Tuesday, September 3rd 2024

V-COLOR Introduces the World's First DDR5 RGB O CUDIMM

V-COLOR is set to revolutionize the future of memory technology with the launch of the world's first RGB DDR5 O CUDIMM (High Speed Overclocked CUDIMM). This groundbreaking innovation for the next-generation desktop platform, offering unmatched speeds and efficiency for desktop applications. This memory module has a new heatsink patent (Patent No. 113208127) to increase heat dissipation efficiency to a new level, and the introduction of the exclusive light guide rod patented coating technology (Patent No. M653290) allows the light guide rod to attract attention regardless of whether it has RGB effects or not.

The DDR5 Clocked Unbuffered Dual Inline Memory Module (CUDIMM) technology dynamically adjusts clock frequency and voltage based on workload and system conditions. This cutting-edge capability results in faster data transmission, lower power consumption, and enhanced stability, making it a game-changer in the industry.
World's First DDR5 Overclocked RGB O CUDIMM Memory
The new v-color RGB O CUDIMM (High Speed Overclocked CUDIMM) memory modules are available in capacities of 32 GB (2x 16 GB) and 48 GB (2x 24 GB), with standard speeds starting at 6400MT/s and reaching overclocked speeds of 9200MT/s+. Designed for gamers, content creators, and professionals who demand top-tier performance, these modules ensure you can push the limits of your system with ease. The integration of XMP profiles further simplifies the overclocking process, unlocking your system's full potential effortlessly.

XFinity Series Red Dot Award Winner 2024
These RGB O CUDIMM modules will be part of the award-winning XFinity series, known for its superior design and performance. The modules are available in black with a gold RGB bar and black with a silver RGB bar, combining aesthetics with functionality to deliver a truly immersive experience.

Innovative Cooling Solution
To address the challenges of high-performance computing, v-color has developed an advanced heatsink with an innovative inside fitting back design. This custom mold is tailored to fit individual memory chips more effectively (Patent No. 113208127), resulting in better cooling performance. The original flat heatsink design, which used 3M double-sided thermal conductivity of 0.9 W/mK, was tested to maintain a temperature of approximately 86 degrees Celsius.

The new heatsink features two cuboids with a thickness of 0.8 mm directly integrated into the mold. This design allows the heatsink to closely adhere to the memory chips, enhancing heat dissipation. Instead of traditional double-sided tape, v-color employs a high-performance 0.2 mm heat dissipation patch with a thermal conductivity of 2.5 W/mK. During assembly, this patch is compressed to 0.1 mm, significantly improving thermal management.

Remarkable Temperature Reduction
Testing of this advanced cooling solution shows a temperature drop of about 2~5% degrees overall. This result is nearly on par with the heat dissipation performance of bare memory strips, which are known for their superior cooling capabilities due to the absence of any covering. With this innovative release, v-color Technology Inc. continues to lead the industry in pioneering advancements, offering products that redefine what's possible in computing.
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16 Comments on V-COLOR Introduces the World's First DDR5 RGB O CUDIMM

#1
cerulliber
Imagine replacing Infinity Fabric with this
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#2
Onasi
cerulliberImagine replacing Infinity Fabric with this
…why? IF is magnitudes faster and lower latency than any current DRAM technology can possibly be.
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#3
AusWolf
So it's basically RAM that can dynamically adjust its speed, kind of like VRAM does? Why hasn't this been invented before?
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#4
Darkmont
AusWolfSo it's basically RAM that can dynamically adjust its speed, kind of like VRAM does? Why hasn't this been invented before?
Is that referring to the CKD or the fact that it's overclocked? The CKD is just a retimer, and the screencap's just a showcase of what it can achieve with manual overclocking.
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#5
Kirederf
No platform mention or in the provided screenshot. I can only assume they are not allowed to show this info yet. Arrow Lake / Z890?
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#6
Assimilator
Guys.

This is nothing special.

It's a DDR5 DIMM with an on-board clock chip to allow it to hit higher speeds, and of course, fucking RGB. That's literally it. There is no "dynamically adjusts clock frequency and voltage based on workload and system conditions" because that's not how CUDIMM works. This is just another dishonest piece of marketing bullshit from another dishonest East Asian manufacturer.
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#7
Woomack
KirederfNo platform mention or in the provided screenshot. I can only assume they are not allowed to show this info yet. Arrow Lake / Z890?
My source confirmed it will be supported on Arrow Lake. I haven't heard anything about AMD.
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#8
Philaphlous
CUDIMM...hmm, if you're not actually pouncing each individual letter and instead reading it like a word...doesn't really jive well IMHO...
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#9
N/A
Why no low profile, same reference board. the top half of the PCB is blank.
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#10
InVasMani
AusWolfSo it's basically RAM that can dynamically adjust its speed, kind of like VRAM does? Why hasn't this been invented before?
Isn't that already a bios option for DDR5!!? My Z790 Asus board has a option that sounds a lot that. It's kind of like min/max ring option it'll use either or based on system conditions.
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#11
AusWolf
InVasManiIsn't that already a bios option for DDR5!!? My Z790 Asus board has a option that sounds a lot that. It's kind of like min/max ring option it'll use either or based on system conditions.
No, it's not, although it would be nice to see.

"Ring" is just the part connecting the cores and L3 cache slices with each other on your CPU. It has nothing to do with RAM.
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#12
InVasMani
I know ring isn't part of the memory I'm saying bios has some kind of option to dynamically alter DDR frequency and/or timings. I was saying it's a little bit like ring/cpu ratio's or FSB in essence. You're taking and interpreting what I said a bit to literal on the wording. I'm saying there is some kind of dynamic DDR5 control in bios.
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#13
AusWolf
InVasManiI know ring isn't part of the memory I'm saying bios has some kind of option to dynamically alter DDR frequency and/or timings. I was saying it's a little bit like ring/cpu ratio's or FSB in essence. You're taking and interpreting what I said a bit to literal on the wording. I'm saying there is some kind of dynamic DDR5 control in bios.
Ah, I see what you mean! If you discover that option, let me know. So far, I haven't on AM5, even though looking through all options is the first thing I always do after putting together a new system.
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#14
InVasMani
I'll try to take a screen shot of it in bios sometime. It might just be a Intel feature atm with z790 not sure it's Asus board though imagine other z790 boards have it as well.
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#15
AusWolf
InVasManiI'll try to take a screen shot of it in bios sometime. It might just be a Intel feature atm with z790 not sure it's Asus board though imagine other z790 boards have it as well.
Or it might just be a gimmick that sounds like what we're talking about but isn't.
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#16
InVasMani
I believe this is the bios setting I was thinking of, but not sure. Not sure if it includes user adjustments to the XMP or not in terms of it dynamically switching between SPD and XMP. Ideally this kind of technology should allow a user to switch between two profiles and based on like current and power limits along with temperature throttling. I mean at least if they intend to make it evolve in the ways it seems like in the same kind of way CPU's allow for just applied to Memory technology instead.

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