This document provides specifications for several Brocade networking devices:
- The Brocade ICX 6430 and ICX 6450 campus switches support up to 48 Ethernet ports and stacking of up to 192 ports. Models include PoE options.
- The Brocade ICX 6610 and ICX 6650 switches provide up to 48 Ethernet ports with some models including 10GbE uplinks, stacking, and advanced Layer 2/3 features.
- The Brocade FastIron SX 800/1600 switches are aggregation/core switches supporting hundreds of Gigabit Ethernet and 10GbE ports for large networks.
- The Brocade MLX wireless switches provide wireless LAN security and support a
An experience is a personal and emotional event we remember. Every experience is established based upon pre-determined expectations we conceive and create in our minds. It’s personal, and therefore, remains a moving and evolving target in every scenario. When our experience concludes and the moment has passed, the outcome remains in our memory. Think about what makes you happy when connecting with your own device and then think about what makes you really upset when things are hard, complicated, and slow. If the user has a bad experience in anyone of these areas (simple, fast, and smart), they are likely to leave, share their negative experience, and potentially never return. Users might forget facts or details about their computing environment but they find it difficult to forgot the feeling behind a bad network experience. When something goes wrong with the network or an application, do you always get the blame?
Next Generation Ethernet
Next Generation Ethernet is a platform that should deliver all of previous function requirements under on hood. I have grouped the Generations in this way because Cisco has different purpose-built product lines for each of 4 waves of technology. Counter to that Extreme offers a platform solution for a customer to build his network on. Extreme does not require different switches to address different convergence requirements, this would be cost prohibitive for most customers and complicated. Simply put to disrupt the Cisco market, Extreme must deliver more with less.
The IEEE is pushing Ethernet to unimaginable speeds, with the 40/100Gigabit Ethernet standard expected to be ratified in 2010 and Terabit Ethernet on the drawing board for 2015. Here's a timeline showing key milestones in the growth of Ethernet Sstandard's-compliant products are expected to ship in the second half of next year, not long after the expected June 2010 ratification of the 802.3ba standard.
Complexity - Complex systems are a special type of chaotic system. They display a very interesting type of emergent behavior called, logically enough, complex adaptive behavior. But we are getting ahead of ourselves. There’s a need to back up a bit and describe a fundamental behavior that occurs at the granular level and leads to complex adaptive behavior. It is self -organization. Complex Adaptive Behavior is the name given to this forming-falling apart-reforming-falling apart-… behavior. Specifically it is defined as many agents working in parallel to accomplish a goal. It is conflict ridden, very fluid, and very positive. The hallmark of emergent, complex adaptive behavior is it brings about a change from the starting point that is not just different in degree but in kind. In biology a good example of this is the emergence of consciousness. Another example is the Manhattan Project and the development of the atomic bomb. Below is a checklist that helps facilitate a qualitative assessment of the level of complexity. It is in everyday language to facilitate use by a broad range of stakeholders and team members. In other words, it stays away from jargon, which can be the kiss of death when requesting information from people.
The Checklist
Not sure how the project will get done; Many stakeholders, teams and sub-teams;
Too Many vendors; New vendors;
New client; Team members are geographically dispersed;
End-users are geographically dispersed; Many organizations;
Many cultures (professional, organizational, sociological);
Many languages (professional, organizational, sociological);
High risk;
Lack of quality best characterized by lack of acceptance criteria;
Lack of clear requirements and too Many tasks;
Arbitrary budget or end date;
Inadequate resources;
Leading-edge technology;
New, unproven application of existing technology;
High degree of interconnectedness (professional, technological, political, sociological).
The document discusses optical networking and Ethernet standards. It provides information on:
- Ethernet physical layer standards including speeds, media types, and maximum distances supported.
- Optical module form factors and pluggable interfaces used to connect Ethernet ports to fiber cables.
- Fiber types (single-mode and multi-mode), wavelengths, and distance limitations of various Ethernet standards.
- Copper-based Ethernet standards including categories of unshielded twisted pair cabling and their speed and distance capabilities.
The Avaya Ethernet Routing Switch 4500 Series is a stackable chassis system providing high-performance, convergence-ready and resilient Ethernet switching. It offers 11 models with Fast Ethernet, Gigabit Ethernet, Power-over-Ethernet, and 10GbE uplink options. The series provides resilient stacking, advanced routing, security, QoS, and management capabilities, making it well-suited for enterprise wiring closets and edge deployments.
Where Does Networking Fit In? To gain the full benefits of cloud computing and virtualization and achieve a business agile IT infrastructure, organizations need a reliable, high-performance data center networking infrastructure with built-in investment protection. Several technology inflection points are coming together that are fundamentally changing the way networks are architected, deployed and operated both in the public cloud as well as the private cloud. From performance, to scale, to virtualization support and automation to simplified orchestration, the requirements are rapidly changing and driving new approaches to building data center networks.
With Extreme Networks, IT can manage more with less. Automated intelligence and analytics for compliance, forensics, and traffic patterns translates into reduced help desk calls. Businesses can predict costs and return on investment, and increase employee productivity by securely onboarding BYOD, increasing both customer and employee satisfaction. A constant risk to the network, and ultimately the hospital, are unapproved applications and rogue devices that may appear on the network and either permit unauthorized access or interfere with other devices. A means to monitor all devices and applications that operate across the network is vital. Just as important are the audit and reporting capabilities necessary to report on who, what, where, when, and how patient data is accessed.
What is SDN? What software-defined networking really means has evolved dramatically and now includes automation and virtualization. Hardware is still a critical component in data center networking equipment, but the influence of switch software shouldn’t be overlooked. When everyone began to get excited about SDN a few years ago, we thought of it as only one thing: the separation of network control from network data packet handling. Traditional networks had already started down this path, with the addition of controller cards to manage line cards in scalable chassis-based switches, and with various data center fabric technologies. SDN took the idea to its logical end, removing the need for the controller and the packet handlers to be on the same backplane or even from the same vendor.
