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Prime Members: TeamGroup T-Force Zeus 3000MHz CL16 Desktop RAM: 32GB Expired
$82.80
$91.99
& More + Free S&H
TeamGroup Inc. vis Amazon offers Prime Members an Extra 10% Off select TeamGroup T-Force Zeus 3000MHz CL16 Desktop Memory (RAM) Kits on sale starting at $82.79. Shipping is free. Thanks cck613
Note, must be signed in with your Amazon Prime account to access savings.
Available options:
Note, must be signed in with your Amazon Prime account to access savings.
Available options:
- 32GB (2 x 16GB) Kit (TTZD432G3000HC16CDC01) $82.79
- In stock on November 27
- 64GB (2 x 32GB) Kit (TTZD464G3000HC16CDC01) $170.99
Editor's Notes & Price Research
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Original Post
Written by
Edited November 20, 2020
at 07:41 AM
Showing me 10% off, $82.79 total when logged in as Prime member.
https://www.amazon.com/gp/product..._titl
Additionally
TEAMGROUP T-Force Zeus DDR4 64GB Kit (2 x 32GB) 3000MHz (PC4 24000) CL16 Desktop Gaming Memory Module Ram - TTZD464G3000HC16CDC01
For $170.99
https://www.amazon.com/gp/product..._titl
https://www.amazon.com/gp/product..._titl
Additionally
TEAMGROUP T-Force Zeus DDR4 64GB Kit (2 x 32GB) 3000MHz (PC4 24000) CL16 Desktop Gaming Memory Module Ram - TTZD464G3000HC16CDC01
For $170.99
https://www.amazon.com/gp/product..._titl
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Community Wiki
Last Edited by slugbom
November 18, 2020
at
02:43 AM
FYI there's only a few manufacturers making these so rebranded or generic labels are still from the same big 3
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http://blog.logicalinc
To calculate the true latency of your RAM in nanoseconds, use the following formula:
(CAS latency/RAM clock speed) x 2000 = latency in nanoseconds
If you have a CAS of 15 and a clock speed of 2400mhz, this would be your true latency:
(15/2400) x 2000 = 12.5 nanoseconds
If you have a CAS of 17 and a clock speed of 2666mhz, this would be your true latency:
(17/2666) x 2000 = 12.75 nanoseconds
Thus, higher CAS timings can result in a higher latency even with higher clock speeds. However, just because the DDR4-2400 RAM has a lower true latency than the DDR4-2666, that does not necessarily mean it is overall faster than the DDR4-2666 RAM. As we have noted on this blog in the past, higher speed of RAM currently always trumps lower latency.
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High quality IC with stable performance
Support O.C Profile
Reliable compatibility
Lifetime warranty"
This checks all the boxes for me. In for 10.
edit: I bought some, but I see now that the voltage is high on these sticks.
I'll most likely be buying a ryzen 7 3700x or comparable i7 or an i9.
Thanks.
I'll most likely be buying a ryzen 7 3700x or comparable i7 or an i9.
Thanks.
When choosing between latency and speed. Always choose faster latency first followed by speed.
Cxx is the latency here. And the MHz is the ram speed.
Our community has rated this post as helpful. If you agree, why not thank usbfan
Cxx is the latency here. And the MHz is the ram speed.
Per this article:
http://blog.logicalinc
To calculate the true latency of your RAM in nanoseconds, use the following formula:
(CAS latency/RAM clock speed) x 2000 = latency in nanoseconds
If you have a CAS of 15 and a clock speed of 2400mhz, this would be your true latency:
(15/2400) x 2000 = 12.5 nanoseconds
If you have a CAS of 17 and a clock speed of 2666mhz, this would be your true latency:
(17/2666) x 2000 = 12.75 nanoseconds
Thus, higher CAS timings can result in a higher latency even with higher clock speeds. However, just because the DDR4-2400 RAM has a lower true latency than the DDR4-2666, that does not necessarily mean it is overall faster than the DDR4-2666 RAM. As we have noted on this blog in the past, higher speed of RAM currently always trumps lower latency.
Sign up for a Slickdeals account to remove this ad.
http://blog.logicalinc
To calculate the true latency of your RAM in nanoseconds, use the following formula:
(CAS latency/RAM clock speed) x 2000 = latency in nanoseconds
If you have a CAS of 15 and a clock speed of 2400mhz, this would be your true latency:
(15/2400) x 2000 = 12.5 nanoseconds
If you have a CAS of 17 and a clock speed of 2666mhz, this would be your true latency:
(17/2666) x 2000 = 12.75 nanoseconds
Thus, higher CAS timings can result in a higher latency even with higher clock speeds. However, just because the DDR4-2400 RAM has a lower true latency than the DDR4-2666, that does not necessarily mean it is overall faster than the DDR4-2666 RAM. As we have noted on this blog in the past, higher speed of RAM currently always trumps lower latency.
Noted! Thanks for sharing that information.
BTW, does this memory run in xmp mode at 1.35v?
High quality IC with stable performance
Support O.C Profile
Reliable compatibility
Lifetime warranty"
This checks all the boxes for me. In for 10.
10????? Why?????
Anyone know how this brand ranks against Corsair, G skill and crucial?
So my last chip was 2600 and it tops out at just 2933. However with xmp profiles aka "try this!" in my bios I was able to find a stable 14 CL something clock timing with that at the exact target of 10ns!
I don't know how much more useful the newer chips, mobos and insanely fast ram are with lower latency but that's a place to start
Also don't let people tell you this stuff isn't important for gaming, especially VR. With this fast ram pool Ryzen can offer up access to yoir gpu as vram using memory fabric (and Intel has their own thing). I noticed in some poorly optimized VR games it helped a lot to have that extra
Anyone know how this brand ranks against Corsair, G skill and crucial?