Mellanox Technologies MC2210130-003 Datasheet

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July 2011
Corporate Style and Branding Guide
CORPORATE STYLE GUIDE
2 | Mellanox Technologies | July 2011
PAGE 1
LOGOTYPE
SIGNATURE
GRAYSCALE LOGO
Corporate Logo Usage
CORPORATE LOGO/SIGNATURE
The Mellanox Technologies signature is used to
represent the organization in all its activities. This
signature is the foundation to our identity and exists on
a wide variety of media and marketing materials.
The Signature consists of two elements:
1. the symbol
2. the logotype
Because the signature is a registered trademark, the
relationship between these elements should never be
altered. This ensure legal protection, builds recognition
and reinforces our positioning.
CORPORATE 2-COLOR LOGO/SIGNATURE
PMS 274 Blue
60% Black
100% Black
60% Black
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 3
CMYK CONVERSION
COLOR CYAN MAGENTA YELLOW BLACK
Blue 100 100 0 28
Gray 0 0 0 60
RGB CONVERSION
COLOR RED GREEN BLUE
Blue 34 31 114
Gray 130 130 130
WEB CONVERSION
COLOR RED GREEN BLUE
Blue 22 1F 72
Gray 82 82 82
LOGO VARIATIONS
Corporate Logo Usage
These acceptable variations of the corporate logo
should only be used when space or application dictate
its use.
The horizontal version is used as an EXCEPTION.
CORPORATE STYLE GUIDE
4 | Mellanox Technologies | July 2011
LOGO CLEAR SPACE
X
X
LOGO MINIMUM SIZE
No smaller than 1”
No smaller than 1.5”
STACKED LOGO
HORIZONTAL LOGO
Logo Clear Space and Size
The signature should always be surrounded by an adequate amount of
clear space in order to set it off from other elements.
The gray area (see illustration at left) indicates the minimum amount of
clear space that must surround the signature in all applications. No other
elements should infringe in the clear space.
Exceptions require approval prior to use.
Minimum clear space is specied in units of “X.” X equals the height of
the “x” in Mellanox.
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 5
LOGO USAGE GUIDELINES
This is the ofcial corporate logo.
The Logo should be used as a single unit. The logotype should
never be used alone, but should always have the logo mark
(bridge).
The signature or logotype should NEVER by used separately.
Do not rearrange or stack the logo mark and
logotype.
Do not change the colors of the logo or logotype.
Logo Usage
CORPORATE STYLE GUIDE
6 | Mellanox Technologies | July 2011
Do not tilt or skew logo.
Do not enlarge or shrink the logo or the logotype
separately.
Do not place logo on a background or backgrounds
with conicting colors.
White is the recommended background.
LOGO USAGE GUIDELINES
Logo Usage
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 7
PRODUCT/TECHNOLOGY LOGOS
OTHER MELLANOX LOGOS
Secondary and Product Logos
Mellanox product or secondary logos should also be used with the
same requirements as the corporate logo.
They should always be surrounded by an adequate amount of
clear space in order to set it off from other elements.
The Logo should be used as a single unit.
Do not rearrange or stack the logo mark and logotype.
Do not change the colors of the logo or logotype.
Do not tilt or skew logo.
Do not enlarge or shrink the logo or the logotype separately.
Do not place logo on a background or backgrounds with
conicting colors.
White is the recommended background.
CORPORATE STYLE GUIDE
8 | Mellanox Technologies | July 2011
FONTS
LEGACY FONTS
Bell Gothic Std LIGHT
Bell Gothic Std Medium
Bank Gothic BT LIGHT
Bank Gothic BT Medium
Bell Gothic Std typeface is primarily used for Speciality
Headlines and Subheads larger than 11 pt.
Bell Gothic should not be used for body copy or type
smaller than 12 pt unless used in ALL CAPS
Use -30 Horizontal tracking/kerning
Bank Gothic BT typeface can be used for Speciality
Headlines and Subheads larger than 14 pt. This is a legacy
fonts that has been used prior to 2010, and has been
replaced by Bell Gothic Std. but it is still acceptable to
use.
Bank Gothic should never be used for body copy because
of it’s ALL CAPS nature.
BELL GOTHIC STD LIGHT
BELL GOTHIC STD MEDIUM
Bank Gothic BT LIGHT
Bank Gothic BT Medium
Univers LT 39 Thin Ultra Condensed
Univers LT 45 Light
Univers LT 45 Light Oblique
Univers LT 47 Condensed Light
Univers LT 47 Condensed Light Oblique
Univers LT 53 Extended
Univers LT 53 Extended Oblique
Univers LT 55 Roman
Univers LT 55 Oblique
Univers LT 57 Condensed
Univers LT 57 Condensed Oblique
Univers LT 59 Ultra Condensed
Typography
Univers LT (True Type Version) is the primary fonts used on all corporate materials.
Arial or Helvetica may be substituted for Univers for online applications and PowerPoint
Univers LT 63 Bold Extended
Univers LT 63 Bold Extended Oblique
Univers LT 65 Bold
Univers LT 65 Bold Oblique
Univers LT 67 Bold Condensed
Univers LT 67 Bold Condensed Oblique
Univers LT 73 Black Extended
Univers LT 73 Black Extended Oblique
Univers LT 75 Black
Univers LT 75 Black Oblique
Univers LT 85 Extra Black
Univers LT 85 Extra Black Oblique
Univers LT 93 Extra Black Extended
Univers LT 95 Extra Black Extended
Oblique
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 9
SECONDARY CORPORATE COLORS
COLOR CYAN MAGENTA YELLOW BLACK
PMS 138 GOLD 0 30 100 0
30% BLACK 0 0 0 30
COLOR RED GREEN BLUE
PMS 138 GOLD 253 185 19
30% BLACK 190 190 190
Color Palette
SUGGESTED COLOR COMBINATIONS - 3 COLOR
SUGGESTED COLOR COMBINATIONS - 4 COLOR
OTHER AVAILABLE COLORS
COLOR CYAN MAGENTA YELLOW BLACK
PMS 282 BLUE 100 68 0 55
PMS 282 BLUE - 60% 60 40 0 32
PMS 371 GREEN 43 0 100 56
PMS 159 ORANGE 0 66 100 7
PMS 284 LIGHT BLUE 55 19 0 0
PMS 7545 BLUE GRAY 23 2 0 63
COLOR RED GREEN BLUE
PMS 282 BLUE 0 45 98
PMS 282 BLUE - 60% 80 102 147
PMS 371 GREEN 79 111 25
PMS 159 ORANGE 227 111 30
PMS 284 LIGHT BLUE 108 173 223
PMS 7545 BLUE GRAY 92 111 124
PMS
274
PMS
274
60%
BLACK
60%
BLACK
PMS
282
PMS
282
PMS
138
PMS
138
60%
PMS
282
PMS
282
60%
PMS
282
PMS
274
PMS
274
60%
BLACK
60%
BLACK
PMS
371
PMS
284
PMS
284
60%
PMS
282
PMS
274
PMS
274
PMS
282
PMS
284
PMS
159
PMS
159
PMS
371
PMS
371
PMS
7545
CORPORATE STYLE GUIDE
10 | Mellanox Technologies | July 2011
A trademark is a word, phrase, logo, symbol
or design, or a combination of these elements,
used to identify or distinguish the goods and
services of one company or individual from
others.