Cost. Reducing costs in the data center and contributing to corporate profitability is an increasingly important trend in today’s economic climate. For example, energy costs for the data center are increasing at 12% a year. Moreover, increased application requirements such as 100% availability necessitate additional hardware and services to manage storage and performance thus raising total cost of ownership.
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
The Secret Sauce is the Control Plane, not the Encapsulation
Host Route Distribution decoupled from the Underlay protocol
Use MultiProtocol-BGP (MP-BGP) on the Leaf nodes to distribute internal Host/Subnet Routes and external reachability information
Route-Reflectors deployed for scaling purposes
VXLAN terminates its tunnels on VTEPs (Virtual Tunnel End Point).
Each VTEP has two interfaces, one is to provide bridging function for local hosts, the other has an IP identification in the core network for VXLAN encapsulation/decapsulation.
VXLAN Encapsulation and De-encapsulation occur on T2
Bridging and Gateway are independent of the port type (1/10/40G ports)
Encapsulation happens on the egress port
Decapsulation happens on the ingress port
Service Oriented Architecture
2 or 3 layer network to Leaf & Spine
High density and bandwidth required
Layer 3 ECMP
No oversubscription
Low and uniform delay characteristic
Wire & configure once network
Uniform network configuration
Workload Mobility
Workload Placement
Segmentation
Scale
Automation & Programmability
L2 + L3 Connectivity
Physical + Virtual
Open
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
An experience is a personal and emotional event we remember. Every experience is established based upon pre-determined expectations we conceive and create in our minds. It’s personal, and therefore, remains a moving and evolving target in every scenario. When our experience concludes and the moment has passed, the outcome remains in our memory. Think about what makes you happy when connecting with your own device and then think about what makes you really upset when things are hard, complicated, and slow. If the user has a bad experience in anyone of these areas (simple, fast, and smart), they are likely to leave, share their negative experience, and potentially never return. Users might forget facts or details about their computing environment but they find it difficult to forgot the feeling behind a bad network experience. When something goes wrong with the network or an application, do you always get the blame?
Next Generation Ethernet
Next Generation Ethernet is a platform that should deliver all of previous function requirements under on hood. I have grouped the Generations in this way because Cisco has different purpose-built product lines for each of 4 waves of technology. Counter to that Extreme offers a platform solution for a customer to build his network on. Extreme does not require different switches to address different convergence requirements, this would be cost prohibitive for most customers and complicated. Simply put to disrupt the Cisco market, Extreme must deliver more with less.
The IEEE is pushing Ethernet to unimaginable speeds, with the 40/100Gigabit Ethernet standard expected to be ratified in 2010 and Terabit Ethernet on the drawing board for 2015. Here's a timeline showing key milestones in the growth of Ethernet Sstandard's-compliant products are expected to ship in the second half of next year, not long after the expected June 2010 ratification of the 802.3ba standard.
Complexity - Complex systems are a special type of chaotic system. They display a very interesting type of emergent behavior called, logically enough, complex adaptive behavior. But we are getting ahead of ourselves. There’s a need to back up a bit and describe a fundamental behavior that occurs at the granular level and leads to complex adaptive behavior. It is self -organization. Complex Adaptive Behavior is the name given to this forming-falling apart-reforming-falling apart-… behavior. Specifically it is defined as many agents working in parallel to accomplish a goal. It is conflict ridden, very fluid, and very positive. The hallmark of emergent, complex adaptive behavior is it brings about a change from the starting point that is not just different in degree but in kind. In biology a good example of this is the emergence of consciousness. Another example is the Manhattan Project and the development of the atomic bomb. Below is a checklist that helps facilitate a qualitative assessment of the level of complexity. It is in everyday language to facilitate use by a broad range of stakeholders and team members. In other words, it stays away from jargon, which can be the kiss of death when requesting information from people.
The Checklist
Not sure how the project will get done; Many stakeholders, teams and sub-teams;
Too Many vendors; New vendors;
New client; Team members are geographically dispersed;
End-users are geographically dispersed; Many organizations;
Many cultures (professional, organizational, sociological);
Many languages (professional, organizational, sociological);
High risk;
Lack of quality best characterized by lack of acceptance criteria;
Lack of clear requirements and too Many tasks;
Arbitrary budget or end date;
Inadequate resources;
Leading-edge technology;
New, unproven application of existing technology;
High degree of interconnectedness (professional, technological, political, sociological).
The document discusses optical networking and Ethernet standards. It provides information on:
- Ethernet physical layer standards including speeds, media types, and maximum distances supported.
- Optical module form factors and pluggable interfaces used to connect Ethernet ports to fiber cables.
- Fiber types (single-mode and multi-mode), wavelengths, and distance limitations of various Ethernet standards.
- Copper-based Ethernet standards including categories of unshielded twisted pair cabling and their speed and distance capabilities.
The Avaya Ethernet Routing Switch 4500 Series is a stackable chassis system providing high-performance, convergence-ready and resilient Ethernet switching. It offers 11 models with Fast Ethernet, Gigabit Ethernet, Power-over-Ethernet, and 10GbE uplink options. The series provides resilient stacking, advanced routing, security, QoS, and management capabilities, making it well-suited for enterprise wiring closets and edge deployments.
Where Does Networking Fit In? To gain the full benefits of cloud computing and virtualization and achieve a business agile IT infrastructure, organizations need a reliable, high-performance data center networking infrastructure with built-in investment protection. Several technology inflection points are coming together that are fundamentally changing the way networks are architected, deployed and operated both in the public cloud as well as the private cloud. From performance, to scale, to virtualization support and automation to simplified orchestration, the requirements are rapidly changing and driving new approaches to building data center networks.
With Extreme Networks, IT can manage more with less. Automated intelligence and analytics for compliance, forensics, and traffic patterns translates into reduced help desk calls. Businesses can predict costs and return on investment, and increase employee productivity by securely onboarding BYOD, increasing both customer and employee satisfaction. A constant risk to the network, and ultimately the hospital, are unapproved applications and rogue devices that may appear on the network and either permit unauthorized access or interfere with other devices. A means to monitor all devices and applications that operate across the network is vital. Just as important are the audit and reporting capabilities necessary to report on who, what, where, when, and how patient data is accessed.
