Boost your PC’s performance to new levels.You need the right expert for the right PC memory solution.Samsung is a leader in the DRAM market, with our DRAM being selected by most OEMs for many years.Embrace the cutting-edge Samsung DDR4 to take your PC to a new dimension of high speed and low energy performance.Improved bandwidth for high-end applications.With PC applications becoming more critical and complex, personal computing has set its toughest demands yet. PCs today need to provide exceptional speed to deliver the performance required.Samsung 2xnm DDR4 UDIMM and SODIMM enable initial bandwidth of 2,400 Mbps, which can achieve up to the JEDEC-defined 3,200 Mbps. DDR4 has 2 times higher bandwidth than DDR3.Complete multi-tasking with less energy.Consumers want to be able to rely on excellent battery power to complete their tasks. Samsung PC DRAM provides longer time unplugged through lower power consumption. This enables extended battery life for notebooks while maintaining high performance.Samsung DDR4 SODIMM and UDIMM consume less power with their unique 2xnm technology. Samsung’s 2xnm DDR4 operating at 1.2V achieves approximately 26% higher performance/watt compared to 2xnm DDR3 operating at 1.5V.Samsung also provides 2xnm LPDDR4 operating at 1.1V, achieving 37% increase in power efficiency than 2xnm LPDDR3 operating at 1.2V.Double your capacity with the world’s 1st 8Gb chips.The advancement in density has enabled Samsung to offer bigger capacity DRAM, delivering the faster data transmission speed that devices require today. PCs can benefit from high density DRAM by using fewer DRAM components, which leads to space saving.Samsung DDR4 UDIMM can achieve the max capacity of 128GB using the world’s 1st 8Gb chips, which is 2 times bigger than that of DDR3’s 64GB made of 4Gb chips.
Desktop computers, commonly used as home/office computers, employ DRAM as their main memory. DRAM is a type of RAM (random access memory) and is the most widely used semiconductor memory for current generation computers, offering 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 desktop computers. DRAM has demonstrated rapid and significant technological developments, resulting in considerable increases in performance for desktop computers.Memory for current generation desktop computers is available as DIMM (dual inline memory modules). Unbuffered DIMMs (or UDIMMs) are the most common type of memory used on desktop systems. A UDIMM memory module does not contain any buffer or additional hardware register between the memory module and the system’s memory controller. UDIMMs also consume much lower power, and have much lower data access latencies than buffered or registered memory. Thus, UDIMMs are an excellent solution for low-cost computing, such as home/personal computing.
DRAM is extensively used as the main memory in virtually all computing devices, such as desktop and notebook computers. It is a type of RAM (random access memory), and is the most widely used semiconductor memory used in current generation computers, offering multiple 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 notebook computers. With rapid developments in semiconductor memory technology, DRAM has demonstrated significant performance enhancements, resulting in a considerable overall performance improvement for the computing segment. Because of their small sizes, notebook computers require components with the smallest form factors. Specific memory types have thus been developed to fulfill this need. DRAM for notebook computers is available in the form of a SODIMM (small outline dual in-line memory module), which has the smallest footprint and occupies a minimum of board space, yet delivers the same levels of performance as regular a DIMM used in standard desktop computers. DDR, DDR2, and DDR3 memory are available as SODIMM DRAM, and provide different physical designs and pin layouts for ease in visual identification. SODIMM DRAM is available in both buffered and unbuffered versions, and thus can be deployed in notebooks for home/office use as well as server-class machines. SODIMM DRAM also consumes much lower power. The latest generation DDR3 SODIMM operates at significantly low voltages, and is thus used on almost all mobile and battery-powered devices, such as notebook computers and portable media players.
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.