Using the trademark properly is necessary
in order to demonstrate that a mark is
used in commerce, which is a fundamental
requirement for trademark ownership in the
United States.
TRADEMARKS
FabricIT
MLNX-OS
SwitchX
REGISTERED TRADEMARKS
Mellanox
BridgeX
ConnectX
CORE-Direct
InniBridge
InniHost
InniScale
PhyX
Virtual Protocol Interconnect
Voltaire
Trademarks, Registered Trademarks and Copyrights
Always use the mark as an adjective
It is very important to always use the marks as adjectives and
always with the generic terms which they modify. A trademark
should never be use it as a noun or a verb.
INCORRECT:
ConnectX
®
is the best adapter on the market..
CORRECT USE:
ConnectX
®
adapters are the best on the market.
Avoid plural or possessive forms of the mark
Never use a mark in the plural form or the possessive form.
Never hyphenate trademarks
INCORRECT:
ConnectX
®
-compatible adapters are the best on the market.
CORRECT USE:
“ConnectX
®
compatible adapters are the best on the market.
Appropriate placement of trademarks within text
Generally, the mark must be used with the rst or most prominent
appearance of a trademark in a publication or document, but need
not be used with each subsequent appearance. As a safeguard,
use additional markings rather than fewer within a document.
Trademark Attribution Statement
For publications containing third party trademarks, it is typical
practice to provide a trademark attribution statement in small print
at the end of the specic article. Below is the trademark statement
that should be on all Mellanox marketing collateral.
Mellanox, BridgeX, ConnectX, CORE-Direct, InniBridge, InniHost,
InniScale, PhyX, Virtual Protocol Interconnect and Voltaire are
registered trademarks of Mellanox Technologies, Ltd. FabricIT,
MLNX-OS and SwitchX are trademarks of Mellanox Technologies,
Ltd. All other trademarks are property of their respective owners.
Copyright Notice
The notice should always contain:
1. The symbol © (the letter C in a circle), or the word “Copyright”;
2. The year of rst publication of the work; and
3. The name of the owner of copyright in the work.
EXAMPLE: © 2011 Mellanox Technologies.
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 11
PRINT COLLATERAL
Mellanox has many types of marketing collateral, signage, multimedia
and technical documents. All collateral should follow corporate branding
guidelines, colors, fonts and established templates when available.
Detailed specications for the Product Briefs and Case Studies and can be
found on starting page 13. All documents follow similar layouts, fonts
and specications. Samples without detailed specications only indicated
attributes that are different or unique for that document.
Some of the standard document element are in an InDesign library.
All standard documents should be created and maintained in Adobe InDesign
unless otherwise indicated.
DOCUMENT NUMBERS
The following documents should always contain a document number on the
last page in the lower right corner. They should follow this format:
Product Briefs = XXXXPB Rev 1.0
Solution Brief’s = XXXXSB Rev 1.0
White Paper = XXXXWP Rev 1.0
Case Studies = XXXXCS Rev 1.0
Data Sheets= XXXXDS Rev 1.0
ILLUSTRATIONS AND MULTIMEDIA
Mellanox has developed illustrations and icons to be used in PPT and other
collateral. In order to maintain consistency in imagery it is important to use the
established illustrations and icons whenever possible.
Illustration and icon examples can be found on starting on page 22.
Mellanox also utilizes Flash, animation and video for marketing purposes. It is
also recommended that the corporate branding, colors and fonts be used as
much as possible.
Documents and Marketing Collateral
The following documents have
pre-established templates:
> Product Briefs
> Solution Briefs
> Case Studies
> White Papers
> Datasheets
> Technology Sheets
> Reference Guides
> Product Brochures
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CORPORATE STYLE GUIDE
12 | Mellanox Technologies | July 2011
Documents and Marketing Collateral
COLOR DESIGNATIONS
Some of the Mellanox documentation and marketing collateral follow a color convention for specic product families or
technologies. Below is the color designation and the product area associated with the color.
Mellanox Product Briefs and Product Brochures follow the color convention.
PMS 282
Switches, Gateways,
Switch Silicon, Gateway Silicon, Phy Silicon
PMS 371
Ethernet and InniBand Adapter Cards,
Ethernet Adapter Silicon
PMS 159
Software
PMS 7545
Cables, Modules
PRODUCT BRIEF
350 Oakmead Parkway, Suite 100, Sunnyvale, CA 94085
Tel: 408-970-3400 • Fax: 408-970-3403
www.mellanox.com
© Copyright 2011. Mellanox Technologies. All rights reserved.
Mellanox, BridgeX, ConnectX, CORE-Direct, InniBlast, InniBridge, InniHost, InniRISC, InniScale, InniPCI, PhyX, Virtual Protocol Interconnect and Voltaire are registered trademarks of Mellanox Technologies, Ltd.
FabricIT is a trademark of Mellanox Technologies, Ltd. All other trademarks are property of their respective owners.
CABLES
HIGHLIGHTS
Overview
Mellanox active optical modules provide outstanding performance for high-bandwidth fabrics, extending
the benets of Mellanox’s high-performance InniBand and 10 Gigabit Ethernet adapters throughout the
network. In addition to meeting or exceeding IBTA and IEEE standards, Mellanox certied modules are
100% tested on Mellanox equipment to ensure optimal signal integrity and the best end-to-end perfor-
mance. Mellanox QSFP module uses MTP/MPO connector type to connect an OM3/OM4 ber cable.
Mellanox SFP+ modules use LC connector type to connect to single mode or multi mode ber cable.
Mellanox optical solutions provide short, medium and long range scalability for all topologies, utilizing
innovative optical technologies to enable extremely high signal integrity and reliability. Rigorous produc-
tion testing ensures best out-of-the-box installation experience, performance and durability.
Table 1 - Module Specications and Ordering Information
Form Factor Targeted Application Max Power Consumption [W] Data Rate [Gb/s]
Min | Max
Part Number
QSFP 40Gb/s, QDR, InfiniBand 1.7 2.5 10.0 MFM4R12C-MFM
SFP/SFP+ 10GigE, 10GBase-SR 1 9.95 10.5 MFM1T02A-SR
SFP/SFP+ 10GigE, 10GBase-LR 1 9.95 10.5 MFM1T02A-LR
Table 2 - Absolute Maximum Ratings
Parameter Range
Supply Voltage 3.45V
Operating Case Temperature 0°C to 70°C
Storage Ambient Temperature -10°C to 75°C
Table 3 - Operating Conditions
Parameter Minimum Typical Maximum Units
Supply Voltage 3.15 3.3 3.45 V
Input Voltage -0.3 3.6 V
Humidity (RH) 5 85 %
Active Optical Modules
Warranty Information
The Mellanox optical modules include a 1-year limited hardware warranty, which covers parts repair or
replacement.
Additional Information
For more information about Mellanox cable solutions, please contact your Mellanox Technologies sales
representative or visit: http://www.mellanox.com=>Products=>Cables=>Cables Overview
Low power consumption
Compliant with SFF-8436
Compliant with SFF-8431
Compliant with SFF-8432
Low insertion loss
BER Better than 10
-15
Tested in Mellanox’s end-to-end
environment
RoHS 6 compliant
©2011 Mellanox Technologies. All rights reserved.
