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The best 10 memory in comparison

Memory (1 - 5)

	Team Group Xtreem DDR5-8000 32GB (2x16GB)1	G.Skill Trident Z Neo DDR4-3600 CL16 16GB (2x8GB)2	G.Skill Trident Z Royal Elite DDR4-4000 CL14 16GB (2x8GB)3	G.Skill Trident Z Royal Elite DDR4-3600 CL14 16GB (2x8GB)4	G.Skill Trident Z Neo DDR4-3200 CL14 16GB (2x8GB)5	Team Group Xtreem DDR5-7600 32GB (2x16GB)6	G.Skill Trident Z Neo DDR4-4000 CL14 16GB (2x8GB)7	Gigabyte Designare DDR4-3200 64GB (2x32GB)8	G.Skill Trident Z Neo DDR4-3800 CL14 16GB (2x8GB)9	Team Group T-Create Expert DDR5-6000 CL30 32GB (2x16GB)10

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	Team Group Xtreem DDR5-8000 32GB (2x16GB)	G.Skill Trident Z Neo DDR4-3600 CL16 16GB (2x8GB)	G.Skill Trident Z Royal Elite DDR4-4000 CL14 16GB (2x8GB)	G.Skill Trident Z Royal Elite DDR4-3600 CL14 16GB (2x8GB)	G.Skill Trident Z Neo DDR4-3200 CL14 16GB (2x8GB)	Team Group Xtreem DDR5-7600 32GB (2x16GB)	G.Skill Trident Z Neo DDR4-4000 CL14 16GB (2x8GB)	Gigabyte Designare DDR4-3200 64GB (2x32GB)	G.Skill Trident Z Neo DDR4-3800 CL14 16GB (2x8GB)	Team Group T-Create Expert DDR5-6000 CL30 32GB (2x16GB)
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Best price
Best price
Performance
True latencyThe true latency is a good indicator of memory performance. It is calculated from the CAS latency (CL) and transfer rate.
True latencyThe true latency is a good indicator of memory performance. It is calculated from the CAS latency (CL) and transfer rate.	9.5 ns	8.89 ns	7 ns	7.78 ns	8.75 ns	9.47 ns	7 ns	10 ns	7.37 ns	10 ns
CAS Latency (CL)The CAS Latency (CL) timing of the memory.
CAS Latency (CL)The CAS Latency (CL) timing of the memory.	38	16	14	14	14	36	14	16	14	30
TRAS timingThe tRAS (Row Active Time) timing of the memory.
TRAS timingThe tRAS (Row Active Time) timing of the memory.	48	39	35	34	34	54	35	38	36	76
TRCD timingThe tRCD (Row Column Delay) timing of the memory.
TRCD timingThe tRCD (Row Column Delay) timing of the memory.	24	19	15	14	14	36	15	18	16	36
TRP timingThe tRP (Row Precharge Time) timing of the memory.
TRP timingThe tRP (Row Precharge Time) timing of the memory.	24	19	15	14	14	36	15	18	16	36
Total score for "Performance"
Total score for "Performance"
General info
Form factorYou should always make sure to buy the correct memory for your system. Common form factors include 288-pin DIMM for PCs and 260-pin SO-DIMM for laptops.
Form factorYou should always make sure to buy the correct memory for your system. Common form factors include 288-pin DIMM for PCs and 260-pin SO-DIMM for laptops.	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM	288-pin DIMM
Memory size (total)The total size of the memory, taking into account the size of a single module and the number of modules in the kit.
Memory size (total)The total size of the memory, taking into account the size of a single module and the number of modules in the kit.	2 x 16GB	2 x 8GB	2 x 8GB	2 x 8GB	2 x 8GB	2 x 16GB	2 x 8GB	2 x 32GB	2 x 8GB	2 x 16GB
Samsung B-DieSamsung B-Die is a specific type of die (chip) used in some memory products. Many people favour this type of memory as it can run at speeds of 3200MHz or higher while also keeping CAS latency low (CL 14). These performance benefits are most notable when paired with an AMD Ryzen CPU.
Samsung B-DieSamsung B-Die is a specific type of die (chip) used in some memory products. Many people favour this type of memory as it can run at speeds of 3200MHz or higher while also keeping CAS latency low (CL 14). These performance benefits are most notable when paired with an AMD Ryzen CPU.	✖	✔	✔	✔	✔	✖	✔	✖	✔	✖
VoltageThe voltage of the memory.
VoltageThe voltage of the memory.	1.45V	1.35V	1.55V	1.45V	1.35V	1.4V	1.55V	1.2V	1.5V	1.1V
Memory sizeThe size of a single memory module.
Memory sizeThe size of a single memory module.	16GB	8GB	8GB	8GB	8GB	16GB	8GB	32GB	8GB	16GB
