Friday, October 18th 2019

G.SKILL Announces Extreme Low Latency DDR4-4000 CL15 32GB Memory Kits

G.SKILL International Enterprise Co., Ltd., the world's leading manufacturer of extreme performance memory and gaming peripherals, is delighted to announce an extreme low-latency, high-speed DDR4 memory kit at DDR4-4000 CL15-16-16-36 in a 32 GB (8 GB x4) capacity configuration under the classic Trident Z and the RGB-enabled Trident Z Royal memory series. Once again, these extraordinary memory kits are manufactured using high-performance Samsung B-die ICs to achieve the world's lowest latency of CL15 at DDR4-4000.

At G.SKILL, we are always searching for the ultimate memory kit, tuned not only for speed, but also for efficiency. This means pushing for lower latency timings. Previously, the best CAS latency that memory kits at the DDR4-4000 level could achieve was at CL17. This is surpassed by the new DDR4-4000 CL15-16-16-36 32 GB (8 GB x4) memory kit running under 1.5 V, shown validated on the MSI MEG Z390 ACE motherboard and Intel Core i7-9700K processor in the screenshot below.
Exceptional Bandwidth Performance on AMD X570
A lower CAS latency typically means a bump in bandwidth performance, and this is no different on the latest AMD Ryzen platform. Normally, AMD Ryzen 9 3900X processor bandwidth with popular DDR4-3200 CL14 kit would fall around 50 GB/s for memory read bandwidth in AIDA64. With the new ultra-efficient DDR4-4000 CL15 memory kit, the memory read bandwidth breaks 61 GB/s in AIDA64 with a few additional tweaks, along with over 58 GB/s in memory write and 65 GB/s in memory copy bandwidth speed, as demonstrated in the following screenshot with the MSI X570 Unify motherboard and the AMD Ryzen 9 3900X processor.

Availability & XMP 2.0 Support
This extreme low latency performance memory specification will support Intel XMP 2.0 for easy overclocking and will be available via G.SKILL worldwide distribution partners in Q4 2019.
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35 Comments on G.SKILL Announces Extreme Low Latency DDR4-4000 CL15 32GB Memory Kits

#26
nguyen
erekshould i feel bad for going 2x16 3600 MHz CL16-19-19-39 1.35V?
2x16GB 3600mhz is probably the best RAM suited for Ryzen 3rd gen as you run 1:1 ratio with the FCLK and the Dual Rank add some extra performances. 3600Mhz Dual Rank even outperform 4400mhz Single Rank on Ryzen 3 because of the FCLK top out at 3600mhz (or 3800mhz if you have good CPU).


Still loving my B-die 4x8GB kit though

Posted on Reply
#28
delshay
Jism3600Mhz / 3/3/3/9. DDR2 CL3 days.
DDR1 PC-3700 2-2-2-5 (4x1GB) exclusive, only set in the world.
Posted on Reply
#29
evernessince
delshayWhatever happened to DDR4 1.2v spec. This is what they should be working on, same performance but @1.2v.
Zero point for the desktop. You don't start running into problems until 1.5v and the power consumption difference is negligible. You want 1.2v RAM go and buy a cheap bare kit.
Posted on Reply
#30
Dyatlov A
evernessinceZero point for the desktop. You don't start running into problems until 1.5v and the power consumption difference is negligible. You want 1.2v RAM go and buy a cheap bare kit.
yes, i would be curious of power consumption differences, between different RAM voltages.
Posted on Reply
#31
Bender
nguyen2x16GB 3600mhz is probably the best RAM suited for Ryzen 3rd gen as you run 1:1 ratio with the FCLK and the Dual Rank add some extra performances. 3600Mhz Dual Rank even outperform 4400mhz Single Rank on Ryzen 3 because of the FCLK top out at 3600mhz (or 3800mhz if you have good CPU).


Still loving my B-die 4x8GB kit though

I agree, looks like Dual Rank is the way to go with Ryzen 3rd
Posted on Reply
#33
eidairaman1
The Exiled Airman
Wake me when latencies start hitting PC3200.
Daisho11Those are some God-awful heatsinks. How come very low profile DDR4 hasn't caught on?
Thermals, and the black heatspreaders aint bad. Atleast they aint looking like rainbow vomit
Posted on Reply
#34
londiste
eidairaman1Wake me when latencies start hitting PC3200.
PC3200 is transfer speeds, not latencies.
You meant the B-die production parts table? Remember that these are at spec 1.2 V.
Posted on Reply
#35
delshay
londistePC3200 is transfer speeds, not latencies.
You meant the B-die production parts table? Remember that these are at spec 1.2 V.
That means they are overvolted to get higher performance. I would like to see PDF Doc of the chip part number.

What would also be interesting is the failure rate/drop in performance due-to overvolting. Perhaps someone can start a thread on this.
Posted on Reply
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