What is SDN? What software-defined networking really means has evolved dramatically and now includes automation and virtualization. Hardware is still a critical component in data center networking equipment, but the influence of switch software shouldn’t be overlooked. When everyone began to get excited about SDN a few years ago, we thought of it as only one thing: the separation of network control from network data packet handling. Traditional networks had already started down this path, with the addition of controller cards to manage line cards in scalable chassis-based switches, and with various data center fabric technologies. SDN took the idea to its logical end, removing the need for the controller and the packet handlers to be on the same backplane or even from the same vendor.
Cost. Reducing costs in the data center and contributing to corporate profitability is an increasingly important trend in today’s economic climate. For example, energy costs for the data center are increasing at 12% a year. Moreover, increased application requirements such as 100% availability necessitate additional hardware and services to manage storage and performance thus raising total cost of ownership.
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
The Secret Sauce is the Control Plane, not the Encapsulation
Host Route Distribution decoupled from the Underlay protocol
Use MultiProtocol-BGP (MP-BGP) on the Leaf nodes to distribute internal Host/Subnet Routes and external reachability information
Route-Reflectors deployed for scaling purposes
VXLAN terminates its tunnels on VTEPs (Virtual Tunnel End Point).
Each VTEP has two interfaces, one is to provide bridging function for local hosts, the other has an IP identification in the core network for VXLAN encapsulation/decapsulation.
VXLAN Encapsulation and De-encapsulation occur on T2
Bridging and Gateway are independent of the port type (1/10/40G ports)
Encapsulation happens on the egress port
Decapsulation happens on the ingress port
Service Oriented Architecture
2 or 3 layer network to Leaf & Spine
High density and bandwidth required
Layer 3 ECMP
No oversubscription
Low and uniform delay characteristic
Wire & configure once network
Uniform network configuration
Workload Mobility
Workload Placement
Segmentation
Scale
Automation & Programmability
L2 + L3 Connectivity
Physical + Virtual
Open
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
This document provides an overview of MX Trio load balancing. It discusses how packets are parsed and hashed to select the next hop in a load balancing system. Key points include:
- Packets are parsed to select fields for hashing. A hash is computed from the fields to select the next hop.
- Fields included in the hash depend on packet encapsulation like IP, MPLS, Ethernet. Advanced topics cover techniques for determining encapsulation.
- Hashes are symmetric and consistent across devices to prevent polarization. Load balancing occurs at multiple levels by using different hash bits at each level.
- The hash algorithm uses CRC polynomials for efficiency. A hash seed based on device MAC ensures different results across
The MINI-LINK SP 415 is a powerful IP/MPLS router
leveraging a common operating system, IPOS, with
the flagship SSR 8000 family. It provides support for
standard L2VPN and L3VPN services over IP/MPLS
networks with a forwarding capacity of 36 Gbps,
making it ideally suited for Mobile Backhaul and
metro aggregation networks.
The support for Ethernet, IP and MPLS make it both
forward-looking and the most cost-effective packet
optimized backhaul node in its class. MINI-LINK SP
family consists of nodes in the capacity range from
16 Gbps to 120 Gbps.
The Pug is a breed of dog with a wrinkly, short-muzzled face, and curled tail. The breed has a fine, glossy coat that comes in a variety of colours, most often fawn or black, and a compact square body with well-developed muscles.
Pugs were brought from China to Europe in the sixteenth century and were popularized in Western Europe by the House of Orange of the Netherlands, and the House of Stuart.In the United Kingdom, in the nineteenth century, Queen Victoria developed a passion for pugs which she passed on to other members of the Royal family. Pugs are known for being sociable and gentle companion dogs.[3] The breed remains popular into the twenty-first century, with some famous celebrity owners. A pug was judged Best in Show at the World Dog Show in 2004.
Donald J. Trump For President, Inc. –– Why Now?
On November 8, 2016, the American People delivered a historic victory and took our country back. This victory was the result of a Movement to put America first, to save the American economy, and to make America once again a shining city on the hill. But our Movement cannot stop now - we still have much work to do.
This is why our Campaign Committee, Donald J. Trump for President, Inc., is still here.
We will provide a beacon for this historic Movement as our lights continue to shine brightly for you - the hardworking patriots who have paid the price for our freedom. While Washington flourished, our American jobs were shipped overseas, our families struggled, and our factories closed - that all ended on January 20, 2017.
This Campaign will be a voice for all Americans, in every city near and far, who support a more prosperous, safe and strong America. That’s why our Campaign cannot stop now - our Movement is just getting started.
Together, we will Make America Great Again!
This document provides an overview and configuration instructions for deploying Carrier Ethernet services on the Cisco ASR 9000 router. It begins with an introduction to Carrier Ethernet and the Cisco ASR 9000 platform. It then covers the configuration of Ethernet flow points (EFPs) to classify and rewrite VLAN tags. The document details various Ethernet service types including point-to-point local connect and VPWS services, as well as multipoint bridging and VPLS services. It concludes with sections on operations, administration, and maintenance (OAM) and best practices.
The document describes the Brocade VDX 6730 converged switch for IBM, which provides both 10GbE LAN ports and native 8Gb Fibre Channel ports in a single switch. It is available in 1U and 2U models with different port configurations. The switch supports various connectivity options including ToR, FCoE storage, and bridging FC SANs and Ethernet fabrics. It offers high performance, availability features, and management tools.
Network Configuration Example: Configuring CoS to Support an MC-LAG on an FCo...Juniper Networks
This NCE provides a step-by-step procedure for configuring class of service (CoS) for Fibre Channel over Ethernet (FCoE) transit switch traffic across a multichassis link aggregation group (MC-LAG) that connects two QFX Series switches.