PRODUCT BRIEF
ETHERNET
ADAPTER CARDS
ConnectX-2 EN 40 Gigabit Ethernet Network Interface Card (NIC) delivers
breakthrough connectivity for servers and storage. IT managers will be
able to build out high-bandwidth fabrics for next generation data centers
enabling the highest platform efciency and CPU utilization. Virtualized
environments will benet as well from the hardware-based accelerations
enabling more virtual machines per server and superior application
performance.
The single port ConnectX-2 EN 40G adapter
comes with a QSFP connector suitable for use
with copper or ber optic cables.
World-Class Ethernet Performance
ConnectX-2 EN 40G with PCI Express 2.0 delivers
industry-leading Ethernet bandwidth required by
multi-core, multi-socket platforms. Hardware-
based stateless ofoad engines handle the TCP/
UDP/IP segmentation, reassembly, and checksum
calculations that would otherwise burden the
host. Total cost of ownership is optimized by
maintaining an end-to-end Ethernet network on
existing operating systems and applications.
Converged Ethernet
ConnectX-2 EN 40G delivers the features needed
for a converged network with support for Data
Center Bridging (DCB). Fibre Channel frame
encapsulation compliant with T11 and hardware
ofoads simplies FCoE deployment. RDMA over
Converged Ethernet (RoCE) running over DCB
fabrics provides efcient low latency RDMA
services. The RoCE software stack maintains
existing and future compatibility with bandwidth
and latency sensitive applications. By maintaining
link-level interoperability with existing Ethernet
networks, IT managers can leverage existing data
center fabric management solutions.
I/O Virtualization
ConnectX-2 EN 40G supports hardware-based
I/O virtualization, providing dedicated adapter
resources and guaranteed isolation and protec-
tion for virtual machines (VM) within the server.
ConnectX-2 EN 40G gives data center managers
better server utilization and LAN and SAN unica-
tion while reducing costs, power, and complexity.
Quality of Service
Resource allocation per application or per VM
is provided by the advanced QoS supported by
ConnectX-2 EN 40G. Service levels for multiple
trafc types can be based on IETF DiffServ or IEEE
802.1p/Q, along with the Data Center Bridging
enhancements, allowing system administrators
to prioritize trafc by application, virtual machine,
or protocol. This powerful combination of QoS
and prioritization provides the ultimate ne-grain
control of trafc – ensuring that applications run
smoothly in today’s complex environment.
ConnectX
®
-2 EN 40G
40 Gigabit Ethernet Adapter with PCI Express 2.0
BENEFITS
40Gb/s connectivity for servers and
storage
Industry-leading throughput and latency
performance
I/O consolidation
Virtualization acceleration
High-performance networking and
storage access
Software compatible with standard
TCP/UDP/IP and iSCSI stacks
KEY FEATURES
Single 40GigE port
•
QSFP for copper or ber connections
PCI Express (up to 5GT/s)
RDMA over Converged Ethernet (RoCE)
Data Center Bridging support
T11 FCoE frame support
TCP/UDP/IP stateless ofoad in
hardware
Trafc steering across multiple cores
Hardware-based I/O virtualization
Intelligent interrupt coalescence
Advanced Quality of Service
Interoperable with 10GigE fabrics,
using QSA
RoHS-R6
HIGHLIGHTS
©2011 Mellanox Technologies. All rights reserved.
PRODUCT BRIEF
SOFTWARE
MLNX-OS™ is a switch-based software tool that enables the
management and conguration of Mellanox SX6000 switch platforms
providing optimal performance for cluster computing, enterprise data
centers (EDC) and cloud computing.
The switch management capabilities ensures
the highest fabric performance while the chassis
management ensures the longest switch up time.
With MLNX-OS running on Mellanox’s switches,
IT managers will see a higher return on their
compute as well as infrastructure investment
through higher CPU productivity due to higher
network throughput and availability.
Switch Chassis Management
Mellanox advanced chassis management software
provides all the parameters and information IT
manager will need including: port status with
event and error logs, graphical CPU load display,
graphical fan speed over time display, power
supplies voltage alarms, graphical internal
temperature display with alarm notication and
more. These chassis management capabilities will
ensure low switch maintenance and high network
availability.
Subnet Management
MLNX-OS subnet management provides a
reliable and scalable management solutions
for cluster and data center fabrics. Its modular
design integrates the subnet manager (SM) with
advanced features simplifying cluster bring up and
node initialization through automatic discovery
and conguration. The performance monitors
measure the fabric characteristics to ensure the
highest effective throughput. For ease of use,
switch management is differentiated into basic,
advanced and expert modes where support for
various routing algorithms, QoS attributes and
fabric topologies are included.
World-Class Design
MLNX-OS software includes: CLI, WebUI, SNMP
and XML gateway interfaces. The XML Gateway
provides an XML request-response protocol that
can be used by end-user tools to get and set
management information on the appliance. The
service can be accessed over HTTP / HTTPS or
over SSH. The management also enables the user
to store all data into dened logs, dene e-mail
alerts and security capabilities such as: RADIUS,
TACACS+, AAA and LDAP.
Mellanox Advantage
Mellanox Technologies is a leading supplier of
end-to-end servers and storage connectivity solu-
tions to optimize data center performance and
efciency. Mellanox InniBand adapters, switches,
and software are powering Fortune 500 data
centers and the world’s most powerful supercom-
puters. The company offers innovative solutions
that address a wide range of markets including
HPC, enterprise, mega warehouse data centers,
cloud computing, Internet and Web 2.0.
MLNX-OS
TM
Integrated Switch Management Solution
Embedded Subnet Manager (SM)
Reliable and scalable architecture
supporting up to 648 nodes
Accelerated fabric design and
installation
“out of the box” experience
In-band and out-band support for
standalone or remote conguration
with secure access
Hardware monitoring and alarms
Performance monitoring
Quality of Service based on trafc
type and service levels
CLI, SNMP, WebUI and XML gateway
user interfaces
E-mail alerts
HIGHLIGHTS
©2011 Mellanox Technologies. All rights reserved.
PRODUCT BRIEF
SWITCH SILICON
Mellanox continues its connectivity leadership by providing the highest
performing server and storage system interconnect solution for Enterprise
Data Centers, Cloud Computing, High-Performance Computing, and
embedded environments.
SwitchX, the fth generation switching IC from
Mellanox, further improves the company’s tradi-
tion of leading bandwidth, low-latency, and scal-
ability by integrating Virtual Protocol Interconnect
(VPI) technology - allowing InniBand, Ethernet
and Fibre Channel trafc to exist on a single
‘one-wire’ fabric. The industry-leading integra-
tion of 144 SerDes which are exible enough
to run 1 Gigabit to 14 Gigabit speeds per lane,
independent of network protocol, makes SwitchX
an obvious choice for OEMs that must address
end-user requirements for faster and more robust
applications. Reduced power, footprint and a fully
integrated PHY capable of connectivity across
PCBs, backplanes as well as passive and active
copper/bre cables allow interconnect fabrics
based on SwitchX to be utilized by network archi-
tects deploying leading, fabric-exible computing
and storage systems with the lowest TCO.
FDR
InniBand FDR technology moves from 8b10b
encoding to more efcient 64/66 encoding while
increasing the per lane signaling rate to 14Gb/s.
Using FDR 4x ports and Mellanox ConnectX
®
family of InniBand adapters, users can increase
end-to-end bandwidth up to 85% over previous
QDR solutions. Mellanox end-to-end systems can
also take advantage of the efciency of 64/66
encoding on 4x10Gb/s links using Mellanox
FDR-10.
