Oracle introduced the latest generation of the
Oracle Exadata
platforms, the X10M, delivering unrivaled performance and availability
for all Oracle Database workloads. Starting at the same price as the
previous generation, these platforms support higher levels of database
consolidation with more capacity and offer dramatically greater value
than previous generations. Thousands of organizations, large and small,
run their most critical and demanding workloads on Oracle Exadata
including the majority of the largest financial, telecom, and retail
businesses in the world.
"Our 12th generation Oracle Exadata X10M continues our strategy to
provide customers with extreme scale, performance, and value, and we
will make it available everywhere-in the cloud and on-premises," said
Juan Loaiza, executive vice president, Mission-Critical Database
Technologies, Oracle. "Customers that choose cloud deployments also
benefit from running Oracle Autonomous Database, which further lowers
costs by delivering true pay-per-use and eliminating database and
infrastructure administration."
Available now in both Oracle Exadata Cloud@Customer and Oracle Exadata Database Machine, the new Exadata X10M platforms feature 4th Gen AMD EPYC processors.
With up to 3X more cores in database servers and 2X more cores in
storage servers compared to the previous generation, Exadata X10M
platforms deliver up to 3X higher transaction throughput and up to 3.6X
faster analytic queries. Exadata X10M's high-capacity storage servers
can now hold 22 percent more data, while all-flash storage servers now
offer 2.4X the capacity of the previous systems. In addition, database
servers now support 50 percent higher memory capacity-enabling more
databases to run on the same system.
"AMD EPYC CPUs were designed from the ground up to achieve three key
goals-deliver more performance for complex data center workloads, reduce
latency with larger, better-designed caches, and increase throughput
with more cores per socket. It is ideally suited for mission-critical
database workloads," said Mark Papermaster, executive vice president and
chief technology officer, AMD. "Our engineers worked closely with
Oracle to ensure the Exadata X10M based on 4th generation AMD EPYC
processors, with 96 cores per socket, is a balanced configuration that
enables near-linear scalability and improved energy efficiency for
database workloads."
The combination of improved price performance and more storage and
memory capacity enables greater levels of database consolidation and
dramatically lowers costs for all database workloads. The greater
compute and storage density offered by Exadata X10M platforms also
reduce the size of the systems that customers require to meet their
needs, lowering data center costs for power, cooling, and floor space,
and improving data center sustainability. In addition, with its large
scale, simple expandability, and affordable consumption pricing, Exadata
Cloud@Customer X10M enables customers to easily deploy incremental
development, testing, and production environments without adding servers
or systems.
Organizations can scale out their Exadata X10M infrastructure by
adding individual database or storage servers, allowing them to tailor
their configurations to meet immediate needs and expand them in the
future should those needs change. Oracle's Real Application Clusters
technology uniquely enables scaling and planned maintenance while
databases are fully online for both mission-critical online transaction
processing (OLTP) and data warehouse workloads.
Cloud automation in enterprise data centers with Oracle Exadata Cloud@Customer
Oracle Exadata Cloud@Customer is a key component of Oracle's
distributed cloud strategy, offering customers the benefits of cloud
with greater control over data residency, locality, and authority.
Exadata Cloud@Customer is the only platform that runs both Oracle
Autonomous Database and Oracle Exadata Database Service in customer data
centers. Autonomous Database automates routine, manual data management
tasks including tuning, patching, and provisioning. In addition,
Autonomous Database can automatically scale consumption up and down as
workloads change, allowing organizations to run them faster when demand
increases and reduce resource consumption and costs when demand
decreases. With Autonomous Database, customers avoid over-provisioning
of resources and only pay for their actual consumption.