Software Defined Network (SDN) using ASR9000 :: BRKSPG-2722 | San Diego 2015Bruno Teixeira
The document discusses deploying SDN on the Cisco ASR 9000 platform. It provides an overview of SDN drivers, concepts and definitions. It then describes how the ASR 9000 supports SDN through capabilities like BGP-LS, stateful PCEP, OpenFlow, NETCONF/YANG. The rest of the document discusses these protocols and technologies in more detail and provides examples and configurations for SDN on the ASR 9000.
The document discusses Juniper's PTX, MX, and EX networking product lines. The PTX5000 and PTX3000 are modular core routers that support high-density 10, 40, and 100GbE interfaces on flexible line cards. The MX series are universal edge routers ranging from the MX240 up to the massive MX2020, with new line cards adding 40 and 100GbE ports. The EX9200 series are flexible Ethernet switches supporting up to 13.2Tbps capacity across redundant EX9204, EX9208, and EX9214 models, with new line cards offering 40 and 100GbE interfaces.
The document is a data sheet for the Y-Packet, an outdoor microwave radio developed by Micran Company for wireless service providers and other markets. It summarizes the key features and specifications of the Y-Packet, including its frequency range of 6-38GHz, support for licensed and unlicensed bands, capacity of up to 1Gbps, system types including 1+1 HSB and XPIC, management features, and electrical and mechanical specifications. The Y-Packet is a full-Ethernet point-to-point microwave radio designed for easy installation and interoperability with other equipment.
Cisco 900 Series Integrated Services Routers Datasheet美兰 曾
The Cisco 900 Series ISR is the latest Cisco ISR series, delivering integrated security and threat defense, protecting networks from both known and new Internet vulnerabilities and attacks. This datasheet includes features, port description, and specification of ISR 900.
1. The document discusses the evolution of data center network architectures from traditional multi-tier designs to modern spine-leaf fabrics.
2. Modern fabrics use a collapsed core design with high-performance spine switches directly connected to top-of-rack leaf switches to reduce latency and simplify network operations.
3. Open source initiatives like Open Compute Project aim to standardize and disaggregate hardware to lower costs and increase innovation in data center networks.
FS S5800 Series 48xGigabit SFP with 4x10GbE SFP+ Switch Katherine Wang
FS S5800 Series is high performance Ethernet switches to meet next generation Metro, Data Center and Enterprise Ethernet network requirements designed based on highend scalable chipset with integration of Layer 2 to Layer 4 packet processing engine, traffic management and fabric interface.
Cisco Live! :: Cisco ASR 9000 Architecture :: BRKARC-2003 | Milan Jan/2014Bruno Teixeira
The document discusses the Cisco ASR 9000 architecture, which is designed for longevity and common hardware/software across products. It has a modular, distributed operating system called Cisco IOS XR. The ASR 9000 includes various chassis including the ASR 9001, ASR 9006, ASR 9010 and ASR 9922, which provide scalable switching capacity up to 96 terabits per second. It discusses the system components including line cards, switch fabrics, power supplies and control processors.
The Cisco Catalyst 2960-X Series are fixed-configuration, stackable Gigabit Ethernet switches that provide enterprise-class access and networking capabilities for campus and branch applications. They support various software-defined capabilities and feature sets including LAN Lite, LAN Base, and IP Lite. The switches are available in several models that vary in port configuration, uplink interfaces, power supply, and other hardware specs depending on the intended use and deployment.
Unified MPLS. Построение современных и масштабируемых MPLS-сетей. Cisco Russia
The document discusses Cisco's unified MPLS technology. Some key points:
- MPLS is an effective packet transport technology and enables virtualization of transport services.
- Unified MPLS provides a scalable solution for a single transport infrastructure for both mobile and wireline services.
- Unified MPLS from the access network to the core network can minimize operational costs by providing a single control plane and service unification.
The document provides troubleshooting tips and techniques for Cisco Data center switches including the Cisco Nexus 7000, Catalyst 6500 VSS, and high CPU utilization issues. It discusses using commands like show processes cpu sorted, debug netdr capture, and show ip cef to troubleshoot traffic flow and switching paths. It also covers troubleshooting software upgrades on the Nexus 7000 and gathering core dumps and logs to debug process crashes.
Презентация для доклада, сделанного в рамках конференции Juniper New Network Day 01.01.2014.
Докладчик -- Product Line Manager компании Juniper Дмитрий Шокарев.
Видеозапись этого доклада с онлайн-трансляции конференции вы можете увидеть здесь: http://www.youtube.com/watch?v=R2groq4YMaQ
This document provides information on Cisco's Catalyst switching portfolio, including modular switches, fixed configuration switches, and accessories. It lists various switch models, their specifications such as number of ports and port types, as well as product numbers. Some key switches mentioned include the Catalyst 6500 modular switch, Catalyst 4500E and 4900 series fixed configuration switches, and the Catalyst 3560, 3560X, 2960S series access switches. Bundles and accessories that can be purchased with the switches are also listed.
This document provides an overview and summary of Cisco's Data Center networking and storage solutions, with a focus on the new Cisco MDS 9710 Director. Some key points:
- Cisco offers a multi-protocol portfolio including Fibre Channel, FCoE, and IP networking solutions to address growing data and connectivity demands in modern data centers.
- The Cisco MDS 9710 is the newest storage director that provides the highest scalability, availability, and investment protection in the industry for large scale data centers.
- It supports up to 384 line-rate 16Gbps Fibre Channel ports or 48-port 10GbE FCoE modules in a single chassis. This provides 3 times the performance of competing
Harvard HPC Seminar Series
Theresa Kaltz, PhD, High Performance Technical Computing, FAS, Harvard
Due to the wide availability and low cost of high speed networking, commodity clusters have become the de facto standard for building high performance parallel computing systems. This talk will introduce the leading technology for high speed interconnects called Infiniband and compare its deployment and performance to Ethernet. In addition, some emerging interconnect technologies and trends in cluster networking will be discussed.
