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Ampere® Altra® Max ProcessorCloud Native Server ProcessorsAmpere’s Altra® family of processors are designed to deliver on predictable performance, high scalability and power efficiency. Ampere’s leadership on all these metrics deliver exceptional results and lower the TCO for Cloud Service Providers.Arm SystemReadyNew generation cloud native platform with larger scope that includes Server, Embedded, and Linux.Arm ServerReadyArm has developed two generations of processors so far. GIGABYTE has assisted and supported Arm in developing solutions, including the v1.0 & 2.0 ServerReady program since 2018. GIGABYTE is the only server hardware manufacturer listed on Arm’s official website under Partner Testimonials.Performance BoostUp to 80 /128 cores and 128 PCIe lanes demand data to be processed quickly and more jobs at the same time.FlexibilityArchitecture EfficiencyDesigned for Cloud and Edge (cloud ecosystem native platform) and provides a high number of computing cores, faster throughput, and low power consumption.AvailabilityAggregate PowerhouseProvides a management tool for cloud and edge to simplify management and improve efficiency.AvailabilitySuperhighway of DataUtilizing the latest in PCIe 4.0 and 128 PCIe lanes allows faster throughput in GPUs, storage and networking.AvailabilityGreen SavingsBest in class performance/watt, Ampere® Altra® continues to increase value while driving down TCO.AvailabilityCooperationGIGABYTE has developed with Arm systems for almost 10 years. Servers will be ready with fast TTM and product offerings.Hardware-level Root of Trust (RoT)Protection is built in the silicon to ensure systems will not be vulnerable to security attacks or cyber threats. This ROT helps isolate the system as the boot process starts to verify cryptographic operations and ensures the firmware is not compromised by malware.

Where Compute Reigns3rd Gen Intel® Xeon® Scalable Processors – “Ice Lake”GIGABYTE servers and Intel Xeon Scalable Processors deliver incredible 1P/2P performance from edge to data center with incredible gains in I/O throughput and workload demands that need high performing CPUs with large, yet optimized, memory configurations.Enhanced I/0: Support for PCIe 4.0 allows for double the throughput of PCIe 3.0 for fast and large data transfers. Also, 64 lanes per socket with up to 128 lanes in a 2P configuration for fast data transmission from CPU to GPU, accelerator or storage.CPU Performance Boost: Now up to 40 cores per socket with greatly improved IPC on Intel’s 10nm architecture while operating CPUs at 105-270W. Also, an additional UPI lane is added for up to 11.2GT/s for a low latency interconnect between CPUs.Next Gen Memory: Each processor provides eight memory channels to support 8 or 16 DIMM slots with up to DDR4-3200. There are two sub-clustering modes, Sub NUMA (SNC) and Hemisphere (HEMI), available using balanced memory that results in performance improvements. Additionally, support for Intel Optane PMem 200 series provides two modes for greater memory capacity and data persistence to process large amounts of data faster.Next Level Security: New instructions and architecture deliver a high level of cryptographic operations for data privacy and protection. Cryptographic accelerators speed up encryption protocols as well as improvements in software guard extensions and memory encryption are added.AI Acceleration: AI inference and training are enhanced with DL Boost Technology for greater business, operational, and security insights. Applications include HPC, AI, and Media & Graphics.High-performanceSupport max TDP and fast Gen4 SSDRequiring the ultimate performance in every aspect of a server is possible. GIGABYTE servers have been designed to support the cutting edge, high-end CPUs while utilizing the latest in PCIe 4.0 for fast throughput. And the platforms are supported by 8 channel for up to 16 DIMMs per node to offer optimal configurations.ScalabilitySupport CMC chipset for efficient managementCentral Management Controller (CMC) for chassis-level management and node-level monitoring by connecting internally to BMC chips integrated on each node. This results only in one MLAN connection required to perform monitoring of all four nodes, resulting in less Top of Rack (ToR) cabling and switch connections.AvailabilityDual ROM ensure server operate independentlyDowntime is not a word wanted to be heard in IT. The ability to have stable and continuous server operation is crucial for business operations. Steps have been taken with redundant PSUs, hot-swap drives, dual ROM, and fault tolerances to ensure GIGABYTE servers operate independently from anywhere.