AMD EPYC™ 7002 Series Processor (Rome)The next generation of AMD EPYC has arrived, providing incredible compute, IO and bandwidth capability – designed to meet the huge demand for more compute in big data analytics, HPC and cloud computing.- Built on 7nm advanced process technology, allowing for denser compute capabilities with lower power consumption- Up to 64 core per CPU, built using Zen 2 high performance cores and AMD’s innovative chiplet architecture- Supporting PCIe Gen 4.0 with a bandwidth of up to 64GB/s, twice of PCIe Gen 3.0- Embedded security protection to help defend your CPU, applications, and dataPCIe Gen 4.0 ReadyAMD EPYC Rome is ready to support PCIe Gen 4.0 with a bandwidth of 64GB/s, twice that of PCIe Gen 3.0. This doubles the bandwidth available from the CPU to peripheral devices such as graphics cards, storage devices and high speed network cards. GIGABYTE’s AMD EPYC 7002 Series server platforms are ready to be used with a new generation of PCIe Gen 4.0 devices such as AMD’s Radeon MI50 GPGPU.Higher Memory SpeedAMD EPYC’s Rome 7002 Series processors feature faster 8 channel DDR4 memory lanes, supporting RDIMM or LRDIMM memory modules with a speed of up to 3200MHz (1 DIMM per channel)Get the Memory Performance Edge3200Mhz Even at 2 DIMMS Per ChannelOn previous AMD server platforms, memory speed has been automatically downgraded by design when a user installed two DIMMs per channel. GIGABYTE has now developed a unique solution to overcome this performance downgrade headache: with our new 2nd Generation AMD EPYC 7002 Series server platforms, maximum memory speed (3200Mhz) is now supported even when using 2 DIMMS per channel*. GIGABYTE’s server platforms give you the performance edge, with more memory capacity at faster speeds than competing solutions!More M.2 StorageGIGABYTE’s AMD EPYC 7002 Series server platforms feature more M.2 drive capacity for ultra-fast NVMe storage – both onboard M.2 slots and extra capacity via optional riser cards.Max TDP SupportGIGABYTE’s AMD EPYC server platforms come ready to support the full list of AMD EPYC Rome 7002 Series processors: up to 225W (standard TDP) / 240W (cTDP)Data SecurityTPM 2.0 ModuleGIGABYTE’s AMD EPYC Server is designed to support Trusted Platform Modules (TPM - discrete cryptographic on-board processors).Carefully Selected ComponentsGIGABYTE’s passive components are carefully selected to guarantee a stable operating environment and allow the processors and the memory to deliver their maximum performance. GIGABYTE’s server motherboards are built with long lasting components for a high degree of reliability and durability.GIGABYTE Server Management (GSM) is GIGABYTE’s proprietary multiple server remote management software platform, available as a free download from each GIGABYTE server product page. GSM is compatible with either IPMI or Redfish (RESTful API) connection interfaces, and comprises the following sub-programs:- GSM Server, a software program with an easy to use browser-based GUI to enable global remote monitoring and management of multiple GIGABYTE servers via each server node’s BMC.- GSM CLI, a command-line interface program to enable global remote monitoring and management of multiple GIGABYTE servers via each server node’s BMC.- GSM Agent, a software program installed locally on each GIGABYTE server node that retrieves additional node information (CPU/Mem/HDD/PCI/…) from the OS and passes it to the BMC. This information can then be utilized by GSM Server or GSM CLI.- GSM Mobile, a remote server management mobile APP, available for both Android and iOS.- GSM Plugin, a plugin that allows the user to manage and monitor GIGABYTE server nodes within VMware’s vCenter.GSM Mobile for iOS and AndroidA GSM Mobile app is available for download for both iOS and Android mobile phones for remote server management on the go.Management through VMware vCenterA GSM Plugin is available for VMware’s vCenter, allowing the user to perform remote monitoring and management of GIGABYTE server nodes without having to switch to a separate software platform.GIGABYTE Management Console (AMI MegaRAC SP-X)This GIGABYTE server product utilizes a AMI MegaRAC SP-X platform for BMC server management, with a feature rich and easy to use browser-based graphical user interface.Notable features include:- RESTful API support (including the latest DMTF standards of Redfish) allows the administrator to integrate with 3rd party applications for server management- HTML5-based iKVM remote management client included as a standard feature, no additional add-on license required to purchase- Detailed FRU information from SMBIOS- Pre-event automatic video recording feature from 10 to 30 seconds- SAS / RAID controller monitoring featureEasy BIOS RefreshGIGABYTE has also developed this integrated function (requiring no additional software) that allows users to update the BIOS