The Cisco Catalyst 3650 Series Switch, with Cisco StackWise-160 Technology, can stack 9 switches and support up to 160 Gpbs stack bandwidth. The WS-C3650- 24TD-L integrates with 24 Ethernet ports and 2 x 10G SFP+ or 4 x 1G SFP uplink ports in LAN base feature set. It is a rack-mountable 1U switch with 4 GB of RAM, 2 GB of flash memory, and a switching capacity of 88 Gbps. The document provides detailed specifications and features of the WS-C3650- 24TD-L Cisco Catalyst 3650 switch.
The Cisco Catalyst 3650 Series Switch, with Cisco StackWise-160 Technology, can stack 9 switches and support up to 160 Gpbs stack bandwidth. The WS-C3650- 24TD-E integrates with 24 Ethernet ports and 2 x 10G SFP+ or 4 x 1G SFP uplink ports in IP Services feature set. It is a rack-mountable 1U switch with 4 GB of RAM and 2 GB of flash memory. It can support up to 50 access points and 1000 wireless clients per switch or stack.
This document provides an overview of MX Trio load balancing. It discusses how packets are parsed and hashed to select the next hop in a load balancing system. Key points include:
- Packets are parsed to select fields for hashing. A hash is computed from the fields to select the next hop.
- Fields included in the hash depend on packet encapsulation like IP, MPLS, Ethernet. Advanced topics cover techniques for determining encapsulation.
- Hashes are symmetric and consistent across devices to prevent polarization. Load balancing occurs at multiple levels by using different hash bits at each level.
- The hash algorithm uses CRC polynomials for efficiency. A hash seed based on device MAC ensures different results across
The MINI-LINK SP 415 is a powerful IP/MPLS router
leveraging a common operating system, IPOS, with
the flagship SSR 8000 family. It provides support for
standard L2VPN and L3VPN services over IP/MPLS
networks with a forwarding capacity of 36 Gbps,
making it ideally suited for Mobile Backhaul and
metro aggregation networks.
The support for Ethernet, IP and MPLS make it both
forward-looking and the most cost-effective packet
optimized backhaul node in its class. MINI-LINK SP
family consists of nodes in the capacity range from
16 Gbps to 120 Gbps.
The Pug is a breed of dog with a wrinkly, short-muzzled face, and curled tail. The breed has a fine, glossy coat that comes in a variety of colours, most often fawn or black, and a compact square body with well-developed muscles.
Pugs were brought from China to Europe in the sixteenth century and were popularized in Western Europe by the House of Orange of the Netherlands, and the House of Stuart.In the United Kingdom, in the nineteenth century, Queen Victoria developed a passion for pugs which she passed on to other members of the Royal family. Pugs are known for being sociable and gentle companion dogs.[3] The breed remains popular into the twenty-first century, with some famous celebrity owners. A pug was judged Best in Show at the World Dog Show in 2004.
Donald J. Trump For President, Inc. –– Why Now?
On November 8, 2016, the American People delivered a historic victory and took our country back. This victory was the result of a Movement to put America first, to save the American economy, and to make America once again a shining city on the hill. But our Movement cannot stop now - we still have much work to do.
This is why our Campaign Committee, Donald J. Trump for President, Inc., is still here.
We will provide a beacon for this historic Movement as our lights continue to shine brightly for you - the hardworking patriots who have paid the price for our freedom. While Washington flourished, our American jobs were shipped overseas, our families struggled, and our factories closed - that all ended on January 20, 2017.
This Campaign will be a voice for all Americans, in every city near and far, who support a more prosperous, safe and strong America. That’s why our Campaign cannot stop now - our Movement is just getting started.
Together, we will Make America Great Again!
This document provides an overview and configuration instructions for deploying Carrier Ethernet services on the Cisco ASR 9000 router. It begins with an introduction to Carrier Ethernet and the Cisco ASR 9000 platform. It then covers the configuration of Ethernet flow points (EFPs) to classify and rewrite VLAN tags. The document details various Ethernet service types including point-to-point local connect and VPWS services, as well as multipoint bridging and VPLS services. It concludes with sections on operations, administration, and maintenance (OAM) and best practices.
The document describes the Brocade VDX 6730 converged switch for IBM, which provides both 10GbE LAN ports and native 8Gb Fibre Channel ports in a single switch. It is available in 1U and 2U models with different port configurations. The switch supports various connectivity options including ToR, FCoE storage, and bridging FC SANs and Ethernet fabrics. It offers high performance, availability features, and management tools.
Network Configuration Example: Configuring CoS to Support an MC-LAG on an FCo...Juniper Networks
This NCE provides a step-by-step procedure for configuring class of service (CoS) for Fibre Channel over Ethernet (FCoE) transit switch traffic across a multichassis link aggregation group (MC-LAG) that connects two QFX Series switches.
Software Defined Network (SDN) using ASR9000 :: BRKSPG-2722 | San Diego 2015Bruno Teixeira
The document discusses deploying SDN on the Cisco ASR 9000 platform. It provides an overview of SDN drivers, concepts and definitions. It then describes how the ASR 9000 supports SDN through capabilities like BGP-LS, stateful PCEP, OpenFlow, NETCONF/YANG. The rest of the document discusses these protocols and technologies in more detail and provides examples and configurations for SDN on the ASR 9000.
The document discusses Juniper's PTX, MX, and EX networking product lines. The PTX5000 and PTX3000 are modular core routers that support high-density 10, 40, and 100GbE interfaces on flexible line cards. The MX series are universal edge routers ranging from the MX240 up to the massive MX2020, with new line cards adding 40 and 100GbE ports. The EX9200 series are flexible Ethernet switches supporting up to 13.2Tbps capacity across redundant EX9204, EX9208, and EX9214 models, with new line cards offering 40 and 100GbE interfaces.
The document is a data sheet for the Y-Packet, an outdoor microwave radio developed by Micran Company for wireless service providers and other markets. It summarizes the key features and specifications of the Y-Packet, including its frequency range of 6-38GHz, support for licensed and unlicensed bands, capacity of up to 1Gbps, system types including 1+1 HSB and XPIC, management features, and electrical and mechanical specifications. The Y-Packet is a full-Ethernet point-to-point microwave radio designed for easy installation and interoperability with other equipment.