SwitchX
Virtual Protocol Interconnect
®
Converged Switch-Silicon IC Device
36-port Switch-Router Device Provides Leading FDR 56Gb/s InfiniBand,
40 Gigabit Ethernet and Fibre Channel Throughput
Industry-leading Cut Through Latency
I/O Consolidation
•
IB and IP Routing
•
Ethernet and FC Gateways
Virtualization Support
•
VEB, VEPA (+), Port Extender
Data Center Bridging (DCB)
•
PFC, DCBX, ETS
Low Cost Solution
•
Single-Chip Implementation
Fully Integrated Phy
•
Backplane and cable support
•
1, 2 and 4 Lane
Up to 4Tb/s switching capacity
Flexible Port Congurations
•
Up to 36, 56Gig IB, 40GigE Ports
•
Up to 64 10GigE Ports
•
Up to 24 2/4/8Gig FC Ports
Adaptive Routing
Congestion Control
Quality of Service 802.1p, DIFFSERV
Switch Partitioning
Multichip Support
•
All ports support stacking
•
Management across multiple devices
Energy Efcient Ethernet
IEEE 1588 Clock Synchronization
Active Power Governor
HIGHLIGHTS
Management
Mellanox VPI™ I/O
Up to 36 Port FDR/40GigE - 64 Port 10/20GigE - 24 Port 2/4/8 Gig FC
SwitchX™
Non-blocking VPI Switch-Router-Gateway
Mellanox Integrated Flex SerDes
Active/Passive Copper - Fibre - PCB - Backplane
Adaptive
Routing
L2/L2+
L3
Congestion
Control
QoS
Routers/
Gateways
Virtualization
Mellanox IRISC Processing Engine
Dual SGMII
PCIe
Figure 1: Mellanox SwitchX Architecture
InfiniBand Switch System Family
Highest Levels of Scalability,
Simplified Network Manageability,
Maximum System Productivity
Flexible I/O for the Dynamic Data Center
Mellanox 10 and 40 Gigabit Ethernet Converged Network Adapters
Uncompromising Integrity
Achieve full performance from your network equipment
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 13
©2011 Mellanox Technologies. All rights reserved.
PRODUCT BRIEF
SWITCH SYSTEM
The IS5030 switch system provides the highest-performing
fabric solutions in a 1RU form factor by delivering 2.88Tb/s of
non-blocking bandwidth to High-Performance Computing and
Enterprise Data Centers, with 100ns port-to-port latency.
Built with Mellanox’s 4th generation InniScale
®
InniBand switch device, the IS5030 provides up
to 40Gb/s full bidirectional bandwidth per port.
This stand-alone switch is an ideal choice for
top-of-rack leaf connectivity or for building small
to medium sized clusters. The IS5030 is designed
to carry converged LAN and SAN trafc with the
combination of assured bandwidth and granular
Quality of Service (QoS).
Sustained Network Performance
The IS5030 enables efcient computing with
features such as static routing, adaptive routing,
and congestion management. These features
ensure the maximum effective fabric bandwidth
by eliminating congestion hot spots. Whether
used for parallel computation or as a converged
fabric, the IS5000 family of switches provides the
industry’s best trafc-carrying capacity.
World-Class Design
The IS5030 is an elegant top of the rack design,
that are designed for performance, serviceability,
energy savings and high-availability. The design is
optimized for tting into industry-standard racks
and also for scale-out computing solutions from
industry leaders. The IS5030 supports reversible
airow making the design t into data centers
with different thermal designs. Redundant and
hot swappable power supplies and fans provide
high availability for both High-Performance
Computing and Enterprise Data Center applica-
tions. Status LEDs for fans and power supply units
are placed on both sides of the system for easy
status identication. Quick start guide, rack mount
kit, AC power cord and RJ45 to DB9 console
cables are provided as part of the standard
system providing new levels of out of the box
experience and performance.
Management Capabilities
The IS5030 comes with an onboard subnet
manager, enabling simple, out-of-the-box fabric
bring up for up to 108 nodes. FabricIT™ fabric
management running on the IS5030 enables fast
setup for cluster bring-up, fabric-wide bandwidth
and latency verication, and various diagnostic
tools to check node-node, node-switch connec-
tivity and cluster topology view. FabricIT™ chassis
management provides administrative tools to
manage the rmware, power supplies, fans, ports,
and other interfaces.
IS5030
36-port Non-blocking Managed 40Gb/s InfiniBand Switch System
KEY FEATURES
BENEFITS
Industry-leading, switch platform in
performance, power, and density
Designed for energy and cost savings
Ultra low latency
Granular QoS for Cluster, LAN and
SAN trafc
Maximizes performance by removing
fabric congestions
Fabric Management for cluster and
converged I/O applications
KEY FEATURES
36 QDR (40Gb/s) ports in a 1U switch
2.88Tb/s switching capacity
Quality of Service enforcement
Redundant power supplies and fan
drawers
MANAGEMENT
Fast and efcient fabric bring-up
Comprehensive chassis management
Intuitive CLI and GUI for easy access
HIGHLIGHTS
IS5030
Documents and Marketing Collateral
PRODUCT BRIEF SPECIFICATIONS - FIRST PAGE
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CORPORATE STYLE GUIDE
14 | Mellanox Technologies | July 2011
Product Name
Univers LT 55 Bold
8.25 pt/9.5
SwitchX™
Virtual Protocol Interconnect
®
Converged Switch-Silicon IC Device
page 2
350 Oakmead Parkway, Suite 100, Sunnyvale, CA 94085
Tel: 408-970-3400 • Fax: 408-970-3403
www.mellanox.com
© Copyright 2011. Mellanox Technologies. All rights reserved.
Mellanox, BridgeX, ConnectX, CORE-Direct, InniBlast, InniBridge, InniHost, InniRISC, InniScale, InniPCI, PhyX, Virtual Protocol Interconnect and Voltaire are registered trademarks of Mellanox Technologies, Ltd.
FabricIT is a trademark of Mellanox Technologies, Ltd. All other trademarks are property of their respective owners.
Virtual Protocol Interconnect (VPI)
SwitchX VPI devices enable industry standard
networking, clustering, storage, and manage-
ment protocols to seamlessly operate over a
single “one-wire” converged network. With
auto-sense capability, each SwitchX port can
identify and operate InniBand, Ethernet,
Data Center Bridging (DCB) or Fibre Channel
protocol. Combined with Mellanox’s ConnectX
family of VPI adapters, on-the-y fabric repur-
posing can be enabled for Cloud, Web2.0, EDC
and Embedded environments providing “future
proong” of fabrics indpendent of protocol.
Congurations
SwitchX allows OEMs to deliver:
36 Port 1U FDR IB switch
36 Port 40GigE or 64 Port 10GigE L2, L2+
and L3 switch
48 Port 10GigE to 12 Port 40GigE Top-of-
Rack switch
Blade switches for converged fabrics
(16 - 40GigE to servers, 12 - 10GigE to
LAN, 8 - 8G FC to SAN and 2 - 40GigE
stacking ports)
Modular switch chassis up to 648 56G
IB/40GigE ports
Switch Product Development Platforms
The SwitchX Evaluation Board (EVB) and
Software Development Kit (SDK) are avail-
able to accelerate OEMs’ time to market
and for running benchmark tests. These rack
mountable systems are available with a mix
of QSFP and SFP+ connector for verifying
InniBand, 10GigE, 40GigE and Fiber Channel
functionality. In addition, SMA connectors are
available for SerDes characterization.