of motherboards through the BMC controller:- No need to install core components such as CPUs, memory, drives and OS- No need to power on the system (NB. PSU must be connected)- Update individual (IPMI 2.0) or multiple boards simultaneously (Command Line)Dynamic Fan Speed ControlGIGABYTE servers are enabled with dynamic fan speed adjustment. Individual fan speed will be automatically adjusted according to the system’s current temperature (according to CPU, DIMM, M.2, HDD, GPU temperature sensors), to achieve the best cooling and power efficiency. When the BMC detects a temperature change, fan speed will be automatically adjusted accordingly. Fan speed profiles may also be manually created and edited when necessary according to the user’s custom requirements.Environmental ComplianceGIGABYTE maintains its commitment to green products, and adheres to the latest RoHS regulations (in effect July 2017).VMware Technology Alliance PartnerRecognized as an Advanced Partner in VMware’s Technology Alliance Partner (TAP) program enables GIGABYTE to rapidly develop and certify joint solutions or go-to-market products that leverage VMware virtualization and cloud solutions, enabling our customers to modernize their data centers and implement IT infrastructure and application services with speed, agility, and cost optimization.Enquire with your GIGABYTE sales representative for more information about combining or integrating this server product with VMware solutions.
Packs a PunchThe ASUS Phoenix GeForce® GTX 1650 SUPER™ is a high definition powerhouse packed into a compact layout. It boasts a large single fan with a Wing-blade design that has trickled down from top tier cards. This gives the Phoenix a performance boost over the competition, while keeping its size small enough to be compatible with most modern chassis. Just like its namesake, the Phoenix also boasts a long lifespan with features like IP5X dust resistance, dual ball fan bearings, and Auto-Extreme Technology. If you're looking for a nimble sidekick that will keep pushing pixels for years to come, the Phoenix is your beast.Wing-blade Fan DesignThey're pretty flyOur patented Wing-blade fan design adds drooped tips to each fan blade in order to reduce drag.Auto−Extreme TechnologyPrecision automated manufacturingAuto-Extreme Technology is an automated manufacturing process that sets new standards in the industry by allowing all soldering to be completed in a single pass. This reduces thermal strain on components and avoids the use of harsh cleaning chemicals, resulting in less environmental impact, lower manufacturing power consumption, and a more reliable product overall.GPU Tweak IIMonitor, tweak, and tuneThe ASUS GPU Tweak II utility takes graphics card tuning to the next level. It allows you to tweak critical parameters including GPU core clocks, memory frequency, and voltage settings, with the option to monitor everything in real-time through a customizable on-screen display. Advanced fan control is also included along with many more features to help you get the most out of your graphics card.Smooth operatorThis graphics card supports NVIDIA® G-SYNCTM display technology for a super-smooth variable refresh rate experience. Enjoy AAA games without the nuisance of screen tearing or stuttering.
DRAM is extensively used as the main memory in virtually all computing devices, such as desktop and notebook computers. It is a type of RAM (random access memory), and is the most widely used semiconductor memory used in current generation computers, offering multiple 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 notebook computers. With rapid developments in semiconductor memory technology, DRAM has demonstrated significant performance enhancements, resulting in a considerable overall performance improvement for the computing segment.Because of their small sizes, notebook computers require components with the smallest form factors. Specific memory types have thus been developed to fulfill this need. DRAM for notebook computers is available in the form of a SODIMM (small outline dual in-line memory module), which has the smallest footprint and occupies a minimum of board space, yet delivers the same levels of performance as regular a DIMM used in standard desktop computers. DDR, DDR2, and DDR3 memory are available as SODIMM DRAM, and provide different physical designs and pin layouts for ease in visual identification. SODIMM DRAM is available in both buffered and unbuffered versions, and thus can be deployed in notebooks for home/office use as well as server-class machines. SODIMM DRAM also consumes much lower power. The latest generation DDR3 SODIMM operates at significantly low voltages, and is thus used on almost all mobile and battery-powered devices, such as notebook computers and portable media players.
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