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G.SKILL Creates DDR4 32GB Memory Kit at 4400MHz CL19-19-19-39
G.SKILL are thrilled to announce the never-seen-before 32GB (4x8GB) Trident Z memory kit at an extremely blistering DDR4-4400MHz CL19-19-19-39. This new DDR4 Trident Z dual-channel memory kit upgrades the four-DIMM configuration to the next level as the world’s fastest 32GB (4x8GB) memory kit in the world.
Taipei, Taiwan (17 November 2017) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, is thrilled to announce the never-seen-before 32GB (4x8GB) Trident Z memory kit at an extremely blistering DDR4-4400MHz CL19-19-19-39. This new DDR4 Trident Z dual-channel memory kit upgrades the four-DIMM configuration to the next level as the world’s fastest 32GB (4x8GB) memory kit in the world. These extremely high-speed desktop modules are manufactured with rigorously tested and binned ultra-performance Samsung B-die DDR4 ICs.
After the launch of the 8th Gen Intel Core processors and Z370 chipset motherboards, G.SKILL has been constantly pushing DDR4 speeds faster than ever before to higher levels with various capacity configurations. With the availability of the ASUS OptiMem technology, which complements the T-Toplogy layout that uses equalized trace lengths, four-DIMM memory configuration has improved stability and memory overclocking performance. G.SKILL Trident Z memory once again achieves the world’s fastest 32GB memory kit at the ultra-high DDR4-4400MHz speed, with an exceptionally aggressive timing of CL19-19-19-39 in 32GB (4x8GB) at 1.5V. Below is the screenshot of the memory kit being stress tested and demonstrating its stability on the ASUS ROG MAXIMUS X HERO (WI-FI AC) motherboard with the Intel® Core™ i7-8700K processor.
Whether it’s for a seasoned overclocking veteran or an enthusiast who is on the path of hardware overclocking for benchmark world records, this new Trident Z series DDR4-4400MHz 32GB kit is programmed with the Intel XMP 2.0 profile to help easily enable the memory settings in BIOS. Of course, that wouldn’t stop anyone from manually tweaking the settings further to eke out every last ounce of performance from a DDR4 system.
G.SKILL Releases DDR4-3800MHz 32GB (4x8GB) SO-DIMM Memory Kit for Mini-ITX - 10/20/2017 02:18 PM
G.SKILL are thrilled to announce the release of a new high performance DDR4 Ripjaws SO-DIMM series for small-form factor (SFF) platforms, at DDR4-3800MHz CL18-18-18-38 32GB (4x8GB) at 1.35V, making th...
G.Skill launches Trident Z RGB DDR4-4266 32GB Quad-channel Kit - 10/13/2017 01:40 PM
G.SKILL announces their latest Trident Z RGB memory kit that boosts RGB-infused DDR4-4266MHz memory kits to a never-before-seen 32GB (4x8GB) configuration! Built from ultra-high performance Samsung B-...
G.SKILL Releases New DDR4 Specifications for Intel Coffee Lake Platform - 10/06/2017 08:40 AM
G.Skill are thrilled to announce new Trident Z and Trident Z RGB specifications for latest 8th Gen Intel Core processors built on the Coffee Lake microarchitecture and Z370 chipset motherboards, manu...
G.SKILL Releases New GDS v2.0 Update for KM780RGB & KM570 RGB Keyboards - 09/29/2017 03:31 PM
It seems software is getting as important as the hardware itself these days, should you have purchased one based on our reviews, please do upgrade the GDS software to update v2.0 for KM780RGB & K...
G.SKILL Releases New AMD Compatible Trident Z RGB kits for AMD Ryzen - 09/22/2017 09:37 AM
G.SKILL are excited to announce a new lineup of Trident Z RGB DDR4 memory kits with enhanced compatibility on the latest AMD platforms. Specifically designed for AMD Ryzen and Ryzen Threadripper plat...
Toss3
Senior Member
Posts: 199
Joined: 2010-03-25
Senior Member
Posts: 199
Joined: 2010-03-25
#5493498 Posted on: 11/18/2017 02:15 PM
To anyone thinking bigger latency numbers means slower, the numbers are clock cycles not time, the timings compensate for higher clock frequencies to maintain stability of the DRAM.
Put loosely, 1000MHz at 5-5-5-15 would have the same latency as 2000MHz at 10-10-10-30 but with a higher bandwidth.
So when overclocking would it be a good idea to try to keep the latency/clockspeed ratio constant (as speed does seem to be more important than latency anyways)?
To anyone thinking bigger latency numbers means slower, the numbers are clock cycles not time, the timings compensate for higher clock frequencies to maintain stability of the DRAM.
Put loosely, 1000MHz at 5-5-5-15 would have the same latency as 2000MHz at 10-10-10-30 but with a higher bandwidth.
So when overclocking would it be a good idea to try to keep the latency/clockspeed ratio constant (as speed does seem to be more important than latency anyways)?
Koniakki
Senior Member
Posts: 2843
Joined: 2009-09-15
Senior Member
Posts: 2843
Joined: 2009-09-15
#5493631 Posted on: 11/18/2017 10:13 PM
G.Skill TridentZ F4-4266C19D-16GTZA on my current rig.
Didn't touch subs or tertiary. Waiting for a bloody 8700K(Asrock Extreme 4) to really push this kit.
G.Skill TridentZ F4-4266C19D-16GTZA on my current rig.
Didn't touch subs or tertiary. Waiting for a bloody 8700K(Asrock Extreme 4) to really push this kit.
user1
Senior Member
Posts: 2249
Joined: 2016-01-29
Senior Member
Posts: 2249
Joined: 2016-01-29
#5493661 Posted on: 11/19/2017 12:58 AM
Depends on the application/platform, bandwidth heavy apps will benefit from the higher speeds(7zip for example), but if the bandwidth isn't saturated it may make no difference at all. And in other applications the latency will have more of an effect.
in this case, you tend to see increasingly diminishing returns past 3200-3600mhz on both current intel and amd plaforms, in which case you're probably better off doing 3600mhz cl14 (like koniakk has done above) than 4000mhz + with highend kits
So when overclocking would it be a good idea to try to keep the latency/clockspeed ratio constant (as speed does seem to be more important than latency anyways)?
Depends on the application/platform, bandwidth heavy apps will benefit from the higher speeds(7zip for example), but if the bandwidth isn't saturated it may make no difference at all. And in other applications the latency will have more of an effect.
in this case, you tend to see increasingly diminishing returns past 3200-3600mhz on both current intel and amd plaforms, in which case you're probably better off doing 3600mhz cl14 (like koniakk has done above) than 4000mhz + with highend kits
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Senior Member
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Joined: 2008-03-03
To anyone thinking bigger latency numbers means slower, the numbers are clock cycles not time, the timings compensate for higher clock frequencies to maintain stability of the DRAM.
Put loosely, 1000MHz at 5-5-5-15 would have the same latency as 2000MHz at 10-10-10-30 but with a higher bandwidth.