Mellanox Advantage
Mellanox is the leading supplier of industry
standard InniBand and Ethernet HCA, NIC
and switch silicon. Our products have been
deployed in clusters scaling to thousands-of
nodes and are being deployed end-to-end in
data centers and Top500 systems around the
world.
Ordering Part Number InniBand 4X Port Speed Typical Power
MT51236A0-FCCR-F SwitchX, 36 Port FDR Switch IC 72W
MT51336A0-FCCR-F SwitchX 36 Port VPI FDR/40GigE Switch IC 72W
MT51336A0-FCCR-Q SwitchX 36 Port VPI QDR/10GigE Switch IC 55W
INFINIBAND
IBTA Specication 1.2.1 compliant
10, 20, 40 or 56Gb/s per 4x port
Integrated SMA/GSA
Hardware-based congestion control
256 to 4Kbyte MTU
9 virtual lanes: 8 data + 1 management
ENHANCED INFINIBAND
IB to IB Routing
Hardware-based adaptive routing
Up to 8 subnets/switch partitions
Fine grained end-to-end QoS
Port mirroring
Supports Jumbo frameup to 10KB
EThERNET
1, 10, 20 and 40Gb/s
DCB (PFC, ETS, DCBX)
FCoE
COmPaTIBILIITy
CPU
PowerPC, IntelX86, AMDX86 and MIPS
PCI EXPRESS INTERFACE
PCIe Base 2.0 compliant, 1.1 compatible
2.5GT/s or 5GT/s link rate x4
CONNECTIVITY
Interoperates with InniBand, Ethernet and
Fiber channel adapters and switches
Drives active/passive copper cables, ber
optics, PCB or backplanes
MANAGEMENT AND TOOLS
Supports Mellanox UFM and IBTA compliant
Subnet Managers
Diagnostic and debug tools
I/O SPECIFICaTIONS
36 4x SDR/DDR/QDR/FDR InniBand ports,
36 40GigE ports, 64 10/20GigE ports, 24
2/4/8Gig FC ports or a combination of port
types
PCI Express 2.0 x4 5GT/s (1.1 compatible)
SPI Flash interface, I
2
C
IEEE 1149.1 boundary-scan JTAG
Link status LED indicators
General purpose I/O
45 x 45mm FCBGA
HaRDWaRE
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Documents and Marketing Collateral
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01 Second Title
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04 Table Heading
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03 Doc No.
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04 Table Text - FL
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Table Rules
.5 pt
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No rule on left and
right outside columns
XXXXPB Rev 1.0
CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 15
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Fewer I/O adapters, cables and switches – 80% TCO
savings
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63% more transactions/second with half the servers –
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CASE STUDY
Mellanox server and storage interconnect products deliver down
to earth values that relieve the most critical pain points in the data
center today.
To be precise:
1. If you are virtualizing your servers, Mellanox
simply delivers you more virtual machines
per server
2. If you are connecting your servers to
the SAN and LAN, Mellanox reduces
the number of I/O adapters, cables and
switches
3. If you are running data warehousing, OLTP,
or financial services applications, Mellanox
delivers more transactions per second
using fewer servers, helping you make
faster and better decisions
4. If you are a cloud appliance or services
provider, Mellanox reduces equipment
acquisition costs dramatically while
improving your ability to exceed your SLAs
with customers by a handsome margin
5. Mellanox delivers all of the above benefits
while reducing your power consumption
for IO by 30% to 50%
These are a few examples of how Mellanox
is helping change the face of the data center
with high performance, scalable and efficient
server and storage connectivity products.
Below are five proof points relating how
fortune 500 customers are availing these
benefits to save money, build more efficient
and greener datacenters thereby improving
their competitive edge through better service
delivery to their end users and customers.
Case Study 1: Managed Hosting Services
Provider
60% more VMs per server --> 60%+ ROI benefits
The customer is a large managed hosting
services provider servicing web based travel
related transactions for their customers. The
volume of transactions per day is greater than
that of Amazon.com, requiring the customer
to manage its data center efficiently and scale
in a cost effective way. One of its datacenter
components serviced customers through the
use of applications in 256 virtual machines,
which prior to using Mellanox-based
solutions, required the use of 4 racks of 4U
servers, 16 edge switches, and 192 I/O cards.
The capital cost to build out that infrastructure
was $744,000. With Mellanox-based
products, without requiring any changes to
their applications or affecting services to its
customers, the new component build-out
required only $347,000, saving $397,000 in
capital expenses. The cost savings came
from the use of 1 rack of 1U servers, 2 I/O
Directors and 32 I/O cards that could still
support the 256 virtual machines. Operating
expenses came down through reduced floor
space and power requirements, bringing total
savings to more than $500,000 (amortized
over 3 years).
Down-to-Earth Values, ROI Up in the Clouds
Featuring Mellanox Interconnect Products for the Enterprise Data Center
©2011 Mellanox Technologies. All rights reserved.
.
OVERVIEW
Mellanox is helping change
the face of the data center
with high performance,
scalable and efficient server
and storage connectivity
products.
Documents and Marketing Collateral
CASE STUDIES
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CORPORATE STYLE GUIDE
16 | Mellanox Technologies | July 2011
DATASHEET
CABLES
©2011 Mellanox Technologies. All rights reserved.
Mellanox’s 40GigE Passive copper cables provide robust connection to switches and network adapters
complying with 40GBase-CR4 specications. The 40GigE passive copper cables are compliant with the
IEEE 802.3ba and, SFF-8436 specications and provide connectivity between devices using QSFP ports.
40GigE passive copper cables ll the need for short, cost-effective connectivity in the data center. Mella-
nox’s high-quality passive copper cable solutions provide a power-efcient replacement for active power
connectivity such as ber optic cables.
Optimizing systems to operate with Mellanox’s 40GigE passive copper cables signicantly reduces poer
consumption and EMI emission, eliminating the use of EDC hosts.
Table 1 - Cable Specications and Ordering Information
Maximum
Reach [m]
Gauge Max Cable
Diameter [mm]
Min Bend
Radius [mm]
Assembly
Min Ben
Radius [mm]
1
Weight
[Grams/meter]
2
Part Number
1 30 6.2 30 61 55 MC2210130-001
2 30 6.2 30 61 55 MC2210130-002
3 30 6.2 30 61 55 MC2210130-003
4 28 7.8 40 71 79 MC2210130-004
5 28 7.8 40 71 79 MC2210130-005
1. See gure 1 for bend radius description
2. Weight is per raw cable meter, excluding connectors
Table 2 - Absolute Maximum Ratings
Parameter Parameter Range
Operating Case Temperature 0°C to 70°C
Storage Ambient Temperature -10°C to 75°C
Table 3 - Operating Conditions
Parameter Minimum Typical Maximum Units
Data Rate per Lane 1 10 Gb/s
Input Voltage -0.3 3.6 V
Humidity (RH) 5 85 %
40Gig Ethernet, Passive Copper Cables
Compliant with SFF-8436
Up to 5m 40GigE data rates
Ultra low crosstalk for improved
performance
Low insertion loss
BER better than 10-15
Serial numbers printed on each end
Tested in an end-to-end 40GigE system
RoHS 6 Compliant
HIGHLIGHTS
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CORPORATE STYLE GUIDE
Mellanox Technologies | July 2011 | 17
The world’s fastest interconnect, supporting
up to 40Gb/s per adapter
Latency as low as 1 microsecond
Full CPU ofoad with the exibility of RDMA
capabilities to reduce traditional network
protocol processing from the CPU and increase
the processor efciency.
