Friday, October 7th 2022

Gigabyte Ushers Breakthrough Performance of XMP DDR5-7600 and DDR5-7950 O.C with Team Group

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, today revealed the breakthrough DDR5 performance of XMP DDR5-7600 and O.C. performance to DDR5-7950 under fan cooling on Z790 AORUS XTREME and MASTER motherboards with Team Group gaming modules T-FORCE DELTA RGB DDR5 7200 memory. Featuring Shielded Memory Routing of SMD memory DIMM, exclusive DDR5 overclocking BIOS setting, top-quality components, and enhanced design from hardware to firmware on motherboards, this performance proves GIGABYTE's strong leading role in product quality and performance.

To unleash the ultimate DDR5 performance, GIGABYTE Z790 AORUS XTREME and MASTER implement new generation Shielded Memory Routing design. By optimizing memory trace width, length, and style from HPC simulation to actual implementation, overall impedance is lowered between CPU memory controller and memory modules. Further with low signal-loss PCB, signal loss inside PCB and external interference are greatly reduced which can maintain high-speed DDR5 signal transmission to achieve higher DDR5 speed. In addition, the abundant BIOS setting of DDR5 Memory Upgrade and XMP 3.0 User Profile lead to the breakthrough performance of XMP DDR5-7600 and DDR5-7950 O.C. under fan cooling with T-FORCE DELTA RGB DDR5 7200 memory. The detailed memory information is listed in the memory support list of the motherboard.
This remarkable memory performance on Z790 AORUS XTREME and MASTER with T-FORCE DELTA RGB DDR5 7200 memory is only the beginning of GIGABYTE's supreme-performance motherboards. Z790 AORUS XTREME and MASTER are exclusively designed for the latest 13th Gen Intel Core processors. Featuring up to 20+1+2 phases digital power VRM design with each phase holding up to 105 amps Fins-Array III heatsink design, these motherboards are geared with the best power design and thermal management to unleash the extreme performance and optimized overclocking experience on the new generation multi-core K series Intel Core processors. The superb hardware and firmware design offers more stable signals to memory, and enable users to easily boost XMP and overclocking performance. Further through the with premium components and exclusive tuning function of optimized power supply, heat dissipation, and expansions, GIGABYTE Z790 motherboards boost the overall and overclocking performance of CPU and memories with premium compatibility, breakthrough performance, and low temperature. Moreover, featuring enhanced SMD PCIe 5.0 x16 and M.2 slots with EZ-Latch design, lightning-fast networking of 10GbE, and Wi-Fi 6E dedicated spectrum, GIGABYTE Z790 motherboards impress users by its remarkable performance and stability to become the perfect choice for Intel Z790 platform.
Source: Gigabyte
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27 Comments on Gigabyte Ushers Breakthrough Performance of XMP DDR5-7600 and DDR5-7950 O.C with Team Group

#1
DeathtoGnomes
This is more a PR for the motherboard, not for the memory clocking.
Posted on Reply
#2
TheLostSwede
News Editor
DeathtoGnomesThis is more a PR for the motherboard, not for the memory clocking.
Teamwork...
Posted on Reply
#3
freeagent
This is one of the reasons I am not moving to AM5/DDR5 just yet.
Posted on Reply
#4
maxfly
freeagentThis is one of the reasons I am not moving to AM5/DDR5 just yet.
Right, it seems like every month another ocing barrier is overcome. I'm with ya there. Maybe after Xmas we'll see 9000.
Posted on Reply
#5
DeathtoGnomes
maxflyRight, it seems like every month another ocing barrier is overcome. I'm with ya there. Maybe after Xmas we'll see 9000.
And after Xmas it'll be over 9000.

LN2 clockers should be happy with this.
Posted on Reply
#6
ir_cow
Its hard to know if the Z690 is the current limiting factor for 7000+ or the Alder Lake IMC. Good to know that 4DIMM Z790 MBs with a 13900K can do 7000+. Look forward to finding out.
Posted on Reply
#7
JustBenching
ir_cowIts hard to know if the Z690 is the current limiting factor for 7000+ or the Alder Lake IMC. Good to know that 4DIMM Z790 MBs with a 13900K can do 7000+. Look forward to finding out.
Unify itx, evga dark, tachyon and probably apex can do 7600 as well. Maybe unify x as well. The barrier at 7000 is mostly imc and dimm related. Hynix mdie are harder to run for the imc than the adies
Posted on Reply
#8
kinjx11
So my z690 Xtreme waterforce can't run these speeds?
Posted on Reply
#9
Wirko
I can't believe I'm the only one obsessive-compulsive-synaesthetic enough to see the irony in numbers. 7600, you say? And then 7950?
Posted on Reply
#10
ir_cow
fevgatosUnify itx, evga dark, tachyon and probably apex can do 7600 as well. Maybe unify x as well. The barrier at 7000 is mostly imc and dimm related. Hynix mdie are harder to run for the imc than the adies
Yes, we already seen A-die running at 7200 on Unify-X with 12900K. The question is still whether the MB is the limiting factor or the 12th Gen IMC. I'm still thinking 6600+ won't be possible with 4DIMM MBs. Just a guess.
Posted on Reply
#11
P4-630
ir_cowI'm still thinking 6600+ won't be possible with 4DIMM MBs. Just a guess.
Well it works on the 4 DIMM slot Z790 Aorus Master...Maybe even on the Z690 Master.
Posted on Reply
#12
ir_cow
P4-630Well it works on the 4 DIMM slot Z790 Aorus Master...Maybe even on the Z690 Master.
Hmmm you have a good point. Still doesn't answer if this is a Z690 limitation or not. I can't wait to run 7600 memory.

