INTEL 82599_10

Product Brief
Intel® 82599 10 Gigabit Ethernet Controller
Network Connectivity
Intel® 82599 10 Gigabit Ethernet Controller
Transforming the data center through a reliable
and unified 10GbE network
•PCI Express* 2.0, dual port 10 Gigabit Ethernet
controller along with Intel® Xeon® processor 5500
series servers deliver the performance that
demanding applications require.
•Industry-leading product innovations for I/O
virtualization that are ideal for the dynamic
data center.
•Unified networking support simplifies the network
infrastructure by allowing LAN, SAN, and IPC traffic
to share the same data center fabric.
•Energy-efficient design with integrated SFI/KR
PHYs that creates new opportunities for Blades
and LAN-on-motherboard (LOM) solutions.
•High-volume stable architecture with broad
operating system support.
An Intelligent Solution
A number of trends are driving change in the data center.
Information growth continues unabated, server virtualization
requires multi-core servers with higher bandwidth and networked
storage, and power and cooling remains a significant challenge.
These trends are driving IT managers to look for new, optimized
solutions that support the dynamic data center. From a network
perspective, IT managers recognize how the trend towards
10 Gigabit Ethernet (10GbE) will benefit them; they want to
consolidate multiple GbE links into a single 10GbE network to
lower cost and complexity.
Intel’s third-generation 10GbE controller, the Intel® 82599 10 Gigabit Ethernet controller continues to build on the innovative trends
set by its predecessor and pushes the envelope even further.
•Advanced features such as Receive Side Coalescing, Intel®
Ethernet Flow Director, and support for PCI Express* 2.0 help
deliver new levels of 10GbE performance
•Intel® Virtualization Technology1 for Connectivity (Intel® VT-c)
delivers industry-leading I/O virtualization capabilities that
provide flexibility, scalability and mobility
•Advanced unified networking capabilities, including support for
lossless Ethernet, iSCSI acceleration, NAS, and Fibre Channel
over Ethernet (FCoE) offloads help consolidate data center
networks onto a single Ethernet fabric
The Intel 82599 10 Gigabit Ethernet controller along with Intel®
Xeon® processor 5500∆ series-based servers deliver unmatched
performance scalability that signals a new paradigm in the
data center — a paradigm of intelligent solutions that help
manage growth while controlling costs; a paradigm of advanced
virtualization features; and a paradigm of a simple, cost-effective,
unified network.
Best Choice for Virtualization
The Intel 82599 10 Gigabit Ethernet controller includes Intel®
Virtualization Technology for Connectivity (Intel VT-c) to deliver
outstanding performance in virtualized server environments.
Intel VT-c includes hardware optimizations that help reduce I/O
bottlenecks and improve the overall server performance. These
technologies are Virtual Machine Device Queues2 (VMDq) and
Virtual Machine Direct Connect (VMDc). VMDq improves data
processing by offloading the sorting and queuing functionality
to the I/O controller from the VMM. VMDc provides direct connectivity to the VMs to deliver near-native performance and VM
scalability. VMDc also provides flexibility with mobility by enabling
VM migration between physical servers. VMDc is based on the
industry-standard PCI-SIG SR-IOV (Single Root I/O Virtualization).
Unified Networking
Intel 82599 10 Gigabit Ethernet controller reduces cost and
complexity of the data center by combining LAN and SAN traffic
onto a single Ethernet fabric. Customers can use iSCSI, NAS or
FCoE to carry storage traffic over Ethernet. In order to meet
SAN requirements for guaranteed packet delivery, the controller
implements capabilities such as enhanced transmission selecting
and priority flow control. The controller accelerates iSCSI traffic by
implementing key stateless offloads such as TCP segmentation
offload (TSO) and Receive Side Coalescing (RSC). It also supports
the trusted iSCSI initiators from Microsoft, Linux,* and VMware
operating systems and provides a robust iSCSI remote boot
implementation. Further, the Intel 82599 10 Gigabit Ethernet
controller delivers a high performing FCoE solution that offloads
the main data paths for I/O read and write commands. It also
greatly reduces CPU processing on FCoE receive traffic by eliminating a data copy through Direct Data placement implementation.
Features
Integrated Solution for LAN
on Motherboard (LOM)
The Intel 82599 10 Gigabit Ethernet controller it is a single-chip,
dual-port 10GbE implementation in a 25x25 mm package. It
reduces BOM cost and design complexity by integrating serial
10GbE PHYs and provides both SFI and KR interfaces. The device
is designed for high performance and lower memory latency.
Wide internal data paths eliminate performance bottlenecks by
efficiently handling large address and data words. The controller
also includes advanced interrupt-handling features and uses
efficient ring-buffer descriptor data structures, with up to 64
packet descriptors. A large on-chip packet buffer maintains superior
performance. The controller enables network manageability
implementations required by IT personnel for remote control
and alerting. The communication to the Board Management
Controller (BMC) is available either through an on-board System
Management BUS (SMBus) port or though the DMTF-defined NC-SI.