I/O Capex reduction – one 40Gb/s Mellanox
adapter carries more trafc with higher
reliability than four 10 Gigabit Ethernet
adapters.
KEY ADVANTAGES
SOLUTION BRIEF
©2011 Mellanox Technologies. All rights reserved.
Computer Aided Engineering (CAE) is used to
help manufacturers bring products to market
faster while maintaining a high-level of quality. The
faster companies can conduct tests and perform
product analysis, the bigger the benefits of using
CAE. Advances in software and server hardware
have set the stage for faster results, but manufac-
turers should not overlook a major performance-
robbing bottleneck: the server interconnect. To
gain dramatic improvements in CAE performance,
manufacturing firms are turning to Mellanox’s
InfiniBand-based solutions to speed the move-
ment of data between clustered servers.
The Manufacturer’s Challenge
Bringing products to market fast while meeting
quality requirements and adhering to safety stan-
dards has become a daunting challenge to manu-
facturers. To remain competitive, manufacturers
must deliver products as fast as possible. But if
quality suffers, customers won’t return. If safety
levels decline, significant recalls, lawsuits or
harmful publicity could ensue.
This is why manufacturing companies rely so
heavily on Computer Aided Engineering (CAE),
which helps simulate production and product
performance ahead of time. CAE allows problems
to be corrected before products reach the produc-
tion stage and end up in the hands of customers.
The challenge that has emerged today is how to
run commercially-available CAE software faster
and with more accuracy. Many software vendors
offer capable products, but bottlenecks commonly
occur in the hardware that runs the simulations
and analyzes the production processes.
Without sufficient computing power, these tests
sometimes take days and weeks to run. And be-
cause the tests take longer to run, product-devel-
opment teams are often forced to run fewer tests
in order to meet tight timeframes and to remain
competitive. This can lead to inaccurate testing
that often goes undetected until the products
hit the assembly line—when the cost to make
changes to the design of the products grows
exponentially.
Solving this application run-time challenge will
allow manufacturers to analyze their processes
in the fastest time possible and conduct more
granular testing. This in turn will allow for quicker
and more efficient production. A key element to
running tests more rapidly is choosing the right
hardware to run the CAE applications.
Today’s Solution
Large symmetric multi-processing machines
(SMPs) used to be the answer for generating
compute power in the data center. However,
these proprietary, expensive systems gave way to
cluster and grid architectures consisting of low-
cost commodity elements that offer comparable
performance.
Some companies try to scale CAE clusters
by adding more servers or moving to servers
with multiple cores. This approach can work for
smaller, simpler simulations, but the more com-
plex the analysis, the more likely the need to run
simulations across multiple servers where latency
is a major factor in determining performance.
The answer to speeding analysis and maximizing
return on CAE investments is not simply buying
more or bigger servers, but rather eliminating
bottlenecks to performance by employing the use
of a high performance interconnect.
Because of the ready-availability of Ethernet,
many of today’s clusters are built with Ethernet
as the interconnect. While Gigabit Ethernet-based
clustering is cheaper than SMP-based architec-
tures, it can be very inefficient. For applications
that rely on bandwidth or memory sharing, the ef-
ficiency (percentage of a server-CPU dedicated to
communications overhead) can be a concern.
Today, many manufacturers run CAE systems that
take advantage of InfiniBand-based high-speed
Manufacturing
Bringing New Levels of Performance to CAE Applications
Solution Partner
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SOLUTION BRIEF
interconnect support incorporated into CAE software. Mel-
lanox InfiniBand interconnects eliminate I/O bottlenecks
allowing applications to run faster and more efficiently.
70
60
50
40
30
21
10
0
02040607010 30 50
# Cores
46.59
75% Efficiency
33.00
51% Efficiency
Parallel Speedup
Parallel Speedup
Linear Scaling
GbE
InfiniBand
Figure 1. Mellanox InniBand-based solution improves performance by
50%
A Better Way
Mellanox InfiniBand solutions help CAE applications run
faster. Mellanox offers high-performance (10, 20 and 40
Gbps), low-latency (< 2 microseconds) interconnect solu-
tions for CAE applications. Benchmark testing has found
that Mellanox interconnect solutions reduce CAE-runtime
by as much as 50 percent.
In addition to offering InfiniBand switch-technology, Mel-
lanox works directly with CAE software-vendors to create
the most efficient, fastest, and lowest-latency solutions in
the industry. By combining the leading CAE software with
Mellanox InfiniBand-based solutions, manufacturing orga-
nizations can now analyze products faster and more effi-
ciently to gain a clear competitive advantage.
As today’s price and performance leader in the industry,
Mellanox builds its solutions using standards-based In-
finiBand technology. InfiniBand is an industry-standard
interconnect for high-performance computing (HPC) and
enterprise applications. The combination of high band-
width, low latency and scalability makes InfiniBand the
interconnect-of-choice to power many of the world’s
largest and fastest computer systems and commercial
data centers. Mellanox solutions support most major
server vendors, operating systems, storage solutions and
chip manufacturers.
1 Gb
Ethernet
10 Gb
Ethernet
Myrinet InniBand
Bandwidth 1 Gb/sec 10Gb/sec 2.5 Gb/sec 10, 20 & 40
Gb/sec
Latency ~10 us 2.5 - 5.5 us <2 us
Average Efciency 53% No Entries 68% 74%
Price Per Gig/Port ~$350.00 >~$700.00 ~$225.00 <$100.00
Table 1. Price/performance advantages for InniBand
Building CAE Clusters
Mellanox offers complete end-to-end server interconnect
solutions for speeding CAE applications. The two major ele-
ments of the solution include:
• High-speed, low latency InfiniBand switches
• Fast storage connectivity
High-performance InniBand Switches
Mellanox’s InfiniBand-based solutions deliver high perfor-
mance and scalability to compute clusters. Mellanox offers
a complete portfolio of products including a scalable line of
InfiniBand switches, high performance I/O gateways (for
seamless connectivity to Ethernet and Fibre Channel net-
works) and fabric management software. Mellanox solu-
tions use the Open Fabric Alliance’s OFED drivers and the
OpenMPI (Message Passing Interface) libraries to optimize
application performance for both MPI-based and socket-
based applications.
For small-to-medium sized clusters, Mellanox offers the
Mellanox Grid Director
9024. It is a 1U device with
twenty-four 10 Gbps (SDR) or 20 Gbps (DDR) InfiniBand
ports. The switch is a high performance, low latency, fully
non-blocking edge or leaf-switch with a throughput of 480
Gbps.
Figure 2. Mellanox Grid Director 9024 for small-to-medium sized
clusters ranging from 16 to 24 nodes.
It is well-suited for small InfiniBand fabrics with up to 24
nodes because it includes all of the necessary manage-
ment capabilities to function as a stand-alone switch. The
Grid Director 9024 is internally managed and offers com-
prehensive device and fabric management capabilities.
