatible devices | デスクトップパソコン |
| RAM Size | 32 GB |
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings 16-19-19-39/ Voltage 1.35V/ Trident Z Neo
Delivery by 9 July $15
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings 16-19-19-39/ Voltage 1.35V/ Trident Z Neo
G.SKILL F4-3600C16D-32GTZNC 32GB (2 x 16GB)/ PC4-28800 / DDR4 3600 Mhz/ Timings
Free delivery
Samsung B-die is truly the best of the best. Unfortunately, my computer would not post with the factory 4000Mhz XMP setting, but that was due to the fact that my motherboard/CPU combo cannot handle an FCLK over 1900Mhz. However, with the FCLK set to 1900Mhz and the memory clock at 3800Mhz, I was able to set timings far below those advertised for any RAM kit on the market. At 3800Mhz, I have stable timings at 14-14-14-14-26-38. Memory latency hovering around 56.0-56.5ns. The only thing to potentially worry about is voltages. Even at factory XMP timings, the stock 1.40V is not enough to run this kit stably. I needed 1.45V at XMP timings and 3800Mhz to get stable. However, I have only need to boost to 1.50V to tighten the timings to where I have them now, which far ... MoreSamsung B-die is truly the best of the best. Unfortunately, my computer would not post with the factory 4000Mhz XMP setting, but that was due to the fact that my motherboard/CPU combo cannot handle an FCLK over 1900Mhz. However, with the FCLK set to 1900Mhz and the memory clock at 3800Mhz, I was able to set timings far below those advertised for any RAM kit on the market. At 3800Mhz, I have stable timings at 14-14-14-14-26-38. Memory latency hovering around 56.0-56.5ns. The only thing to potentially worry about is voltages. Even at factory XMP timings, the stock 1.40V is not enough to run this kit stably. I needed 1.45V at XMP timings and 3800Mhz to get stable. However, I have only need to boost to 1.50V to tighten the timings to where I have them now, which far exceed the performance of XMP. In conclusion, you will get your money out of this kit even if you can't run a 2000Mhz FCLK simply because it is so easy to tighten the timings. Very satisfied.
First off, this kit is for a very specific audience. It won't make your computer faster in most cases when compared to other kits in the same series. If you don't know if 16-16-16-36 timings can help you, it's probably not worth it over their 16-18-18-38 kit which often goes for nearly half the price. You won't see any difference unless your workload makes it impossible to keep your CPU busy while it waits for memory. It probably won't help your video encoding, 3D rendering time or scientific calculation times which all depends on data available in advance. It probably won't help getting higher framerates in games or how many browser tabs you can keep open because those are dependent on moving more data (frequency), not waiting for it less (timings). Tight timings ... MoreFirst off, this kit is for a very specific audience. It won't make your computer faster in most cases when compared to other kits in the same series. If you don't know if 16-16-16-36 timings can help you, it's probably not worth it over their 16-18-18-38 kit which often goes for nearly half the price. You won't see any difference unless your workload makes it impossible to keep your CPU busy while it waits for memory. It probably won't help your video encoding, 3D rendering time or scientific calculation times which all depends on data available in advance. It probably won't help getting higher framerates in games or how many browser tabs you can keep open because those are dependent on moving more data (frequency), not waiting for it less (timings). Tight timings are beneficial for real-time data processing and edge cases where your CPU would have to stall waiting for data. Those are things like low 1% frame-times in games, live audio processing, live-streaming with CPU encoding. The kind of stuff where it's impossible to know the data 1/20th of a second in advance, basically. And even then, only expect a 5-7% improvement in those specific 1% scenarios where it matters. Of course, you can still trade those timings for a higher frequency overclocks, if you get lucky and know what you're doing, but you might as well get a 4000 mHz kit at that point. As for my personal experience with those, unfortunately, I got really unlucky with my CPU/board combo in the silicon lottery. While the 8700k I tried them on are known for their easy 5gHz overclocks (my board even come with a "one click 5gHz OC profile"), mine refuses to go over 4.9gHz without crashing, no matter the voltage, and is insanely hot at stocks settings... like... 95C+ on a good AiO hot... Even then, I managed, with very little tweaking, to get the XMP profile to work. I have 4 kits (8 DIMMs) and have tested all of them as sets of 4 DIMMs at a time on that build. They all worked perfectly fine with the same adjustments when compared to the previous memory that was in the system (4x8GB Trident Z 3200 16-18-18-38 which ran XMP out of the box). All they needed was a slight voltage bump on the memory and base CPU offset while dropping the turbo adjustment voltage to reduce the variance between low and high power states. I've run multiple burn-in tests for about 6 hours on both sets of 4 DIMMs and they all worked perfectly. In other words, while their XMP profile didn't technically worked out of the box on a very picky system, it took me less than 5 minutes to get the machine to not only POST, but also survive a 6hrs torture test... for any mix of 4 out of 8 DIMMs that I got. Amazing! I cannot wait to see how they will fare in my next AMD build.
