systems (PDF), ESG technical brief: Exadata storage advantages Exadata X8M combines persistent memory Your email address will not be published. Oracle shows us, for example, that the Exadata Cloud@Customer X9M yields almost 50x to 100x better I/O latency in OLTP workloads than a similarly configured Azure SQL environment hosted on Azure . A Base System is an entry-level configuration. HC, 43.2 TB raw storage capacity for high performance disks, or 144 TB raw capacity for - Saving operations An extra RoCE Network Fabric Switch can be installed for combining X9M-2 database server includes the following Oracle Advanced Security fully encrypts customer databases while they are at rest, in motion, and protected in backups, so unauthorized access does not reveal information. Or, by adding a minimum of three X9M The optional X2-2 Memory Expansion Kit can be used to populate the remaining 6 empty slots with 16 GB DIMMs to bring the total memory to 192 GB (12 x 8 GB and 6 x 16 GB), or replace the existing 8 GB DIMMs with 16 GB DIMMs and add memory to bring the total memory to 288 GB (18 x 16 GB). Exadata X8M introduces three new technologies: Native Persistent Memory New RDMA over Converged Ethernet (RoCE) Network Fabric 2 x 16-core processors, each with 8 cores enabled. Exadata System Software 20.1.9.0.0 Update is now generally available. An extra switch can be installed Check the spelling of your keyword search. drives, Administration network: 1 x 1 GbE Base-T Ethernet port, Integrated Lights Out Manager (ILOM) port for remote management: 1 x 1 An additional database server can be added. Reduce data center footprint, operate more efficiently, and reduce costs by running hundreds of Oracle Database instances per Oracle Exadata X8M. Portfolio (PDF), dbInsights: Oracle Exadata X9M turbocharges analytics In this article, we learned about X8m-2 new features, 20.1 new features. This opens up the ability for Oracle Database to use RDMA instead of I/O to read remote persistent memory. If all four reads fail, the server is evicted from the cluster. - Providing management and performance tuning for app and database machines (linux) The X8M-2 EF server requires Oracle Exadata System Software release 19.3.0 or later. Exadatas Extended (XT) Storage Server is: Efficient The XT server offers the same high capacity as the HC Storage server, including, Simple The XT server adds capacity to Exadata while remaining transparent to, applications, transparent to SQL, and retains the same operational model, Secure The XT server enables customers to extend to low-use data the same Exadata, security model and encryption used for online data. drives, 3 TB (48 x 64 GB DIMMs) RAM, expandable to 6 TB (96 x 64 GB DIMMs) with Up to 358 TB of NVMe flash cache per rack gives customers the performance of flash storage with the capacity and cost of disk storage byeliminating up to 95% of all disk IOs. The following table describes the fixed configurations (Full Rack, Half Rack, Quarter Rack, and Eighth Rack) for Exadata Database Machine. Capacity or Extreme Flash, Raw flash capacity: 716.8 TB for EF, or 358.4 TB Oracle Exadata Deployment Assistant (OEDA) is used during installation to implement this reduction. Each server has 2 x 10-core processors, each with 5 Find out how Oracle Exadata meets business-specific needs. To achieve a lower cost, flash is not included, and storage software is optional in this storage, server. (PDF), DSC analysis: Game Over for DIY Database Systems (PDF), Oracle Exadata X8 extends analytic query footprint (PDF). This complexity requires a team of experienced engineers to properly maintain and repair them properly. Brian Gruttadauria, Senior Director, Product Marketing. Exadata X8Ms exclusive capabilities, like the Persistent Memory Data Accelerator developed with Oracle Database, accelerates diverse customer workloads, with up to 16 million SQL read IOPS, more than 560 GB/second of SQL throughput, and SQL read latency under 19 microseconds. Each card contains 2 x An extra switch can It will fully automate and manage the database VMs and the databases running in those VMs . - I have supported databases that are telecommunication , banking, insurance, financial, retail and manufacturing, marketing, e-invoicing . RDMA was introduced to Exadata with InfiniBand and is a foundational part of Exadatas high-performance architecture. 