Kingston Premier 32GB DDR5 4800MHz SDRAM CL40 Server Memory
Kingston's KSM48E40BD8KM-32HM is a 4G x 72-bit (32GB) DDR5-4800 CL40 SDRAM (Synchronous DRAM), 2Rx8, ECC, memory module, based on twenty 2G x 8-bit FBGA components. The SPD is programmed to JEDEC standard latency DDR5-4800 timing of 40-39-39 at 1.1V. Each 288-pin DIMM uses gold contact fingers.
Design and Form Factor
The Kingston KSM48E40BD8KM-32HM memory module is designed with a DIMM form factor, which is the standard size and shape for desktop and server memory modules. It measures 5.25 inches long and 1.18 inches high, making it compatible with most standard motherboards and memory slots. The module is also designed with a black PCB (printed circuit board), which provides a sleek and professional look.
Memory Capacity and Speed
The Kingston KSM48E40BD8KM-32HM memory module features a total capacity of 32GB, which provides ample memory for high-performance computing tasks. The memory module is built with DDR5 SDRAM technology, which is the latest and most advanced memory technology available. DDR5 memory provides significant improvements in data transfer speeds and bandwidth compared to previous generations of memory technology. The Kingston KSM48E40BD8KM-32HM memory module is specifically designed for high-speed data transfer and has a clock speed of 4800 MHz or PC5-38400.
ECC Capability
The Kingston KSM48E40BD8KM-32HM memory module is built with advanced ECC (error-correcting code) capabilities. ECC is a type of memory technology that is designed to detect and correct errors in data transmission. ECC is especially important in server and workstation environments, where system stability and data integrity are critical. ECC technology can detect and correct single-bit errors and can also detect multi-bit errors, which can cause system crashes or data corruption.
CL Latency and Rank
The Kingston KSM48E40BD8KM-32HM memory module features a CL latency of 40, which indicates the time delay between the initiation of a memory access and the actual transfer of data. Lower CL latencies indicate faster memory performance, which is essential for high-performance computing tasks. The memory module also features a rank of 2Rx8, which refers to the organization of the memory chips on the module. The rank of a memory module determines the number of independent sets of memory chips on the module, which can affect the overall performance of the memory module.