AMD EPYC™ 7003 Series Processors – “Milan”GIGABYTE servers and AMD EPYC 7003 Series Processors deliver the highest possible I/O throughput to pave the way for fast communication between CPU and accelerator in HPC and data analytics.- Up to 64 Cores- 8 Channels of DDR4-3200- Up to 4TB Memory Capacity- 128 lanes PCIe 4.0- 2-way SMT & Turbo Boost- 4,6,8-channel Memory Interleave- Synchronized Fabric and Memory Clock Speeds- Secure Memory Encryption- Secure Encrypted VirtualizationMax Memory Speed Even at 2 DPCWith GIGABYTE unique solution, maximum memory speed 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.OCP 3.0 ReadyGIGABYTE’s G-,H-,R- * series offer servers that feature an onboard OCP 3.0 slot for the next generation of PCIe 4.0 add on cards. Advantages of this new type include:Easier Serviceability: simply slot in / pull out the card without needing to open the server chassis; tool less designLarger Thermal Envelope: more space for heat sink provides an increased power budget for new & emerging capabilitiesSecurity with RoT and TPM 2.0 moduleHardware-level Root of Trust *Protection is built in the silicon to ensure systems will not be vulnerable to security attacks or cyber threats. This hardware-level root of trust (ROT) helps isolate the system as the boot process starts to make sure a verified code is used.Provides:Integrity of cryptographic keys and secure key generationBoot process protected and verifiedSecure application environment and protection at runtimeOptional TPM 2.0 ModuleFor hardware-based authentication, passwords, encryption keys, and digital certificates are stored in a TPM module to prevent unwanted users from gaining access to your data. GIGABYTE TPM modules come in either a Serial Peripheral Interface (SPI) or low pin count interface.Heat and Power EfficiencyAutomatic Fan Speed ControlTo achieve the best cooling and power efficiency, GIGABYTE servers are enabled with automatic fan speed control. Individual fan speed will be automatically adjusted according to temperature sensors.Cold Redundancy To take advantage of the fact that a PSU will run at greater power efficiency with a higher load, GIGABYTE has introduced a power management feature called Cold Redundancy for servers with dual PSUs. When the total system load falls lower than 40%, the system will automatically place one PSU into standby mode, saving up to 10%.High AvailabilitySmart Crises Management and Protection (SCMP)SCMP is a GIGABYTE patented feature that will automatically force the system’s CPU to enter ULFM (ultra-low frequency mode for minimum power consumption) when the BMC is alerted to a PSU fault or error.Prevents shutdown in systems with non-fully redundant PSU systems when one PSU is lost.Server ManagementGIGABYTE offers free-of-charge server management applications via small processor (BMC) built on the server.Provides:- Server health monitoring- Remote troubleshooting- Resource utilization monitoring- Reduction in server downtimesGIGABYTE Management Console- Single server management- Feature-rich and easy to use browser-based interface- Integration of 3rd party applications- Automatic recording function- SAS / RAID controller monitoring functionGIGABYTE Server Management (GSM)- Multiple server management platform- Compatible w/ IPMI or RedfishCertified Ready with Software PartnersBeing a member of key software alliance partner programs enables GIGABYTE to together rapidly develop and validate joint solutions, enabling our customers to modernize their data centers and implement IT infrastructure and application services with speed, agility, and cost optimization. GIGABYTE servers have a compatibility across various ecosystems.Support Various Computing AcceleratorsGIGABYTE servers have been tested and validated across a range of workloads with various computing accelerators designed to deliver high levels of performance for deep learning, high performance computing (HPC), enabling data scientists, researchers, and engineers to tackle challenges that were once impossible.

AMD EPYC™ ProcessorsThe New x86 OptionAMD’s return to the CPU segment delivers a whole new value proposition to the x86 world. Built on GIGABYTE’s extensive design expertise across a range of chipset platforms, this AMD EPYC™ platform is already receiving acclaim for its high specification:MemoryI/ONetwork connectivityThis platform is intended as an alternative for builders in the x86 space and packs a real punch in flexibility and expansion options.