Designed for high-availability (high MBTF) and easy mainte-
nance, the switch is simple to install and features straight-
forward initialization. The solution is scalable as additional
switches can be added to support additional nodes.
For larger clusters ranging from 25-96 compute nodes,
Mellanox offers the Grid Director
2004 multi-service
switch — the industry’s highest performing multi-service
switch for medium-to-large clusters and grids. The switch
enables high performance non-blocking configurations and
features an enterprise-level, high availability design. The
Grid Director 2004 supports up to 96 InfiniBand 4X ports
(20 Gbps) and is scalable through the use of additional, hot-
swappable modules. The Grid Director 2004 also features
10 GbE and Fibre Channel ports so the solution can provide
high-performance, integrated SAN and LAN connectivity.
Some Solution Briefs contain a Key Advantages box.
This element can be found in the InDesign library le.
CORPORATE STYLE GUIDE
18 | Mellanox Technologies | July 2011
Documents and Marketing Collateral
REFERENCE GUIDES
REFERENCE GUIDE
ConnectX
®
-2 Adapter Cards
Why Mellanox?
Leading I/O consolidation for servers and storage!
40Gb/s end-to-end solutions
(HCAs, switches, cables)
Proven scalability and reliability
Field proven – 1000‘s of clusters in production, over 5M ports
deployed!
Advanced features for highest application productivity
High performance computing and enterprise and cloud data
centers, virtualized and unied systems
40Gb/s InniBand and 10 Gigabit Ethernet in the same device!
World-class Support
Best-in-class production testing and product quality
Why 40Gb/s InniBand?
Enables the highest performance and lowest latency
Proven scalability for 10s of thousands of nodes
Maximum return on investment
Highest Efciency / Maintains balanced system ensuring
highest productivity
No articial bottlenecks, performance match for PCIe Gen2
Proven to fulll multi-process networking requirements
Guaranteeing no performance degradation
Performance driven architecture
MPI latency 1us, 6.6GB/s with 40Gb/s InniBand (bi-directional)
MPI message rate of >40 Million/sec
Superior application performance
From 30% to over 100% HPC applications performance increase
Doubles the storage throughput, reducing backup time in half
InniBand Market Applications
InniBand is increasingly becomes an interconnect of choice in not
just high performance computing environments, but also in main-
stream enterprise grids, data center virtualization solutions, storage,
and embedded environments. The low latency and high performance
of InniBand coupled with the economic benets of its consolida-
tion and virtualization capabilities provides end-customers the ideal
combination as they build out their applications.
Data Center
Today’s data centers need an agile infrastructure that incorporates
ongoing improvements in computer, storage, networking, and
application technologies, and empowers IT to support changing
business processes. InniBand fabric solutions enable IT organiza-
tions to turn computing and storage resources from monolithic
systems to service-centric shared pool of resources consisting of
standardized components that can be dynamically provisioned and
accessed through an intelligent network.
High Performance Computing
With InniBand’s proven scalability and efciency, small and
large clusters easily scale up to thousands of nodes. With 40Gb/s
node-to-node and 120Gb/s switch-to-switch solutions available,
and a roadmap to 240Gb/s, InniBand has proven its performance
in personal supercomputing, workgroup, departmental, divisional,
and enterprise supercomputers solutions.
Storage
InniBand’s high bandwidth, low latency, dedicated I/O channels,
QoS and RDMA features can lower capital expenses and operating
costs making it the right choice for storage.
ConnectX-2 adapter cards with Virtual Protocol Interconnect (VPI) provide the highest performing and
most exible interconnect solution for Enterprise Data Centers, High-Performance Computing, and
Embedded environments. ConnectX-2 with VPI also simplies network deployment by consolidating
cables and enhancing performance in virtualized server environments. In addition, ConnectX-2 supports
CORE-Direct application acceleration, Virtual-IQ technology for vNIC and vHBA support, and congestion
management to maximize the network efciency making it ideal for HPC or converged data centers
operating a wide range of applications.
Key Features
1us MPI latency
10, 20, or 40Gb/s InniBand ports
PCI Express 2.0 (up to 5GT/s)
CPU ofoad of transport operations
End-to-End QoS & congestion control
Hardware-based I/O virtualization
TCP/UDP/IP stateless ofoad
Key Advantages
High-performance networking and storage
access
Guaranteed bandwidth & low-latency
services
Reliable transport
End-to-End storage integrity
I/O consolidation
Virtualization acceleration
Scales to tens-of-thousands of nodes
Mellanox 20 and 40Gb/s InniBand switches deliver the highest performance
and density with a complete fabric management solution to enable compute
clusters and converged data centers to operate at any scale while reducing
operational costs and infrastructure complexity. IS5000’s scalable switch
building blocks from 36 to 648 ports in a single enclosure gives IT managers the
exibility to build networks up to 10’s of thousands of nodes.
Key Features
51.8Tb/s switching capacity
100ns to 300ns switching latency
Hardware-based routing
Congestion control
Quality of Service enforcement
Up to 6 separate subnets
Temperature sensors and voltage
monitors
Key Advantages
High-performance fabric for
parallel computation or I/O
convergence
Wirespeed InniBand switch
platform up to 40Gb/s per port
High-bandwidth, low-latency
fabric for compute-intensive
applications
Delivers the industry’s lowest 1.3 us latency performance with performance-leading 10 and 40 Gigabit
Ethernet connectivity with stateless ofoads for converged fabrics in Enterprise Data Centers, High-
Performance Computing, and Embedded environments. Clustered databases, web infrastructure, and IP
video servers are just a few example applications that will achieve signicant throughput and latency
improvements resulting in faster access, real-time response and increased number of users per server.
ConnectX-2 EN improves network performance by increasing available bandwidth to the CPU and
providing enhanced performance, especially in virtualized server environments.
Key Features
Industry-leading throughput and latency performance
Enabling I/O consolidation by supporting TCP/IP, FC over Ethernet and RDMA over Ethernet
transport protocols on a single adapter
Improved productivity and efciency by delivering VM scaling and superior server utilization
Supports industry-standard SR-IO Virtualization technology and delivers VM pro tection and
granular levels of I/O services to applications
High-availability and high-performance for data center networking
Software compatible with standard TCP/UDP/IP and iSCSI stacks
High level silicon integration and no external memory design provides low power, low cost and
high reliability
High-bandwidth, low-latency fabric for compute-intensive applications
InniBand Switches
ConnectX EN Ethernet Network Interface Cards (NIC)
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REFERENCE GUIDE
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Kit.IncludesChassisManagement
MIS5030Q1SFC +
-/18 , &$#8884(1"'82,#*$88(58 ")
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-/18884(1"'82,#*$
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MIS5300Q6DNC +
-/18884(1"'82,#*$
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MIS5600Q10DNC +
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MIS5600MDC +
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MIS5001QC +
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IS5100, IS5200, IS5300, and
IS5600 108, 216, 324 and 648-port
40Gb/s InfiniBand Modular Switch Systems
ConnectX-2 VPI Dual Port QSFP
InfiniBand and SFP+ 10GigE Adapter
ConnectX-2 EN Adapter Card with SFP+
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PMS 274 C
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www.mellanox.com
REFERENCE GUIDE
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3.375”
CORPORATE STYLE GUIDE
19 | Mellanox Technologies | July 2011
Main Title
Univers LT 59 UltraCondensed
26 pt / 29
Documents and Marketing Collateral
TECHNOLOGY BRIEFS
TECHNOLOGY BRIEF
©2011 Mellanox Technologies. All rights reserved.