I don't know if I would recommend this memory since it did not work out of the box. My system wouldn't even boot (Asrock X570 Taichi with a Ryzen 3900x) with the supplied XMP profile. I did eventually get the RAM to run at advertised speeds but it took several days when accounting for all the stress testing required to verify that the system was stable. Admittedly, the Asrock X570 Taichi motherboard is not on the QVL list but I honestly didn't know such a list existed until I ran into issues. On all of my previous systems, the XMP profile just worked out of the box. I'm still agitated though because there is no mention of a QVL list on G.Skill's box or Newegg's specifications page. The only information on the G.Skill box is: "Trident Z Neo is the next generation RGB ... MoreI don't know if I would recommend this memory since it did not work out of the box. My system wouldn't even boot (Asrock X570 Taichi with a Ryzen 3900x) with the supplied XMP profile. I did eventually get the RAM to run at advertised speeds but it took several days when accounting for all the stress testing required to verify that the system was stable. Admittedly, the Asrock X570 Taichi motherboard is not on the QVL list but I honestly didn't know such a list existed until I ran into issues. On all of my previous systems, the XMP profile just worked out of the box. I'm still agitated though because there is no mention of a QVL list on G.Skill's box or Newegg's specifications page. The only information on the G.Skill box is: "Trident Z Neo is the next generation RGB DDR4 memory engineered to provide premium performance for the latest AMD Ryzen 3000 series processors on the X570 chipset platform. Crafted with dual-toned aluminum heatspreaders, hand-screened performance memory chips on a custom 10-layer PCB designed for superb signal integrity, as well as rigorously tested for compatibility and stability, the Trident Z Neo is the perfect choice for your next AMD system." I think a reasonable person would read that statement and infer that the memory is compatible with all systems running a Ryzen 3000 series processor on an X570 motherboard. G.Skill's customer service was also unhelpful and did not provide any useful information. Unfortunately, memory kits were in short supply at the time of my purchase and this kit was one of the only 2x32GB kits available. I probably wouldn't purchase this kit again if there was any other alternative available. FYI, the impedance settings were the main parameters that I had to change to get the system working. I also increased some of the voltages but I don't know if that was really necessary. I needed to use the computer so I couldn't wait another 24 hours for stress testing. The parameters I had to change were: SOC: 1.05 V VDDP: 0.9 V VDDG Voltage: 1.0 V DRAM Voltage: 1.352 V CPU On-Die Termination: 60 Ohms CAD Bus ClkDrvStren: 24 Ohms CAD Bus AddrCmdDrvStren: 24 Ohms CAD Bus CsOdtCmdDrvStren: 24 Ohms CAD Bus CkeDrvStren: 24 Ohms
Compatible with X570 Aorus Xtreme with 5900x. Set the XMP Profile in BIOS. Had to manually change to 3600mhz as it showed 3200mhz in Task Manager. All other advertised timings are ok. Been running for hours, no crashes. Setting RGB was a bit trickier. Installed G.Skill Trident Z Lighting Control but did not sync with it. Read online that it doesn't play well with other lighting software. Already had RGB Fusion and Armoury Crate on my pc controlling the motherboard, fans, case and gpu's lighting. After troubleshooting, found that Armoury Crate recognised and sync the ram with my RTX 3090, preventing other lighting software from controlling the ram. So just left it at that, rather than mess around and stuff up other parts' lighting. Overall, ram is excellent