2 Exadata X9M-8 database servers. High overall Exadata performance, scale, and management automation allow customers to achieve dramatic consolidation of Oracle Database instances to reduce resource over-provisioning, system counts, and TCO. The addition of Far Sync extends this capability to remote data centers so organizations can continue operations during complete outages or disasters at their primary data centers. Course Hero is not sponsored or endorsed by any college or university. Each server has Button, Extend the Server to the Maintenance Position, Inconsistencies Between DIMM Fault Indicators and the BIOS Isolation of Faulty Describes how to troubleshoot and maintain the Oracle Exadata X8-2 Database Server. When a rebalance operation moves data to a different storage server, for example after a hard disk suffers a real or predictive failure, any data that might be cached in the Persistent Memory Data Accelerator in the source storage server will be replicated to the target storage server automatically. IO Resource Manager automatically optimizes resource allocations and prioritizes IOs to deliver consistently fast results for all types of customer database workloads in consolidated environments. Each Exadata Database Machine X9M-8 database server includes the following components: CPU: 8 x 24-core Intel Xeon Platinum 8268 Processors (2.9GHz) RAM: 3 TB (48 x 64 GB DIMMs), expandable to a maximum of 6 TB System storage: 2 x 6.4 TB flash accelerator PCIe cards (Hot-Pluggable) Exadata X9Ms full-stack design eliminates integration costs and reduces customer TCO by up to 33%, as highlighted in Wikibons analysis (PDF). Oracle Exadata Storage Server X7-2 Extreme Flash servers include the following components: Requires Oracle Exadata System Software release 18.1.0 or later. Exadata X9Ms scalable design lets customers size initial deployments to meet current needs and add incremental database and storage servers to support new or increasing requirements. Oracle Database In-Memory on Exadata simultaneously creates optimized row and column database formats within a single database instance. The X8M-2 HC server requires Oracle Exadata System Software release 19.3.0 or later. Write caching eliminates disk bottlenecks in large scale OLTP and batch, workloads. Each server has 2 x 16-core processors, each with 8 Each server has 1x 24-core processor with all 24-cores enabled, 3 Exadata X7-2 storage servers. Oracle Active Data Guard lets customers create hot-standby databases that provide business continuity across system failures. It will cost considerably less than the regular storage nodes. Customers reduce the number of Oracle Database licenses they need for consolidated workloads, as each licensed core on Exadata database servers completes more work per unit of time and storage server CPUs do not require database licenses. This release follows Exadata System Software Release 19.3, bringing further innovations for smarter infrastructure, improved performance, and smarter management. Oracle Exadata Storage Server X7-2 High Capacity servers include the following components: Oracle Exadata Storage Server X6-2 Extreme Flash servers include the following components: Oracle Exadata Storage Server X6-2 High Capacity servers include the following components: Oracle Exadata Storage Server X5-2 Extreme Flash servers include the following components: Oracle Exadata Storage Server X5-2 High Capacity servers include the following components: Oracle Exadata Storage Server X4-2L servers include the following components: Oracle Exadata Storage Server X3-2L servers include the following components: Oracle Exadata Storage Server with Sun Fire X4270 M2 Servers include the following components: Oracle Exadata Storage Server with Sun Fire X4275 Servers include the following components: Oracle Exadata Database Machines include a spares kit. In this scenario, the CPU usage is often low while the memory usage is very high. Ovum reports (PDF) the XT storage has costs similar to that of Hadoop clusters and eliminates the need to secure separate analytics environments or copy data between them. storage server(s) to the existing disk group. That provides in-memory performance for both OLTP and Analytics with capacity, sharing, and cost benefits of shared storage. 