Cisco 900 Series Integrated Services Routers Datasheet美兰 曾
The Cisco 900 Series ISR is the latest Cisco ISR series, delivering integrated security and threat defense, protecting networks from both known and new Internet vulnerabilities and attacks. This datasheet includes features, port description, and specification of ISR 900.
1. The document discusses the evolution of data center network architectures from traditional multi-tier designs to modern spine-leaf fabrics.
2. Modern fabrics use a collapsed core design with high-performance spine switches directly connected to top-of-rack leaf switches to reduce latency and simplify network operations.
3. Open source initiatives like Open Compute Project aim to standardize and disaggregate hardware to lower costs and increase innovation in data center networks.
FS S5800 Series 48xGigabit SFP with 4x10GbE SFP+ Switch Katherine Wang
FS S5800 Series is high performance Ethernet switches to meet next generation Metro, Data Center and Enterprise Ethernet network requirements designed based on highend scalable chipset with integration of Layer 2 to Layer 4 packet processing engine, traffic management and fabric interface.
Cisco Live! :: Cisco ASR 9000 Architecture :: BRKARC-2003 | Milan Jan/2014Bruno Teixeira
The document discusses the Cisco ASR 9000 architecture, which is designed for longevity and common hardware/software across products. It has a modular, distributed operating system called Cisco IOS XR. The ASR 9000 includes various chassis including the ASR 9001, ASR 9006, ASR 9010 and ASR 9922, which provide scalable switching capacity up to 96 terabits per second. It discusses the system components including line cards, switch fabrics, power supplies and control processors.
The Cisco Catalyst 2960-X Series are fixed-configuration, stackable Gigabit Ethernet switches that provide enterprise-class access and networking capabilities for campus and branch applications. They support various software-defined capabilities and feature sets including LAN Lite, LAN Base, and IP Lite. The switches are available in several models that vary in port configuration, uplink interfaces, power supply, and other hardware specs depending on the intended use and deployment.
Unified MPLS. Построение современных и масштабируемых MPLS-сетей. Cisco Russia
The document discusses Cisco's unified MPLS technology. Some key points:
- MPLS is an effective packet transport technology and enables virtualization of transport services.
- Unified MPLS provides a scalable solution for a single transport infrastructure for both mobile and wireline services.
- Unified MPLS from the access network to the core network can minimize operational costs by providing a single control plane and service unification.
The document provides troubleshooting tips and techniques for Cisco Data center switches including the Cisco Nexus 7000, Catalyst 6500 VSS, and high CPU utilization issues. It discusses using commands like show processes cpu sorted, debug netdr capture, and show ip cef to troubleshoot traffic flow and switching paths. It also covers troubleshooting software upgrades on the Nexus 7000 and gathering core dumps and logs to debug process crashes.
Презентация для доклада, сделанного в рамках конференции Juniper New Network Day 01.01.2014.
Докладчик -- Product Line Manager компании Juniper Дмитрий Шокарев.
Видеозапись этого доклада с онлайн-трансляции конференции вы можете увидеть здесь: http://www.youtube.com/watch?v=R2groq4YMaQ
This document provides information on Cisco's Catalyst switching portfolio, including modular switches, fixed configuration switches, and accessories. It lists various switch models, their specifications such as number of ports and port types, as well as product numbers. Some key switches mentioned include the Catalyst 6500 modular switch, Catalyst 4500E and 4900 series fixed configuration switches, and the Catalyst 3560, 3560X, 2960S series access switches. Bundles and accessories that can be purchased with the switches are also listed.
This document provides an overview and summary of Cisco's Data Center networking and storage solutions, with a focus on the new Cisco MDS 9710 Director. Some key points:
- Cisco offers a multi-protocol portfolio including Fibre Channel, FCoE, and IP networking solutions to address growing data and connectivity demands in modern data centers.
- The Cisco MDS 9710 is the newest storage director that provides the highest scalability, availability, and investment protection in the industry for large scale data centers.
- It supports up to 384 line-rate 16Gbps Fibre Channel ports or 48-port 10GbE FCoE modules in a single chassis. This provides 3 times the performance of competing
Harvard HPC Seminar Series
Theresa Kaltz, PhD, High Performance Technical Computing, FAS, Harvard
Due to the wide availability and low cost of high speed networking, commodity clusters have become the de facto standard for building high performance parallel computing systems. This talk will introduce the leading technology for high speed interconnects called Infiniband and compare its deployment and performance to Ethernet. In addition, some emerging interconnect technologies and trends in cluster networking will be discussed.
The Cisco Catalyst 3650 Series Switch, with Cisco StackWise-160 Technology, can stack 9 switches and support up to 160 Gpbs stack bandwidth. The WS-C3650- 24TD-L integrates with 24 Ethernet ports and 2 x 10G SFP+ or 4 x 1G SFP uplink ports in LAN base feature set. It is a rack-mountable 1U switch with 4 GB of RAM, 2 GB of flash memory, and a switching capacity of 88 Gbps. The document provides detailed specifications and features of the WS-C3650- 24TD-L Cisco Catalyst 3650 switch.
The Cisco Catalyst 3650 Series Switch, with Cisco StackWise-160 Technology, can stack 9 switches and support up to 160 Gpbs stack bandwidth. The WS-C3650- 24TD-E integrates with 24 Ethernet ports and 2 x 10G SFP+ or 4 x 1G SFP uplink ports in IP Services feature set. It is a rack-mountable 1U switch with 4 GB of RAM and 2 GB of flash memory. It can support up to 50 access points and 1000 wireless clients per switch or stack.
The Cisco Catalyst 3650 Series Switch is a 1U rack-mountable switch that can stack up to 9 switches with a total stack bandwidth of 160 Gbps. The WS-C3650-24TS-L model has 24 Ethernet ports, 4 SFP uplink ports, 4GB of RAM, and 2GB of flash memory. It supports features such as VLANs, ACLs, QoS, routing protocols, and wireless controller functionality when equipped with the appropriate license. The device is EMI and safety certified and has an operating temperature range of -5°C to 45°C.