Some Trident Z Neo kits I was looking at were marketed toward AMD Ryzen systems, and they weren't overpriced for being "optimized" for Ryzen, so I settled on this kit hoping my 5800x could run at 4000 MHz. So far, it seems like it can't, but I think this RAM kit is hardly to blame there. With two clicks, the XMP profile loaded up on my ASUS x570-I and everything booted up fine, survived prime95 until raid night started, and did fine for 3 hours of gaming... except for literally tens of thousands of WHEA errors. Oops. Dropped to 1900 MHz with a few extra mV and so far so good. Going to try tightening some timings and dropping some voltages, but this is looking promising. G. Skill was my go-to for memory kits before I bought this, and will be the next time I buy a new ... MoreSome Trident Z Neo kits I was looking at were marketed toward AMD Ryzen systems, and they weren't overpriced for being "optimized" for Ryzen, so I settled on this kit hoping my 5800x could run at 4000 MHz. So far, it seems like it can't, but I think this RAM kit is hardly to blame there. With two clicks, the XMP profile loaded up on my ASUS x570-I and everything booted up fine, survived prime95 until raid night started, and did fine for 3 hours of gaming... except for literally tens of thousands of WHEA errors. Oops. Dropped to 1900 MHz with a few extra mV and so far so good. Going to try tightening some timings and dropping some voltages, but this is looking promising. G. Skill was my go-to for memory kits before I bought this, and will be the next time I buy a new kit. The RGB settings don't seem to sync with the ARGB settings programmed into the motherboard, unless I run the ASUS Bloatware Crate, which is a bit unfortunate, but this isn't really the RAM's fault. Thankfully, the LEDs on the RAM aren't as oppressive as other LEDs, so the default rainbow cycling isn't obnoxious and doesn't clash at all with the static blue I chose for everything else. It would be nice to be able to program the sticks directly to have a specific RGB setting but that might just not be feasible.
Just posting here to report my results with Trident Z Neo F4-4000C18D-64GTZN. Yesterday I ran some torture tests with Prime95 and some memory tests with OCCT. Unfortunately, Prime 95 returned an error after 20 minutes when my CPU was pegged at 4ghz (40 clock multiplier in Bios), the RAM had the XMP setting of 4ghz. I turned down the CPU clock multiplier to 38 (3.8ghz max), and ran Prime 95 for 13 hours WITHOUT errors. Also passed OCCT and Blender benchmarks just fine. The system seems quite stable. I wonder if I'll ever be able to run the CPU at 4ghz with these RAM sticks. I only have XMP turned on, so maybe there's something I can do to get stable results at 4ghz? Any suggestions would be great. All in all, I think it's safe to say that this particular RAM kit ... MoreJust posting here to report my results with Trident Z Neo F4-4000C18D-64GTZN. Yesterday I ran some torture tests with Prime95 and some memory tests with OCCT. Unfortunately, Prime 95 returned an error after 20 minutes when my CPU was pegged at 4ghz (40 clock multiplier in Bios), the RAM had the XMP setting of 4ghz. I turned down the CPU clock multiplier to 38 (3.8ghz max), and ran Prime 95 for 13 hours WITHOUT errors. Also passed OCCT and Blender benchmarks just fine. The system seems quite stable. I wonder if I'll ever be able to run the CPU at 4ghz with these RAM sticks. I only have XMP turned on, so maybe there's something I can do to get stable results at 4ghz? Any suggestions would be great. All in all, I think it's safe to say that this particular RAM kit works for X570s Aorus Master Rev 1.0.
