AMD memory performance at high density, 16 GB E-DIE (Z32D/16nm) per chip.
AMD memory performance at high density, 16 GB E-DIE (Z32D/16nm) per chip.
Hello, your device uses a 16 GB E-DIE chip (Z32D, 16 nm) from a single manufacturer. It seems to be a memory module, possibly from a different brand than the 32 GB Kingston RAM you mentioned.
You're looking for the manufacturer of the memory chip used in the DRAM-Calculator for Ryzen's option to select the memory type. The kit you mentioned is the HyperX FURY Black 32 GB, consisting of two 16 GB modules at 3600MHz DDR4 CL18. The part code provided is HX436C18FB4K2/32. Based on this information, you should choose the part code listed as the correct manufacturer reference.
Individuals struggle to locate specific RAM modules due to limited availability of detailed specifications. Determining whether a stick is single-sided or double-sided proves extremely challenging. Identifying the exact chip types used adds another layer of difficulty. When a suitable option is found, locating a retailer that provides accurate part numbers becomes essential. I was looking for any single-sided RAM sticks since they tend to perform better. Eventually, I gave up because it was nearly impossible to gather relevant information and cross-check with motherboard specifications. Ultimately, I chose a 3600MHz kit with a CL of 16, which had no RGB effects, used power efficiently, and offered good value. I opted for the G.Skill Ripjaws V, which is double-sided and uses SK Hynix chips according to CPU-Z data. What bothers me during overclocking is the lack of consensus on safe operating voltages for DDR4—some suggest 1.4V, others 1.45V or even 1.5V are acceptable. Beyond that, opinions vary widely. Until recently, I accepted a broad range from 1.2V to 1.35V as the maximum safe voltage, but this range is still debated.
Another approach is to try a tool named TyphoonBurner. http://www.softnology.biz/files.html While it doesn't always give accurate results, it offers the most promising starting point. I'm fairly certain it's a micron E-die.
Because safe voltage for different ICs differs from each other. Samsung B-Die would be fine at 1.5v and probably higher. Micron E-Die is decent, may scale ok on voltage but 1.4 to 1.45v Since a lot of memory doesnt scale well, like most lower speed Hynix, theres no point to increase voltage when the memory doesnt respond to it. 1.35v