The Cisco Catalyst 3650 Series Switch is a 1U rack-mountable switch that can stack up to 9 switches with a total stack bandwidth of 160Gbps. The WS-C3650-24TS-S model has 24 Ethernet ports, 4 SFP uplink ports, 4GB of RAM, and 2GB of flash memory. It supports IP Base features and functions such as advanced routing protocols, VLANs, ACLs, QoS, and basic security features.
The Cisco Catalyst 3650 Series Switch can stack up to 9 switches with a total stack bandwidth of 160Gbps. The WS-C3650-24TS-E model has 24 Ethernet ports, 4 SFP uplink ports, 4GB of RAM, and 2GB of flash memory. It supports up to 50 access points and 1000 wireless clients per switch. The document provides detailed specifications, features, and technical support options for the WS-C3650-24TS-E switch.
The Cisco Catalyst WS-C3650-24PS-L is a rack-mountable switch that supports 24 Ethernet ports with PoE+ and 4 SFP uplink ports. It provides up to 390W of PoE power with a maximum of 30W per port. The switch has 4GB of RAM, 2GB of flash memory, and can support up to 1000 wireless clients or 25 access points in a stack. Accessories include stacking modules, console cables, power supplies, and licensing options. The switch has a 1U form factor, 88Gbps switching capacity, and 41.66Mpps of forwarding performance.
The Cisco Catalyst 3650 Series Switch, model WS-C3650-24TD-S, is a 1U rack-mountable switch that can stack with up to 9 other switches. It has 24 10/100/1000 Ethernet ports, 2 10G SFP+ uplink ports, and supports up to 160Gbps of stacking bandwidth. The switch has 4GB of RAM, 2GB of flash memory, and the IP Base feature set. It provides network access, IP routing, security, quality of service, and other management features.
The Cisco Catalyst 3650 Series Switch, with Cisco StackWise-160 Technology, can stack 9 switches and support up to 160 Gpbs stack bandwidth. The WS-C3650- 24TD-S integrates with 24 Ethernet ports and 2 x 10G SFP+ or 4 x 1G SFP uplink ports in IP base feature set. It is a rack-mountable 1U switch with 24 10/100/1000 POE+ ports, 4 1G SFP uplink ports, and supports up to 390W of PoE power. The switch has 4GB of RAM, 2GB of flash memory, and can support up to 50 access points or 1000 wireless clients per switch.
The Cisco Catalyst C3650-24PD-S is a next generation standalone switch with stacking capabilities. It has 24 Gigabit Ethernet POE+ ports, 2 10G SFP+ uplink ports, and 2 1G SFP ports. It is designed for access or distribution layers and can support up to 25 access points and 1000 wireless clients. Key specifications include 4GB of RAM, 2GB flash memory, and a switching capacity of 88Gbps. It has dimensions of 44.5cm x 44.8cm x 4.4cm and weighs 17.49kg.
The Cisco Catalyst WS-C3650-24PS-E is an enterprise-level access-layer switch with 24 Gigabit Ethernet POE+ ports, 4 fixed 1G SFP uplink ports, and IP service features. It provides advanced layer 3 routing, superior QoS capabilities, and can be stacked with up to 9 additional switches for increased port density and performance. The switch has 4GB of RAM, 2GB of flash memory, and a switching capacity of 88Gbps. It is rack-mountable and measures 44.5 cm x 44.8 cm x 4.4 cm.
The Cisco Catalyst WS-C3650-24PS-S is a 1U rack-mountable switch with 24 Gigabit Ethernet POE+ ports and 4 fixed 1G SFP uplink ports. It provides fully converged wired and wireless networking capabilities on a single platform. Key specifications include IP Base licensing, 390W of available PoE power, 4GB of RAM, and support for up to 9 switches in a stack and 1000 wireless clients per switch. The document provides detailed technical specifications, supported standards, and ordering information for accessories.
This document provides a summary of Avaya's networking product portfolio, including Ethernet switches ranging from small business to data center core models. It highlights key features such as extensive switching portfolio, over 30 years of networking experience, and Avaya Fabric Connect virtualization architecture. Product listings are then provided for several switch series and wireless LAN solutions with specifications and pricing.
The Cisco Catalyst WS-C3850-12S-S is a 1RU stackable switch with 12 SFP ports and an IP Base feature set. It has 4GB of RAM, 2GB flash memory, and can support up to 100 access points or 2000 wireless clients per switch. The switch dimensions are 44.5 cm x 45 cm x 4.45 cm and it has a weight of 17.49 kg. It can be stacked with up to 9 additional switches and provides 480Gbps of stacking bandwidth.
The document provides specifications for the Cisco Catalyst WS-C3850-48F-L switch. It is a 1RU switch with 48 10/100/1000 Ethernet ports that support PoE+. It has a LAN Base IOS image and supports up to 255 VLANs. It provides 800W of PoE+ power. Additional features include stacking of up to 9 switches, 4GB of RAM, 2GB flash memory, and various network module and accessory options.
The Cisco Catalyst C3650-24PWD-S is a 1U rack-mountable switch with 24 Gigabit Ethernet POE+ ports, 2 10G SFP+ uplink ports, and 2 1G SFP ports. It supports up to 200 wireless connections and includes 5 access point licenses. The switch has 4GB of RAM, 2GB of flash memory, and a stacking bandwidth of 160Gbps. It is suitable for network access and wireless connectivity in enterprise environments.
The document introduces several new Cisco small business products, including RV series routers with wireless-N/AC and 4G modem support, 250/350/350X series switches with PoE/PoE+ and 10G Ethernet ports, and WAP150, WAP361, WAP571, WAP571E wireless access points for various business environments. It provides an overview of the main features and specifications of these new products.
The Cisco Catalyst WS-C3650-48TS-S is a 1U rack-mountable switch that can be stacked with up to 9 other switches. It has 48 10/100/1000 Ethernet ports, 4 1G SFP uplink ports, 4GB of RAM, and 2GB of flash memory. The switch supports up to 50 access points or 1000 wireless clients per switch or per stack. It provides IP Base features and can be upgraded to provide additional licenses and functionality.