I have this ram kit running flawlessly for a few weeks now on a Z490 board with an i9-10900k. XMP config of 16-16-16-36 is very conservatively rated. This ram can be easily run at tighter timings and/or higher clock speeds without a problem. I'm still dialing in voltage, clock speed, timings, but I'm currently at 4000MHz CL16 with slightly looser timings and a bit over 1.4v and not experiencing any instability. I may ultimately decide to run at 3600MHz and see how tight I can get the timings.This ram is clearly overkill and unnecessary, but for power users who like to tweak every bit of performance possible from their system, this can't be beat. If I have to list one totally unimportant negative, it's that the RGB can be a little flaky at times, but nothing a full ... MoreI have this ram kit running flawlessly for a few weeks now on a Z490 board with an i9-10900k. XMP config of 16-16-16-36 is very conservatively rated. This ram can be easily run at tighter timings and/or higher clock speeds without a problem. I'm still dialing in voltage, clock speed, timings, but I'm currently at 4000MHz CL16 with slightly looser timings and a bit over 1.4v and not experiencing any instability. I may ultimately decide to run at 3600MHz and see how tight I can get the timings.This ram is clearly overkill and unnecessary, but for power users who like to tweak every bit of performance possible from their system, this can't be beat. If I have to list one totally unimportant negative, it's that the RGB can be a little flaky at times, but nothing a full power cycle doesn't solve. Also, it would be nice there was a way to save a default lighting scheme when no rgb software is running, but I don't think that's possible. When my system is sleeping, the ram is lit up with the default rainbow scheme. Would prefer to have it just go dark when in standby.
It's RAM, it has RGB. It's pretty reasonably priced. I will document my experience, hopefully it will help someone. TL;DR Memory controller is built into CPU, & (my particular) R5 3600 cannot handle 3600MHz with 4 dimms populated. So I finally decided to update my main rig and started following the industry again. After my first rig, I stopped following the industry to remove the FOMO factor from affecting my satisfaction with the build. To my surprise AMD has been kicking Intel's batooty lately, so I went with a Ryzen build. Because everything is out of stock, I had to go with a temporary R5 3600, borrowed from a gracious friend. To my dismay, when I installed all 4 modules of this 128gb kit and applied the XMP profile I started experiencing BSOD's while gaming. I ... MoreIt's RAM, it has RGB. It's pretty reasonably priced. I will document my experience, hopefully it will help someone. TL;DR Memory controller is built into CPU, & (my particular) R5 3600 cannot handle 3600MHz with 4 dimms populated. So I finally decided to update my main rig and started following the industry again. After my first rig, I stopped following the industry to remove the FOMO factor from affecting my satisfaction with the build. To my surprise AMD has been kicking Intel's batooty lately, so I went with a Ryzen build. Because everything is out of stock, I had to go with a temporary R5 3600, borrowed from a gracious friend. To my dismay, when I installed all 4 modules of this 128gb kit and applied the XMP profile I started experiencing BSOD's while gaming. I ran Karhu RAM test and sure enough within 10% coverage errors started occurring. I assumed I had received defective modules and in haste wrote a review here. After recovering from my disappointment, I decided to test each module individually and in dual channel to determine which module(s) were defective. To my surprise they ran perfectly using the 3600MHz XMP profile. So I then began to suspect a motherboard issue, because in my true Intel fanboyishness I assumed the memory controller was part of the mobo. Come to find out the memory controller is built into the CPU and since I only have low end R5 3600 installed that is most likely why I can only run the memory at 3200MHz. Karhu tested to 450% @ 3200MHz on an Asrock Taichi x570 with an R5 3600 (no x)