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.* The PCIe 4.0 standard supports a 16 GT/s bit rate, (roughly 2GB/s per single lane) as opposed to 8GT/s bit rate for PCIe 3.0 (1GB/s).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)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.CMC for Chassis Management & Multi-Node MonitoringGIGABYTE’s H-Series Servers feature an Aspeed CMC (Central Management Controller) for chassis-level management and node-level monitoring (by connecting internally to Aspeed BMCs integrated on each node). This results only in one MLAN connection required to perform monitoring of all four nodes*, resulting in less ToR (Top of Rack) cabling and switch connections.* IPMI only, without iKVM functionalityMulti-Server ManagementGIGABYTE’s H-Series Servers also feature the ability to create a “ring” connection for monitoring & management of all servers (incl. chassis-level & node-level) in a rack (including iKVM support) with an onboard LAN hub and dual MLAN ports*. Only two ToR (Top of Rack) switch connections are needed to create the ring system, and the ring will not be broken even if one server in the chain is shut down, reducing cabling and switch port usage for greater cost savings and management efficiency.* Standard feature for H281-PE0; optional feature of all other H-Series models by adding Ring Topology KitDesign Features for Easy MaintenanceGIGABYTE’s AMD EPYC 7002 Series server platforms contain many tool less design features for easy installation, maintenance and removal – never worry about forgetting your toolbox or losing a screw again!Tool-less Rail KitsRail kits attach to the side of the server chassis via clipping mechanism.Tool-less 2.5” & 3.5” Drive BaysClipping mechanism secures the drive in place. Install or replace a new drive in seconds.Efficient, Reliable Power SupplyGIGABYTE’s AMD EPYC 7002 Series server are designed to guarantee high conversion efficiency regardless of load. Redundant 80 Plus ‘Titanium’ or ‘Platinum’ PSUs, combined with GIGABYTE’s precision engineering, translates to super efficient power usage which maximizes the system’s power : performance ratio and reduces OPEX for the user.Intelligent Power Management FeaturesCold RedundancyTo take advantage of the fact that a PSU will run at greater power efficiency with a higher loading, GIGABYTE has introduced a power management feature called Cold Redundancy for servers with dual PSU. When the total system loading falls lower than 40%, the system will automatically place one PSU into standby mode, enabling the other PSU to take over the greater load. This can enable total system power efficiency savings of up to 10%.SCMP (Smart Crises Management / Protection)SCMP is a GIGABYTE patented feature that will automatically force the system’s CPU to enter ULFM (ultra-low frequency mode for minimum power consumption) when the BMC is alerted to a PSU fault or error (such as power loss, power surge, overheating or a fan problem). This feature will prevent shutdown in systems with less than 1 + 1 PSU redundancy when one PSU is lost. In a 2U 4 Node server, only two nodes will be switched to low power mode, while two remaining nodes can continue normal operation. When the fault is resolved or the PSU is replaced, the system will automatically return to normal power mode.GIGABYTE BMC InterfaceEasy BIOS UpgradeGIGABYTE has 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)GIGABYTE Server Management (GSM)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 Agent is currently compatible with Avocent MergePoint IPMI 2.0 BMC firmware, but not yet compatible with Megarac SP-X BMC firmware.- 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.Intuitive & Informative User InterfaceStarting from the GSM Server dashboard, the user can clearly understand the status of each node in the IT environment, including:- Node connection status (system is online/offline)- Node hardware sensor status (to detect hardware anomalies). Sensors measure voltage, fan speed and temperature- Node usage rate status (allowing you to timely allocate more resources when they are needed), including:- Power consumption- Disk/RAID usage information- Memory usage rate- CPU usage rate- Network card / PCI informationThe user can also perform various management functions, including:- Node remote accessPower on / off / resetLaunch iKVMReboot BMC / BMC Account Configuration- Network ConfigurationIPv4/IPv6 setting- Alert ManagementSNMP trap settingPlatform events filtersForwarding alerts by email- BMC / BIOS / CPLD Update- Power Consumption Limit Setting- Group ManagementCreate groups of nodes for BMC / BIOS update or manage power consumption settingsGSM 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 featureDynamic 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.* Enabled on selected models & performed through BMC console management GUIEnvironmental 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.