3 Exadata X8-2 storage servers, either High Capacity or Extreme Flash. Leave a comment, 2-) Exadata System Software Version 20.1.9. For fault-tolerance, Exadatas smart software mirrors this cached data across storage servers persistent memory tier, protecting data from hardware failures. May 30, 2021 HC, 21.6 TB raw storage capacity for high performance disks, or 108 TB raw capacity for The same Oracle Exadata capabilities are available on-premises, in Oracle Cloud Infrastructure, and as Cloud@Customer solutions. 200 Series), Disk storage: 12 x 18 TB hard disk drives (HDD), but only 6 HDD on, Disk controller Host Bus Adapter (HBA) with 2 GB cache, Flash storage: 4 x 6.4 TB NVMe flash devices (PCIe 4.0), but only 2 Increase competitive advantages by deploying high-performance, data-intensive applications for machine learning, IoT, fraud detection, and other emerging technologies. All-flash capacity in intelligent Exadata storage servers scales by more than 77X, from 56TB to over 4.3 PB of usable uncompressed capacity, so customers can increase the data intensity of latency-sensitive transactional workloads and support more end users. - Performance tuning and sql tuning High Capacity (HC) server includes the following components: The X9M-2 HC storage server requires Oracle Exadata System Software release 21.2.0 or later. The X8M-2 XT server requires Oracle Exadata System Software release 19.3.0 or later. storage of the database server, which increases the usable Add additional database servers, storage servers, or additional racks as needed. Exadata X9Ms storage capacity scales by up to 150X, from 122 TB of usable uncompressed disk storage capacity to over 18 PB. https://k21academy.com/dba-to-cloud-dba/new-update-exadata-x8m-now-available-on-oracle-cloud-oci/, Your email address will not be published. You need to be able to perform a deployment slot swap with preview. Exadata Database Machine consists of database servers, storage servers, and the network components to connect to your network. The following sections describe the hardware components for each type of Oracle Exadata Storage Server: Each Oracle Exadata Storage Server X9M-2 Each server has 2 x22-core processors, each with 11 cores Exadata Database Machine is also available in specific configurations, such as a full rack, half rack, quarter rack or eighth rack. - I managed oracle 10g/11g/12c databases (dev/test/prp/snap/prod/stby) on Linux/HP/AIX/Solaris O.S for combining racks. - Goldengate operations (oracle to oracle , oracle to bigdata (hdfs , kafka)) Up to 920 TB of NVMe flash cache per rack gives customers the performance of flash storage with the capacity and cost of disk storage by eliminating up to 95% of all disk IOs. cards, each with 6.4 TB (raw) Smart Flash Cache and Or, by adding a minimum of three X8M The memory expansion kit is primarily for consolidation workloads where many databases are run on each database server. HC, - 2 six-core processors, each with 3 cores enabled, - 12 PCI flash cards (6 cards enabled) with 2.4 TB Exadata Smart Flash Cache, - 18 x 600 GB 15,000 RPM High Performance disks, OR 18 x 3 TB 7,200 RPM High Capacity disks (6 disks per storage server enabled), 10.8 TB raw storage capacity for high performance disks, or 54 TB raw capacity for The Exadata X8M-2 database applications Database Machine uses powerful database servers, each with two 24-core x86 processors and Uncompressed I/O bandwidth of 384 GB of memory (expandable up to 1.5 TB). 