My system: TUF GAMING X570-PRO WIFI II, Ryzen 9 5900X. I was able to get this stable with the XMP profile but underclocking to 3800Mhz. This also allowed me to undervolt from the profile's 1.50V to 1.45. I couldn't make it stable even at 3866, but I also didn't make a big effort with manual tunings other than the memory frequency and voltage. Might be possible to hit the 4000MHz, but I'll rather spend my time and OC affordances bringing the timings down. I have a very recent, high-midrange motherboard, that includes kits up to 4800MHz in the QVL... not this one, but this kit is very new, even the most overpriced extreme-OC Asus models don't have a single 4000/CL16 kit in the QVL yet but that mostly means it wasn't tested. It's more likely that the problem is that ... MoreMy system: TUF GAMING X570-PRO WIFI II, Ryzen 9 5900X. I was able to get this stable with the XMP profile but underclocking to 3800Mhz. This also allowed me to undervolt from the profile's 1.50V to 1.45. I couldn't make it stable even at 3866, but I also didn't make a big effort with manual tunings other than the memory frequency and voltage. Might be possible to hit the 4000MHz, but I'll rather spend my time and OC affordances bringing the timings down. I have a very recent, high-midrange motherboard, that includes kits up to 4800MHz in the QVL... not this one, but this kit is very new, even the most overpriced extreme-OC Asus models don't have a single 4000/CL16 kit in the QVL yet but that mostly means it wasn't tested. It's more likely that the problem is that not all dies are good enough to reach the advertised clock. I'm fine depending on silicon lottery to go beyond the official speed, but not to reach it. Not returning the kit since this unfortunately will be the most likely experience for most kits at this level or higher; 3600MHz really is the practical diminished-returns limit for DDR4, anything above is not likely to work as advertised for all samples and even if that happens, not likely to deliver much extra real-world performance (synthetic DRAM benchs like Aida64 aren't worth much). But I still believe that if you advertise some product as speed X, then every buyer should succeed to get X, and that should be achieved easily and safely (in this case just enabling XMP), without requiring overclocking effort and skill. Highly recommended to make a REAL stability test for any DDR4 beyond 3600MHz, i.e a full MemTest86 run, not the memory stability/stress tests from all other utilities. Those are at most good enough to speed up OC testing, but once you reach what seems to be a great and stable config you should make sure with MemTest86 (the free version is good enough).
I was replacing a 4x8GB DDR4-4000 17-17-17-37 kit which worked just fine in my system with it's rated voltages at 1.35v. CPU is an i9-9900K which has no issues handling the kit above at up to 4200Mhz speeds. So the memory controller isn't the issue. My old kit just got too hot to do any serious overclocking as all 4 dimms just doesn't allow much airflow. Considering this kit has 2 dimms it shouldn't be more difficult to run compared to my previous memory kit. I tried up to 1.5v with the rated speeds / timings and no luck. I did get it to boot at 19-19-19-39 with 1.45v but that's well above the rated timings & voltages. At the rated timings I could only get it to boot at 3733Mhz and even then would get memory related BSODs. Going to exchange these and hope I just got ... MoreI was replacing a 4x8GB DDR4-4000 17-17-17-37 kit which worked just fine in my system with it's rated voltages at 1.35v. CPU is an i9-9900K which has no issues handling the kit above at up to 4200Mhz speeds. So the memory controller isn't the issue. My old kit just got too hot to do any serious overclocking as all 4 dimms just doesn't allow much airflow. Considering this kit has 2 dimms it shouldn't be more difficult to run compared to my previous memory kit. I tried up to 1.5v with the rated speeds / timings and no luck. I did get it to boot at 19-19-19-39 with 1.45v but that's well above the rated timings & voltages. At the rated timings I could only get it to boot at 3733Mhz and even then would get memory related BSODs. Going to exchange these and hope I just got a bad pair of sticks. I'll revise my review if the replacement works fine.
| Computer memory size | 32 GB |
| RAM memory technology | DDR4 |
| Memory speed | 3600 MHz |
| Compatible devices | デスクトップパソコン |
| RAM Size | 32 GB |