DRAM is a type of RAM (random access memory) used as the main memory in several computing devices, such as desktop and notebook computers, servers, and high-end workstations. It is the most widely used semiconductor memory used in current generation computers, and offers several significant advantages, such as structural simplicity, very high packing densities (number of bytes that can be stored per unit of chip area), low power consumption, and sufficiently high data read/write speeds. Several types of DRAM are presently available for deployment on various computing platforms, such as home/personal computers, portable computers, and network servers. This type of memory has undergone several innovative technological developments and offers very high price/performance ratios.Two types of DRAM are widely used for deployment in current generation servers: registered memory, and fully-buffered (FB) memory. Both these memory types are commercially available as DIMMs (dual inline memory modules). Registered DIMMs (or RDIMMs) are designed with an additional hardware register between the DRAM module and the system’s memory controller. RDIMMs present several advantages for the system, such as a lower electrical load on the memory controller and sustained stability even with an increase in the number of installed memory modules. Thus, RDIMMs are often the default choice for deployment in server-class computing systems. Fully-buffered DIMMs (or FB-DIMMs) are intended to be used in systems requiring higher memory densities with limited board space. As opposed to the parallel data transfer technique used in normal DRAM, FB-DIMMs transfer data in a serial format, using an additional buffer, known as advanced memory buffer (AMB) between the memory controller and the FB-DIMM modules. The AMB acts as an intermediary and handles all data reads/writes for the memory modules, taking care of issues such as signal degradation and error correction and reducing any overhead on the memory controller. Thus, FB-DIMMs prove to be a reliable alternative for deployment in server-grade machines.Sisemälu16 GBSisemälu tüüpDDR4Mälu taktsagedus2400 MHzKomponentPC/serverMälu kujutegur288-pin DIMMMälu paigutus (moodulid x suurus)1 x 16 GBCAS-latentsusaeg17Mälu pinge1.2 VPuhverdamata mäluJahMälu pingerida2HalogeenivabaJahLaius133,3 mmKõrgus30 mm
SK hynix Registered DDR3 SDRAM DIMMs (Registered Double Data Rate Synchronous DRAM Dual In-Line Memory Modules) are low power, high-speed operation memory modules that use DDR3L SDRAM devices. These Registered SDRAM DIMMs are intended for use as main memory when installed in systems such as servers and workstations.Sisemälu2 GBSisemälu tüüpDDR3Mälu taktsagedus1600 MHzMälu kujutegur240-pin DIMMCAS-latentsusaeg11Mälu pinge1.35 V
Low Voltage, High PerformanceRequired only 1.35V, the G.SKILL low voltage SO-DIMM memory kit consumes less power and generates less heat. It is the perfect memory solution to extend your laptop's battery life and enhance the stability due to lower temperature.DDR3 1.5V SupportDoes your system only support DDR3 1.5V SO-DIMM? No problem! G.SKILL 1.35V SO-DIMM kit is also compatible with systems that support DDR3 1.5V!Boost The Performance Of Your Laptop MachinesWant to speed up your laptop? G.SKILL SO-DIMM memory is here to help! You will feel the speed upgrade instantly no matter if you are gaming, programming, multimedia editing or just surfing around the web! It is one of the smartest and most cost-effective ways to enhance your productivity and computing experience on your laptop!The Best In Class QualityEvery G.SKILL SO-DIMM memory kit is 100% validated with G.SKILL rigorous burn-in tests. It ensures every kit delivers perfect stability, performance and quality for your laptop machine.Model name F3-1600C11D-16GSLCapacity 16 GB (2 x 8192 MB)Module amount 2 piecesplacement two-sidedDesign SO-DIMMType DDR3Connection 204-PinVoltage by 1.35 Voltage until 1.5 VoltageStandard DDR3-1600 (PC3-12800)TimingsCAS latency (CL) 11RAS-to-CAS delay (tRCD) 11RAS-Precharge time (tRP) 11Row-Active time (tRAS) 28