3 Exadata X6-2 storage servers. ports (100GbE). DIMMs, Remove a PCIe Riser From PCIe Slot 1 or 2, Install a PCIe Riser Into PCIe Slot 1 or 2, Remove the PCIe Riser From PCIe Slots 3 and 4, Install the PCIe Riser Into PCIe Slots 3 and 4, Servicing the Internal HBA Card and HBA Super Capacitor, Remove the Internal HBA Card and HBA Super Capacitor, Install the Internal HBA Card and HBA Super Capacitor, Remove the Power, FIM, Temperature Sensor, and Disk Backplane Data Cables, Install the Power, FIM, Temperature Sensor, and Disk Backplane Data Cables, Return the Server to the Normal Rack Position, Configure and Manage BIOS Using Oracle ILOM, BIOS Advanced Menu Serial Port Console Redirection Options, BIOS Advanced Menu NVMe Configuration Options, BIOS Advanced Menu Primary Video Selection Option, BIOS Advanced Menu Trusted Computing 2.0 Options, BIOS Advanced Menu Disk Freeze Lock Settings Option, BIOS Advanced Menu PCH SATA Configuration Options, BIOS Advanced Menu Processor Configuration Options, BIOS Advanced Menu Memory Configuration Options, BIOS Advanced Menu CPU Power Management Configuration Options, BIOS Advanced Menu Error Injection Settings Option, BIOS Advanced Menu T1s Auth Configuration Options, BIOS Advanced Menu RAM Disk Configuration Options, BIOS Advanced Menu iSCSI Configuration Options, BIOS Advanced Menu Intel Virtual RAID on CPU Options, BIOS Advanced Menu Gigabit Network Connection Options, BIOS Advanced Menu Oracle Dual Port 10Gb/25Gb SFP28 Ethernet Controller 3 Exadata X8M-2 storage servers. components: Exadata Database Machine X8M-2 database servers include the following components: Exadata Database Machine X8M-8 database servers include the following components: Oracle Exadata Database Machine X8-2 database servers include the following components: Oracle Exadata Database Machine X8-8 database servers include the following components: Oracle Exadata Database Machine X7-2 database servers include the following components: Oracle Exadata Database Machine X7-8 database servers include the following components: Oracle Exadata Database Machine X6-2 database servers include the following components: Oracle Exadata Database Machine X5-2 database servers include the following components: Oracle Exadata Database Machine X5-8 and X6-8 database servers include the following components: Oracle Exadata Database Machine X4-2 database servers include the following components: Oracle Exadata Database Machine X4-8 Full Rack database servers include the following components: Oracle Exadata Database Machine X3-2 database servers include the following components: Oracle Exadata Database Machine X3-8 Full Rack database servers include the following components: Components of Sun Fire X4170 Oracle Database Servers, Components of Sun Fire X4170 M2 Oracle Database Servers. 1x 24-core processor with all 24-cores enabled. Raw flash capacity: 153.3 TB for EF, or 76.8 TB for HC. There's one more key feature of Gen 2 Exadata Cloud at Customer. Exadata Extended (XT) Storage Server and X8M-2 Extended (XT) servers include the following components: The X8-2 XT server requires Oracle Exadata System Software release 19.2.0 or later. HC. 1 48-port Cisco Catalyst 4948E-F, model number WS-C4948E-F-S Ethernet switch, 2 database servers. X8-8 Full Rack, Half Rack, Quarter Rack, and Eighth Rack, Oracle Exadata Database Machine X7-2 and X7-8 Full Rack, Half Rack, Quarter Rack, and Eighth Rack, Oracle Exadata Database Machine X6-2 Full Rack, Half Rack, Quarter Rack, and Eighth Rack, Oracle Exadata Database Machine X5-2 Full Rack, Half Rack, Quarter Rack, and Eighth Rack, Oracle Exadata Database Machine X5-8 and X6-8, Oracle Exadata Database Machine X4-2 Full Rack, Half Rack, Quarter Rack, and Eighth Rack, Oracle Exadata Database Machine X3-2 Full Rack, Oracle Exadata Database Machine X3-2 Half Rack, Oracle Exadata Database Machine X3-2 Quarter Rack and Eighth Rack, Oracle Exadata Database Machine X3-8 Full Rack with Exadata Storage Server X4-2L Servers, Oracle Exadata Database Machine X3-8 Full Rack with Exadata Storage Server X3-2 Servers, Oracle Exadata Database Machine X2-2 and Oracle Exadata Database Machine X2-8 Full Rack, Oracle Exadata Database Machine X2-2 and Oracle Exadata Database Machine X2-8 Half Rack, Oracle Exadata Database Machine X2-2 and Oracle