With industry-leading power consumption, a small footprint, and
integrated PHYs, the controller is ideally suited for Server Blades,
LAN on motherboard (LOM), NIC, and Mezzanine card implementations. The advanced features of the Intel 82599 10 Gigabit
Ethernet controller along with the Intel Xeon processor 5500
series enable customers to scale volume servers to fully utilize
and scale to 10GbE capacity.
Benefits
Host Interface Features
PCI Express* 2.0 (5 GT/s)
• Supports x8, x4, x2, x1 lanes
• Supports extended error reporting and completion timeout control
Compatible extensions to PCI power management and ACPI
• Efficient power management
End to End CRC (ECRC)
• Higher reliability on PCI bus traffic
Network Interface Features
XAUI, KX/KX4, BX, CX4
• Multiple interfaces for design flexibility
10GBASE-KR
• Serial 10GbE backplane interface for simpler blade implementation
• Support for Auto-negotiation and PCS layer
SFP+ MSA (SFI)
• Native support for SFI interface
• Saves BOM cost and reduces design complexity by integrating XAUI to SFI PHYs
NC-SI Interface
• Management interfaces for pass-through traffic to and from manageability controller
100 Mbps/1 Gbps/10 Gbps speeds
• Triple-speed support for backward-compatible implementations
10 Gigabit MAC Advanced Features
Dual configurable first-in/first-out (FIFO) buffers for each port:
160 KB Transmit (Tx) and 512 KB Receive (Rx)
• No external FIFO memory requirements
• FIFO size adjustable to application
• Error detection and correction for FIFO data
Support for transmission and reception of packets up to
15.5 KBytes (Jumbo Frames) in basic mode and 9.5 Kbytes
packets when DCB or Virtualization is enabled.
• Enables higher and better throughput of data
Programmable host memory receive buffer per queue
(1 KByte to 16 KBytes) and cache line size (64 Bytes
to 128 Bytes)
• Efficient use of PCI Express bandwidth
Descriptor ring management hardware for Tx/Rx optimized
descriptor fetching and write-back mechanisms
• Simple software programming model
• Efficient use of system memory and PCI Express bandwidth
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Features
Benefits
10 Gigabit MAC Advanced Features
Auto-negotiation support as defined in IEEE 802.3ap clause 73
• Provides automatic configuration between 1000BASE-KX, 10GBASE-KX4, and
10GBASE-KR modes
• Improves performance and reliability
IEEE 802.3*-compliant flow-control support with softwarecontrollable pause times and threshold values
• Frame loss reduced from receive overruns
• Control over the transmissions of pause frames through software or hardware triggering
Integrated LinkSec security engines (IEEE 802.1ae): AES-GCM
128bit; Encryption + Authentication; One SC x 2 SA per port.
Replay Protection with Zero Window
• Provides end-to-end Layer 2 data protection between the host and the destination.
• It provides encryption and authentication at every hop along the network (i.e., servers,
switches and clients)
Integrated IPsec security engines: AES GCM 128 bit; AH or ESP
encapsulation; IPv4 and IPv6 (no option or extended headers)
• Provides end-to-end Layer 3 data protection between the host and the destination
• It offloads the encryption engine to provide line rate throughput in an IPsec environment
Time Sync (IEEE 1588, 802.1as)
• Lets networked Ethernet equipment synchronize internal clocks according to a network
master clock
• Endpoint can then acquire an accurate estimate of the master time by compensating for
link latency
LAN Performance Features
Tx/Rx IP, TCP, and UDP checksum offloading (IPv4, IPv6)
capabilities (IPv4, IPv6)
• Lower processor utilization
• Checksum and segmentation capability extended to new standard packet type
Tx TCP segmentation offload (IPv4, IPv6)
• Increased throughput and lower processor utilization
IPv6 offloading
• Checksum and segmentation capability extended to new standard packet type
TSO Interleaving for Reduced Latency
TCP Receive Side Coalescing (RSC) for up to 32 flows/port
• Lowers CPU utilization by reducing overhead
MSI-X support
• Minimizes the overhead of interrupts
• Allows load balancing of interrupt handling between different cores/CPUs
Mechanism available for reducing interrupts generated
from Tx/Rx operations
• Maximizes system performance and throughput
Low latency interrupts
• Provides the ability to toggle between interrupt aggregation and non-aggregation mode
based on the type of data being transferred
Receive Side Scaling for Windows environments and
Scalable I/O for Linux* environments (IPv4, IPv6, TCP/UDP)
• Multiple Rx queues
Intel® Ethernet Flow Director
Supports advanced filters that direct receive packets by
their flows to different queues
• Enables tight control on routing a flow in the platform. Matches flows and CPU cores for
flow affinity
• Supports multiple parameters for flexible flow classification and load balancing
Optimized queues: 128 Transmit (Tx) and Receive (Rx)
• Network packet handling without waiting or buffer overflow
• Efficient packet prioritization
Header split and replication in receive
• Helps the driver to focus on the relevant part of the packet without the
need to parse it
IEEE 802.1q virtual local area network (VLAN) support with