I still think 6200 @ 28-38-38-30 is still good for 1.5V using M-Die. This is about the lowest I can go on the primary timings so far. Higher freq means loser timings. What are the trade-offs? Sooooon I will find out.
Posted on Reply
#13
RandallFlagg
ir_cowHmmm you have a good point. Still doesn't answer if this is a Z690 limitation or not. I can't wait to run 7600 memory.

I still think 6200 @ 28-38-38-30 is still good for 1.5V using M-Die. This is about the lowest I can go on the primary timings so far. Higher freq means loser timings. What are the trade-offs? Sooooon I will find out.
I don't think chipset has much to do with it. It's a combination of the IMC and the motherboard construction (layers, and copper thickness).

Regular 6-layer 1oz copper motherboards don't seem to be able to go beyond DDR5-6200, usually rated for 6000. 6-layer 2oz copper seem to be rated for 6400 and do up to 6600.

The Z690 Aorus Master is an 8-layer 2oz copper motherboard.

Most everything I have seen on AM5 X670 or X670E is 8 layer. ASRock's cheapest X670E PG Lightning is 8 layer 1oz, while the higher models are 8 layer 2oz.

One of the new AM5 motherboards I saw was 14 layer. Might be worth a test, 14 layer vs 8 layer vs 6 layer.
Posted on Reply
#14
nexxusty
LOL, MemTest?

TestMem5, Karhu RAM Test, Y-Cruncher or GTFO.

Passing Memtest does NOT mean your RAM is stable. Not anymore.

I don't expect much from Gigabyte though, they're morons, obviously.
Posted on Reply
#15
oobymach
DDR5 should peak somewhere around 9ghz so we're getting there.
Posted on Reply
#16
freeagent
oobymachDDR5 should peak somewhere around 9ghz so we're getting there.
10.5 or bust :D
Posted on Reply
#17
AusWolf
DDR5-7950 with your R9 7950X. Sounds fancy! Though I think I'll wait until X7950 motherboards and the RX 7950 XT are out. :D
Posted on Reply
#18
P4-630
freeagent10.5 or bust :D
Speeeed!!
Posted on Reply
#19
bonehead123
P4-630Speeeed!!
NO dammit, I sayz....

MOAR supppeeeed instead :D
Posted on Reply
#20
InVasMani
TheLostSwedeTeamwork...
Makes the dream work!
Posted on Reply
#21
ir_cow
I just saw a HWBOT forum post of Splave selling DDR5-8000 CL32 Binned memory. $500 is a lot, but apparently it works on Z690 AQUA. So its not the Z690 MBs that is the limit here. At least the XOC ones it isn't.
Posted on Reply
#22
RandallFlagg
ir_cowI just saw a HWBOT forum post of Splave selling DDR5-8000 CL32 Binned memory. $500 is a lot, but apparently it works on Z690 AQUA. So its not the Z690 MBs that is the limit here. At least the XOC ones it isn't.
Did you bother to look up the AQUA?

That is a 12-layer motherboard.
Posted on Reply
#24
Wirko
ir_cowI still think 6200 @ 28-38-38-30 is still good for 1.5V using M-Die. This is about the lowest I can go on the primary timings so far. Higher freq means loser timings. What are the trade-offs? Sooooon I will find out.
If you calculate timings in nanoseconds, is that still true?
Posted on Reply
#25
JustBenching
WirkoIf you calculate timings in nanoseconds, is that still true?
No, ofc not.

For ddr4 200mhz was equal to 1cas, so basically 4400c18 was equal to 4000c16 roundabout. Actually the 4400c18 was better cause the imc was also clocked by 200 mhz in the above example. With ddr5 since it works in gear 2 the imc impact will be lower.

Generally speaking when you are clocking ram you try to find the highest frequency you can boot at and then you start trying to tighten the timmings. The only way thats worth to drop frequency is if you are close to running 1t. Alderlake works at 1t up to 6400 mhz if you are lucky, so if your ram can do 6600 2t its better to drop down to 6400 1t
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