Exadata Database Machine X2-8 Quarter Rack, Maximum of 22 servers (database and storage) in a Oracle Database In-Memory on Exadata X8M simultaneously creates optimized row and column database formats within a single database instance. Exadata X8M Storage Servers transparently incorporate persistent memory in front of flash memory. Exadata X9M's exclusive capabilities, with the introduction of PCIe 4.0 dual-port active-active 100 Gb RoCE networking, along with the Persistent Memory Data Accelerator developed with Oracle Database, accelerate diverse customer workloads, with up to 27.6 million SQL read IOPS, more than 1 TB/second of SQL throughput, and SQL read latency under 19 microseconds. expandable to 1 TB (16 x 64 GB DIMMs), 1.5 TB (16 x 32 GB and 16 x 64 GB disk group. Thousands of global customers in all industries run business-critical Oracle Database instances on Oracle Exadata, accelerating crucial applications, generating new insights, and reducing TCO. Consolidate core banking transactional and analytical workloads on Exadata for improved data processing performance of 300%. - I have supported for nosql databases (mongo,cassandra,couchbase) Persistent memory mirroring increases reliability. 1x 48-port Cisco Nexus 93108-1G or 9348 Ethernet switch, Raw flash capacity: 358.4 TB for EF, or179.2 TB for HC, Raw flash capacity: 179.2 TB for EF, or 89.6 TB for HC. data that must be kept online. Role-based administration restricts IT team members access to the Exadata database stack, limiting them to the minimum information required to complete their tasks. Latency-sensitive data written to persistent memory in Exadata X9M is automatically mirrored on multiple storage servers so crucial database log writes for customer databases are always protected. You need to provide time-limited access to storage1. - I worked in 24x7 production and test environment. Actual formatted capacity is less. 2 Exadata X8-2 database servers. increase memory capacity for the database servers. Exadata Installation (only for test and education purpose) This post is about installing Exadata storage server while I am preparing for exadata certification. You create the following encryption scopes for storage1: Scope1 that has an encryption type of Microsoft-managed keys , Question 16(2 points) A Wireless Wide Area Network (WWAN) is: Question 16 options: A network that Interconnects devices in a short span, generally within a person's reach. require additional connectivity for client networks, or for 2 Sun Datacenter InfiniBand Switch 36 switches. A memory expansion kit can be installed to increase memory capacity for the database or storage servers. Learn how Exadata reduces customer costs, on-premises and in Oracle Cloud Infrastructure. As a result, IT departments achieve up to 59% lower operational support costs, as highlighted in Wikibons analysis of Exadata TCO (PDF). Check out this data sheet for the full specification overview: https://www.oracle.com/a/ocom/docs/engineered-systems/exadata/exadata-x8-2-ds.pdf Disk Swap in older Exadata models RDMA was introduced to Exadata with InfiniBand and is a foundational part of Exadatas high-performance architecture. However, there is a downside to populating all the memory slots as the frequency of the memory DIMMs drop to 800 MHz from 1333 MHz. Customers address requirements for large shared-memory databases with two or three 192-core database servers with up to 6 TB of memory each and up to 14 storage servers per rack. Capacity is calculated using normal space terminology of 1 TB = 1024 * 1024 * 1024 * 1024 bytes. The Exadata X8M-2 database applications Database Machine uses powerful database servers, each with two 24-core x86 processors and Uncompressed I/O bandwidth of 384 GB of memory (expandable up to 1.5 TB). cards, each with 6.4 TB (raw) storage. Exadata X8M is the latest generation Exadata Database Machine . Flash Cache and 6 x 14 TB 7,200 RPM high capacity The average measured increase in CPU utilization is typically between 5% and 10%. Infiniband based X8 systems can be upgraded with additional X8 database storage servers. By bypassing the network, I/O software, interrupts and context switches, latency is reduced from 250 microseconds to less than 19 microseconds, over 10x improvement. Were sorry. has 2 x 10-core processors, each with 5 cores enabled. Extensive end-to-end testing and validation ensures all components including database software, operating system, firmware, drivers, etc., work seamlessly together and that there Key Features are no performance bottlenecks or single points of failure. 