The two commonly known RDMA (remote DMA) technologies are InniBand and iWARP (Internet
Wide Area RDMA Protocol). InniBand has enjoyed signicant success to date in HPC applications.
iWARP solutions over Ethernet have seen limited success because of implementation and deployment
challenges. Recent enhancements to the Ethernet data link layer under the umbrella of IEEE data center
Bridging (DCB) open signicant opportunities to proliferate the use of RDMA technology into mainstream
data center applications by taking a fresh and yet evolutionary look at how such services can be more
easily and efciently delivered over Ethernet. The proposed DCB standards include: IEEE 802.1bb –
Priority-based ow control, 802.1Qau – Congestion Notication, and 802.1az – Enhanced Transmission
Selection (ETS) and DCB Capability Exchange. The lossless delivery features in DCB, enabled by Priority-
based Flow Control (PFC), are analogous to those in the InniBand data link layer. As such, the natural
choice for building RDMA services over PFC-based DCB Ethernet is to apply use InniBand-based native
RDMA transport services. The IBTA (InniBand Trade Association) has recently released a specication
called RDMA over Converged Ethernet (RoCE, pronounced as “Rocky”) that applies the InniBand-based
native RDMA transport services over Ethernet. ConnectX-2 with RoCE (RDMA over Ethernet) implements
the RoCE standard to deliver InniBand-like ultra low latency and high scalability over Ethernet fabrics.
ConnextX-2 with RoCE is born out of combining InniBand native RDMA transport with Ethernet per the
IBTA RoCE specication. The data link InniBand-based layer 2 is replaced by Ethernet layer 2, as shown
in the gure below. The InniBand transport is applied over a PFC-based loss less Ethernet data link.
LRH
(L2 Hdr)
GRH
IB Transport
Headers
IB Payload
ICRC
VCRC
InfiniBand
RoCE
Eth L2
Header
GRH
IB Transport
Headers
IB Payload
ICRC
FCS
Application
IB Software transport
interface
IB-based transport
Network
Ethernet w/PFC (Data Link)
OFA verbs
Figure: Low Latency Ethernet packet
format and protocol stack
Software Interface: ConnextX-2 with RoCE is compliant with the Open Fabrics Alliance OFED
verbs denition and is interoperable with the OFA software stacks (similar to InniBand and iWARP).
ConnextX-2 with RoCE uses the proven and feature rich InniBand verbs interface available in the OFA
stacks. OFED v1.5.1 supports RoCE and ConnextX-2 with RoCE.
Transport Layer: ConnextX-2 with RoCE uses the InniBand transport layer, as dened in the IBTA RoCE
specication. The adaptation from InniBand data link to Ethernet data link is straight forward because
the InniBand transport layer was designed ground up to be data link layer agnostic. The InniBand
transport layer expects certain services from the data link layer related to lossless delivery of packets, and
these are delivered by a PFC enabled Ethernet data link layer. ConnextX-2 with RoCE inherits a rich set
of transport services beyond those required to support OFA verbs including connected and unconnected
modes, reliable and unreliable services. Built on top of these services is a full set of verbs-dened
operations including kernel bypass, send/receive, RDMA read/write, and atomic operations.
1.0 Opportunities with
Evolution of Ethernet
1.1 How ConnectX-2
RoCE Works
ConnectX
®
-2 with RoCE
(ConnectX-2 VPI and ConnectX-2 EN)
April 2010
. &$;
TECHNOLOGYBRIEF:
ConnectX
®
2withRoCE
350OakmeadParkway,Suite100,Sunnyvale,CA94085
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Management Feature Required by
IB Transport Layer & Apps using
IB Transport Layer
How InfiniBand delivers them in
the InfiniBand subnet
How Ethernet (and CEE) delivers
them using standard Ethernet
management practices
L2 address assignment Subnet Manager L2 address
assignment
Fixed assigned L2 address or other
Ethernet mechanisms
L2 topology discovery and switch FDB
configuration
Subnet Manager topology discovery
using direct routed subnet manage-
ment packets (SMP). Subnet Manager
path computation and path distribution
Spanning Tree and Learning mecha-
nisms. Also, IEEE Transparnet Intercon-
nection of Lots of Links (TRILL) when
available and other eth practices
Address Resolution SA based path resolution Address Resolution Protocol (ARP) or
direct mapping
QoS QoS Manager extension to Subnet
Manager
Standard Ethernet QoS management
practices. Local API to access fabric
policy settings
Congestion management Congestion Manager for IB 802.1Qau congestion management
features
Performance management IB Performance Manager SNMP/RMON MIBS
Device/baseboard management IB Baseboard Manager SNMP/RMON MIBS
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1.2ConnectX2with
RoCEAdvantages
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CORPORATE STYLE GUIDE
20 | Mellanox Technologies | July 2011
Documents and Marketing Collateral
WHITE PAPERS
WHITE PAPER
©2011 Mellanox Technologies. All rights reserved.
2010
The security trading market is experiencing rapid growth in volume and complexity with a greater reliance
on trading software, which is supported by sophisticated algorithms. As this market grows, so do the
trading volumes, bringing existing IT infrustracture systems to their limits.
Middleware and networking solutions must not only deliver lower latency despite higher volumes,
but also sustain performance through market data trafc spikes while minimizing latency jitter and
unpredictable messaging outliers.
To address this challenge, two market leaders have come together to provide a eld-proven
infrastructure solution that combines best of breed enterprise messaging middleware and trading
transport infrustructure. The solution slashes end-to-end trading latency by analyzing each layer of
the infrastructure—server, storage, server stack and middleware, as well as switching and bridging
devices—and optimizing each part for minimum latency and maximum throughput, while keeping an eye
on overall cost.
29West has emerged as the standard in next generation messaging software and delivers an unbending
commitment to offering the lowest possible latency across the widest possible range of messaging
use cases. Similarly, Mellanox has evolved into the market leader in IT scale-out fabric infrastructure,
excelling in low latency software and switching solutions.
This report demonstrates the benets of a 29West middleware solution integrated with Mellanox’s low-
latency solution for high-frequency trading customers. Specically, this paper describes a benchmark of
the integrated solution that delivers application messaging at:
Latency under medium load
Message rates under 125K msg/sec, message size under 256 bytes
Average latency under 9 µsec
99.9th percentile latency 45 µsec or lower
Latency under heavy load (high throughput)
Message rate up to 1,300,000 msg/sec, message size under 64 bytes
Average latency under 18 µsec
99.9th percentile latency 70 µsec or lower
Executive Summary
Executive Summary ......................................................................................................................1
Reference Transport Latency .......................................................................................................2
Latency Versus Message Size .....................................................................................................3
Conclusion ....................................................................................................................................5
Methodology of Measurement ....................................................................................................5
Benchmark Set Up Details ...........................................................................................................6
About 29West Inc,. ......................................................................................................................8
A Best of Breed Low Latency Solution for Trading
Environments from 29West & Mellanox
29West Latency Busters
®
Messaging (LBM) and Messaging
Accelerator
(VMA) Over Mellanox 40Gb/s (QDR) InniBand Fabric
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