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Introduction
Second-Generation
AMD Opteron™ processors with Direct
Connect Architecture introduce several
new features including quad-core upgradeability,
AMD Virtualization™ (AMD-V™),
and energy efficient DDR2 memory. In
addition, Second-Generation AMD Opteron
processors are designed to advance AMD’s
performance-per-watt capabilities and
leverage the proven technologies introduced
in 2003 with first-generation AMD Opteron
processors.
Second-Generation
AMD Opteron processors are offered in
three series: the 1000 Series (up to
1P/2-core), the 2000 Series (up to 2P/4-core),
and the 8000 Series (4P/8-core to 8P/16-core).
The 1000 Series is built on AMD’s
new Socket AM2. The 2000 Series and
8000 Series are built on AMD’s
new Socket F (1207).
Second-Generation
AMD Opteron™ Processor Benefits
Second-Generation
AMD Opteron™ processors with DDR2
memory extend the industry-leading performance
trajectory established by first-generation
AMD Opteron processors while offering
a seamless upgrade path to quad-core
performance and leading-edge solutions
to help run your business applications.
AMD
Opteron processors feature a Common
Core Architecture that is consistent
across 1-way, 2-way, 4-way, and 8-way
systems and is also consistent with
previous AMD Opteron processors, helping
minimize the cost of transition and
maximize past investments in software
optimization.
AMD64
technology
-
Runs existing installed base of 32-bit
applications and operating systems
at peak performance, while providing
a 64-bit capable migration path
- Designed
to enable 64-bit computing while remaining
compatible with the vast x86 software
infrastructure
- Enables
a single architecture across 32- and
64-bit environments
Direct
Connect Architecture
-
AMD’s revolutionary Direct Connect
Architecture helps eliminate the bottlenecks
inherent in traditional front-side
bus architectures
- Direct
Connect Architecture connects the
processors, integrated memory controller,
and I/O directly to the CPU and communicates
at CPU speed
- HyperTransport™
technology provides a scalable bandwidth
interconnect between processors, I/O
subsystems, and other chipsets, with
up to three coherent HyperTransport
technology links providing up to 24.0
GB/s peak bandwidth per processor
- Integrated
Memory Controller on-die DDR2 DRAM
memory controller offers available
memory bandwidth up to 10.7 GB/s (with
DDR2-667) per processor
Quad-core
upgradeability
-
AMD Opteron processors with DDR2 memory
are designed to offer a seamless upgrade
path from dual-core to quad-core when
they are available in 2007 in the
same thermal envelope to help leverage
existing investments
- Maintain
the same platform at the same power
efficiency
AMD
Virtualization™ (AMD-V™)
-
Hardware assisted AMD Virtualization™
and Direct Connect Architecture provide
a balanced approach to help improve
virtualization performance, enabling
more virtual machines to run per server
- AMD-V™
reduces overhead by selectively intercepting
instructions destined for guest environments
- Direct
Connect Architecture helps guests
run at near native speed
- Virtualization-aware
integrated memory controller provides
efficient isolation of virtual machine
memory
Enhanced
performance-per watt
-
Energy-efficient DDR2 memory uses
up to 30% less power than DDR1 and
up to 58% less power than FBDIMM
- AMD
PowerNow!™ technology with Optimized
Power Management can deliver performance
on demand while minimizing power consumption
- Consistent
standard power roadmap with low-power
options
- DDR2
platforms can upgrade to quad-core
AMD Opteron™ processors in 2007
within existing thermal bands for
significantly better performance-per-watt
| Feature
|
Benefit
|
|
Direct Connect Architecture |
Helps eliminate the bottlenecks
inherent in front-side bus architectures.
High-throughput responsiveness and
scalability for your applications
to improve overall system efficiency.
|
| Up
to three coherent HyperTransportT
technology links yield up to 24.0
GB/s peak bandwidth per processor |
High-speed,
bi-directional, low latency, point-to-point
communication link provides a scalable
bandwidth interconnect between computing
cores, I/O subsystems, and other
chipsets. |
| Integrated,
on-die memory controller |
Optimizes
memory performance and bandwidth
per CPU. Memory bandwidth scales
with the number of processors. |
| Seamless
upgrade path to quad-core performance |
Take
advantage of leading-edge multi-core
solutions today, and continue to
leverage existing investments tomorrow. |
| Upgrade
to quad-core in the same thermal
envelope (availability in 2007) |
Increase
computing capacity without altering
datacenter infrastructure. |
Hardware-assisted
AMD VirtualizationT |
Helps
streamline virtualization deployment,
improves virtualization support
and helps guest x86 OSes run unmodified
at industry leading execution speeds. |
| Integrated
memory controller is virtualization
aware |
Enhances
virtualization and provides efficient
isolation of virtual machine memory
for improved security and support
of virtual users. |
|
Energy-efficient DDR2 memory |
Greater memory bandwidth with improved
RAS (reliability, availability,
serviceability) and cost savings.
Introduced at a time when it makes
sense for server and workstation
customers. |
|
AMD PowerNow!T technology with Optimized
Power Management |
Aids in platform investment protection
in today's demanding enterprise
server environments. Puts less strain
on datacenter cooling and ventilation
systems. |
|
Spans from 1P/2-core up to 8P/16-core
across a single architecture |
Allows SMB-to-enterprise users to
standardize and streamline IT support
requirements and scale as business
demands require. |
Specifications
| Second-Generation
AMD OpteronT Details |
| Second-Generation
AMD OpteronT Processor Model 221 |
| 2212 |
| OSA2212CXWOF |
| OSA2212GAA6CQ |
| F3 |
| 2.0GHz |
| 1000MHz |
| 2.0GHz |
| 1.30
V/1.35 V |
| 55°C
to 72° C |
| 95.0W |
| 2
MB |
| 2.0GHz |
| .09
micron SOI |
| Socket
F (1207) |
| 70.0
A |
| 2 |
|