VLAN tag insertion, stripping and packet filtering for up to
4096 VLAN tags
• Ability to create multiple VLAN segments
Double VLAN
• Used for systems where the switches add an additional tag containing switching information
Virtualization Features
Virtual Machine Data Queue2 (VMDq)
• Allows the efficient routing of packets to the correct target virtual machine in a virtualized
environment using multiple hardware queues
Virtual Machine Direct Connect (VMDc)
• Enables direct I/O connectivity to the virtual machines bypassing the virtual switch in the VMM
• Enables VM migration capability across two physical servers
• Based on industry-standard PCI-SIG SR-IOV
Packet Loopback
• Enables the I/O silicon to route the data packets between the VMs within the same server
instead of having to go out on the wire and come back to the same server
• Lowers CPU utilization and improves latency
Unified Networking Features
Enhanced Transmission Selection (draft IEEE 802.1az)
• Resource allocation per virtual link to provide differentiation among different traffic types
(LAN, SAN, and IPC)
Priority Flow Control (draft IEEE 802.1Qbb)
• Enables finer grain control of traffic for virtual links associated with Priority group. Enables
“no-drop” behavior on Ethernet for critical storage traffic
FCoE Transmit Segmentation
• Transmit segmentation enables the FCoE initiator to transmit multiple FCoE packets up to a
complete FC sequence with a single header in host memory (single instruction), thus reducing
CPU overhead
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Features
Benefits
Unified Networking Features
FCoE Tx/Rx CRC offload
• Offloads receive FC CRC integrity check while tracking the CRC bytes and FC padding bytes
FCoE Coalescing and Direct data placement
• S aves CPU cycles by reducing the data copy and also minimizes CPU processing by posting
only the packet’s headers that are required for software
iSCSI Acceleration
• Lower processor utilization using TCP checksum offloading
• Increased throughput through TCP Segmentation Offload
• TCP Receive-Side Coalescing
iSCSI boot
• Enables system boot up via iSCSI
• Provides additional network management capability
Manageability Features
DMTF NC-SI pass through
• Industry standard for BMC interface
• Allows fast data rates (up to 100 Mb/s full duplex)
• Better capabilities (video redirection)
• Extended filtering capabilities
SMBus pass through
• Supports pass through over the SMBus interface
• Supports data rates of up to 400 KHz
• Allows serial redirection and IPMI traffic redirection to BMC
Advanced filtering capabilities (IPv4, IPv6)
• Supports extended L2, L3 and L4 filtering for traffic routing to BMC
• Supports MAC address, VLAN, ARP, IPv4, IPv6, RMCP UDP ports, UDP/TCP ports filtering
• Supports flexible header filtering
• Allows the BMC to share the MAC address with the host OS
Preboot eXecution Environment (PXE) flash interface support
• Enables system boot up via the LAN (32 bit and 64 bit)
• Flash interface for PXE image
Simple Network Management Protocol (SNMP) and Remote
Network Monitoring (RMON) statistic counters
• Easy system monitoring with industry-standard consoles
Wake-on-LAN support
• Packet recognition and wake-up for LAN on motherboard applications
without software configuration
MDIO – internal management interface
• Enables the MAC and software to monitor and control the PHY
Additional Device Features
Four outputs on each port that directly drive LEDs • Link and activity indications on each port
JTAG (IEEE 1149.1*) test access port built-in silicon
• Simplified testing using boundary scan
• Supports the IDCODE instruction
Characteristics
Electrical
Typical targeted power dissipation
Environmental
Operating temperature
• 5.1W (10GBase-KX4)
• 5.5W (10GBase-KR)
• 0° to 70° C (with thermal management)
Physical
Implemented in 65nm complementary metal-oxide
semiconductor (CMOS) process • Offers lowest geometry to minimize power and size while maintaining quality and reliability
Package
• 25 mm x 25 mm 576-pin Flip-Chip Ball Grid Array (FC-BGA) package
Order Codes
82599EB (Base SKU) – JL82599EB
82599ES (Serial SKU) – JL82599ES
To see the full line of Intel Ethernet Controllers, visit www.intel.com/network/connectivity
For more information, contact your Intel sales representative.
Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number for details.
Intel® Virtualization Technology requires a computer system with an enabled Intel® processor, BIOS, virtual machine monitor (VMM) and, for some uses, certain platform software enabled for it. Functionality, performance or other
benefits will vary depending on hardware and software configurations and may require a BIOS update. Software applications may not be compatible with all operating systems. Please check with your application vendor.
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VMDq requires a virtualization operating system that supports VMDq.
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Copyright © 2009 Intel Corporation. All rights reserved.
Intel, the Intel logo, and Xeon are trademarks of Intel Corporation in the U.S. and other countries.
*Other names and brands may be claimed as the property of others.
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