Total score for "General info"
Total score for "General info"
Features
Intel XMP / AMD EXPOIntel XMP (Intel Extreme Memory Profile) and AMD EXPO (AMD Extended Profiles for Overclocking) are features that allow you to easily overclock memory, simply by enabling the option in the BIOS.
Intel XMP / AMD EXPOIntel XMP (Intel Extreme Memory Profile) and AMD EXPO (AMD Extended Profiles for Overclocking) are features that allow you to easily overclock memory, simply by enabling the option in the BIOS.	Intel XMP 3.0	Intel XMP 2.0	Intel XMP 2.0	Intel XMP 2.0	Intel XMP 2.0	Intel XMP 3.0	Intel XMP 2.0	Intel XMP 2.0	Intel XMP 2.0	Intel XMP 3.0
ECC memory supportError-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.
ECC memory supportError-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.	✔	✖	✖	✖	✖	✔	✖	✔	✖	✔
Integrated heatsinkHeat can have an impact on performance and reduce potential read/write speeds. An integrated heatsink (or heat spreader) helps to keep the component cool and operating at maximum efficiency.
Integrated heatsinkHeat can have an impact on performance and reduce potential read/write speeds. An integrated heatsink (or heat spreader) helps to keep the component cool and operating at maximum efficiency.	✔	✔	✔	✔	✔	✔	✔	✔	✔	✔
RGB lightingRGB lighting allows you to choose between millions of colors and customize the look of your PC components.
RGB lightingRGB lighting allows you to choose between millions of colors and customize the look of your PC components.	✖	✔	✔	✔	✔	✖	✔	✖	✔	✖
Total score for "Features"
Total score for "Features"
Benchmarks
PassMark result (latency)The PassMark benchmark tests several factors related to memory's performance. The latency test measures how quickly a byte of memory is transferred to the CPU, with lower values indicating faster performance. Source: PassMark.
PassMark result (latency)The PassMark benchmark tests several factors related to memory's performance. The latency test measures how quickly a byte of memory is transferred to the CPU, with lower values indicating faster performance. Source: PassMark.	N.A.	31ns	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.
PassMark result (read uncached)The PassMark benchmark tests several factors related to memory's performance. The read uncached test measures how quickly a large block of memory can be read, with higher values indicating faster performance. Source: PassMark.
PassMark result (read uncached)The PassMark benchmark tests several factors related to memory's performance. The read uncached test measures how quickly a large block of memory can be read, with higher values indicating faster performance. Source: PassMark.	N.A.	20.9GB/s	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.
PassMark result (write)The PassMark benchmark tests several factors related to memory's performance. The write test measures how quickly a block of memory can be written, with higher values indicating faster performance. Source: PassMark.
PassMark result (write)The PassMark benchmark tests several factors related to memory's performance. The write test measures how quickly a block of memory can be written, with higher values indicating faster performance. Source: PassMark.	N.A.	16.9GB/s	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.
UserBenchmark result (average %)The average benchmark result from UserBenchMark, based on multi-core throughput, single-core throughput, and latency. Source: UserBenchmark.
UserBenchmark result (average %)The average benchmark result from UserBenchMark, based on multi-core throughput, single-core throughput, and latency. Source: UserBenchmark.	N.A.	97.8%	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.	N.A.
Total score for "Benchmarks"
Total score for "Benchmarks"

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