2 Exadata X8-2 database servers. IDC technical brief: A revolution in data management (PDF), Datasheet: Oracle Exadata Database Machine X9M-2 (PDF), Datasheet: Oracle Exadata Database Machine X9M-8 (PDF), Video: Introducing Oracle Exadata X9M (17:29), Wikibon technical brief: Comparing Exadata to DIY systems (PDF), dbInsights technical brief - Oracle Exadata X9M turbocharges analytics and OLTP performance (PDF), ESG technical brief: Exadata storage advantages (PDF), IDC technical brief: Cloud-adjacent Exadata deployments (PDF), Technical brief: Deploying Oracle MAA with Exadata (PDF), ESG technical brief: 10 ways Oracle engineered systems help with GDPR (PDF), DSC technical brief: DIY systems are a waste of effort (PDF), Constellation Research technical brief: Oracle Exadata Fastest for Oracle Database (PDF), Customers Support the Next-Generation Exadata X9M Platforms Announcement, Global Industry Analyst Views on the Exadata X9M Generation, Accelerating SAP deployment and operations on Oracle Exadata Database Machine, ScalabilityPlan for success, not failure, Press Release: Oracle Introduces Next-Generation Exadata X9M Platforms, Infographic: 9 of 10 Largest Financial Services Firms Choose Oracle Exadata (PDF), Virtual Summit: Lowering Costs with Database A memory expansion kit can be installed to And these flash arrays are unable to benefit from Exadatas unique database-aware storage, optimization technologies. Oracle Exadata X8M-2 System Model Specifications. Dual database formats allow customers to quickly perform real-time analytics on production OLTP databases. Exadata X9M allows users to limit the number of active cores in the database servers, reducing required database software licenses. DIMMs), or 2 TB (32 x 64 GB DIMMs) with memory expansion kit, System storage: 2 x 3.84 TB PCIe 4.0 NVMe storage drives, expandable to 4 Virtual Desktop Infrastructure environments, but not for databases. Exadata X9Ms fault-tolerant design and optional resiliency software allow organizations to achieve five-nines availability for business-critical databases when deployed as part of an Oracle Maximum Availability Architecture (MAA) solution. High Capacity (HC) storage servers have 2 PCI flash cards, each with 6.4 TB (raw) Smart Flash Cache and 6 x 10 TB 7,200 RPM high capacity disks. For Analytics and mixed workloads, the combination of persistent memory and RDMA frees up CPU cycles of the storage servers, allowing more processing power for more smart scan operations, and the 100Gb/sec RoCE network gives a higher net throughput for operations that need it. Consolidating diverse workloads with Oracle Multitenant on Exadata X9M enables organizations to reduce IT workloads because there are fewer databases and stand-alone systems to manage. link with appropriate breakout cables. A disk expansion kit can be used to upgrade disk Large enterprises can scale X9M configurations linearly in performance and capacity with up to 12 system and storage expansion racks to meet enterprise-wide database consolidation needs. HC, 100 TB raw storage capacity for high performance disks, or 504 TB raw capacity for Exadata Database Machine is the most versatile database platform. Each server has: 2 eight-core processors, each with 4 cores enabled, 4 PCI flash cards, 2 enabled, each with 1.6 TB (raw) Smart Flash Cache and 12 x 8 TB 7,200 RPM High Capacity (HC) disks, OR, 8 PCI flash drives, 4 enabled, each with 1.6 TB (raw) storage, 2 redundant PDUs (1 phase or 3 phase, high voltage or low voltage), Raw flash capacity: 19.2 TB for EF, or 9.6 TB for HC, 14 Exadata X5-2 storage servers (X6-2 for X6-8), 2 redundant 15 kVA PDUs (single phase or three phase, high voltage or low voltage), 200 TB raw storage capacity for high performance disks, or 672 TB raw capacity for ML algorithms are then used to determine the root causes of problems, enabling IT teams to operate more efficiently. 200 Series), but only 6 modules on, CPU: 1 x 16-core Intel Xeon 8352Y processor (2.2 GHz), RAM: 96 GB (6 x 16 GB DDR4 3200 MT/s DIMMs), Disk storage: 12 x 18 TB hard disk drives (HDD), 2x 16-core Intel Xeon 5218 Processors (2.3GHz), 192 GB RAM (12 x 16 GB DIMMs) full 6 channels, 2 x 240 GB M.2 devices for system partitions (partitioned as 150 GB devices), 12 x 14 TB High Capacity SAS disks, but only 6 drives on Eighth Rack configurations, 2 x 240 GB M.2 devices for system partitions (partitioned to appear as 150 GB devices), 1x 16-core Intel Xeon 5218 Processor (2.3GHz), 96 GB RAM (6 x 16 GB DIMMs) full 6 channels, 2 x 240 GB M.2 devices for system partitions, 2x Intel Xeon Silver 4114 Processors (2.20GHz), 192 GB RAM (12 x 16 GB) full 6 channels, 2 x 150 GB M.2 devices for system partitions, 2 x InfiniBand 4X QDR (40 Gb/s) InfiniBand ports (1 dual-port PCIe 3.0 Host Channel Adapter (HCA)) - all ports active, 2 x 10-Core Intel Xeon CPU E5-2630 v4 (2.2 GHz), 8 x 3.2 TB 2.5-inch flash accelerator F320 PCIe drives, 12 x 8 TB 7.2 K RPM High Capacity SAS disks (in earlier releases, the high capacity disks were 4 TB), 4 x 3.2 TB flash accelerator F320 PCIe card, 2 Eight-Core Intel Xeon CPU E5-2630 v3 (2.40GHz), 8 x 1.6 TB NVMe PCIe 3.0 SSD Extreme Flash disks, 2 InfiniBand 4 X QDR (40 Gb/s) InfiniBand ports (1 dual-port PCIe 3.0 Host Channel Adapter (HCA)), 4 x 1.6 TB flash accelerator F160 PCIe cards, 2 Six-Core Intel Xeon E5-2630 v2 processors (2.6 GHz), 12 x 1.2 TB 10 K RPM High Performance SAS disks or 12 x 4 TB 7.2 K RPM High Capacity SAS disks, 4 x 800 GB Sun Flash Accelerator F80 PCIe Cards, Disk controller HBA with 512 MB battery-backed write cache, and swappable BBU, 2 Six-Core Intel Xeon E5-2630L processors (2 GHz), 12 x 600 GB 15 K RPM High Performance SAS disks or 12 x 3 TB 7.2 K RPM High Capacity SAS disks, 4 x 400 GB Sun Flash Accelerator F40 PCIe Cards, 2 InfiniBand 4 X QDR (40 Gb/s) InfiniBand ports (1 dual-port PCIe 2.0 Host Channel Adapter (HCA)), 2 Six-Core Intel Xeon L5640 processors (2.26 GHz), 12 x 600 GB 15 K RPM High Performance SAS disks or 12 x 3 TB 7.2 K RPM High Capacity SAS disks (in earlier releases, the high capacity disks were 2 TB), 4 x 96 GB Sun Flash Accelerator F20 PCIe Cards, 12 x 600 GB 15 K RPM High Performance SAS disks or 12 x 2 TB 7.2 K RPM SATA disks, 1 x 18 TB disk for High Capacity storage servers Each server Exadata X8M is the latest generation Exadata Database Machine . Juan Loaiza, executive vice president for mission-critical database technologies, introduces Oracle Exadata X9M platforms. 2 Exadata X9M-2 database servers. For the X8M generation, the XT Extended Storage server benefits from the addition of 100Gb/s, This storage option extends the operational and management benefits of Exadata to rarely accessed. - Exadata operations (cell management,upgrade,switchover) The following sections describe the database server components for each type of Oracle Exadata Database Machine: Each Exadata Database Machine Fatih Genali HC, 100 TB raw storage capacity for high performance disks, or 386 TB raw capacity for Oracle Multitenant improves consolidation efficiency, Oracle Database In-Memory accelerates analytics, Low-latency accelerates transaction processing, Intelligent storage improves workload performance, Cell-to-Cell Rebalance Preserves PMEM Cache Population, Control Persistent Memory Usage for Specific Databases, Application Server Update for Management Server. Exadata features a modern cloud-enabled architecture with scale-out high-performance database servers, Oracle Exadata Database Machine X9M-2 scale-out intelligent storage servers with state-of . Start with 128 CPU cores, 4.5 TB of PMEM, and either 44 TB of all-flash or 192 TB of usable HDD storage capacity inclusive of 3-way storage mirroring.
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