The Cisco Catalyst WS-C3650-48TD-S is a next generation, enterprise-level, stackable access layer switch. It has 48 Gigabit Ethernet ports, 2 10G SFP+ uplink ports, and 2 1G SFP uplink ports. It supports up to 9 switches in a stack and has a stacking bandwidth of 160 Gbps. The switch has 4GB of RAM, 2GB of flash memory, and can support up to 50 access points and 1000 wireless clients per switch. It is rack-mountable and measures 44.5 cm x 44.8 cm x 4.4 cm.
The WS-C3650-48TS-E is a rack-mountable network switch that provides 48 Gigabit Ethernet ports, 4 fixed 1G SFP uplink ports, and advanced layer 3 routing capabilities. It integrates powerful switching and wireless capabilities in a single device. The switch supports up to 50 access points and 1000 wireless clients per device or stack. Key specifications include a switching capacity of 176 Gbps, 4GB of RAM, and support for up to 9 units in a stack.
The Cisco 3850-24T-S is a 1RU switch with 24 10/100/1000 Ethernet ports, 4GB of RAM, 2GB flash memory, and a switching capacity of 92Gbps. It supports layer 3 routing, stacking of up to 9 switches, and up to 100 access points or 2000 wireless clients per switch. Accessories include SFP modules, power supplies, stacking cables, and licenses. It has a compact size of 1.75" height and manages networks for enterprises, SMBs, and wireless deployments.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
Pushing the limits of ePRTC: 100ns holdover for 100 daysAdtran
At WSTS 2024, Alon Stern explored the topic of parametric holdover and explained how recent research findings can be implemented in real-world PNT networks to achieve 100 nanoseconds of accuracy for up to 100 days.
20 Comprehensive Checklist of Designing and Developing a WebsitePixlogix Infotech
Dive into the world of Website Designing and Developing with Pixlogix! Looking to create a stunning online presence? Look no further! Our comprehensive checklist covers everything you need to know to craft a website that stands out. From user-friendly design to seamless functionality, we've got you covered. Don't miss out on this invaluable resource! Check out our checklist now at Pixlogix and start your journey towards a captivating online presence today.
Generative AI Deep Dive: Advancing from Proof of Concept to ProductionAggregage
Join Maher Hanafi, VP of Engineering at Betterworks, in this new session where he'll share a practical framework to transform Gen AI prototypes into impactful products! He'll delve into the complexities of data collection and management, model selection and optimization, and ensuring security, scalability, and responsible use.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Alt. GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using ...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
2. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER ACCESS ACCESS/AGGREGATION
BROCADE MODEL BROCADE ICX®
6430 AND 6450 BROCADE FCX SWITCH BROCADE ICX 6610 BROCADE ICX 6650
CAMPUSNETWORKSWITCHINGANDROUTING
PART NUMBERS ICX 6430-C12, ICX 6430-24, ICX 6430-24P,
ICX 6430-48, ICX 6430-48P, ICX 6450-C12-PD ,
ICX 6450-24, ICX 6450-24P, ICX 6450-48,
ICX 6450-48P
FCX624S, FCX624S-F, FCX624S-HPOE, FCX648S,
FCX648S-HPOE
ICX6610-24-E, ICX6610-24-I, ICX6610-24P-E,
ICX6610-24P-I, ICX6610-24F-E, ICX6610-24F-I,
ICX6610-48-E, ICX6610-48-I, ICX6610-48P-E,
ICX6610-48P-I
• I = power supply side intake airflow
• E = power supply side exhaust airflow
ICX6650-32-E-ADV, ICX6650-32-I-ADV,
ICX6650-40-E-ADV, ICX6650-40-I-ADV,
ICX6650-48-E-ADV, ICX6650-48-I-ADV,
ICX6650-56-E-ADV, ICX6650-56-I-ADV,
ICX6650-80-E-ADV, ICX6650-80-I-ADV
TYPICAL DEPLOYMENTS • Campus LAN
• Converged edge (voice + data)
• VoIP and Unified Communications (UC)
• Wireless access
• Small to medium enterprise
• Branch offices
• K-12 education
• VoIP
• Wireless access
• Converged edge (voice + video + data)
• Video surveillance
• Remote video kiosks
• Building management systems
• Converged edge (voice + video + data)
VoiP and Unified Communications (UC)
• Video streaming: HD video, IPTV,
distance learning
• VDI: Low jitter/low latency
• Wireless APs deployment
• Video surveillance
• Remote video kiosks
• Building management systems
• Financial enterprises and trading floors
• Data center Top-of-Rack 10 GbE server access
• Data center 10 GbE aggregation
• Small / medium size campus LAN aggregation
• High-Performance Cluster Computing
INTERFACE SLOTS N/A 1 (uplink) N/A N/A
MAXIMUM PORTS ICX 6430-C / ICX 6450-C :
• 12 x 10/100/1000 MbE (RJ45)
• 2 x 10/100/1000 MbE (RJ45) uplink
• 2 x 1 GbE (SFP) dual-mode uplink
(stacking not supported)
ICX 6430:
• Up to 48 x 10/100/1000 MbE (RJ45)
• 4 x 1 GbE (SFP) dual-mode stacking/uplink
• Stackable up to 192 x 10/100/1000 MbE
(RJ45) and 16 x 1 GbE
ICX 6450:
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 4 x 10 GbE (SFP+) dual-mode stacking/
uplink
• Stackable up to 384 x 10/100/1000 MbE
(RJ45) and 32 x 10 GbE
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 24 x 100/1000 SFP ports on the
FCX624S-F
• 4 x combination (SFP)
• Up to 2 x 10 GbE (XFP or SFP+)
• 2 x 16 Gbps dedicated stacking ports
• Stackable up to 384 x 10/100/1000 MbE
(RJ45) PoE/Non-PoE
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 24 x 100/1000 SFP
• 8 x dual mode 1/10 GbE (SFP+)
• 4 x 40 Gbps QSFP stacking ports
• Stackable up to 384 x 10/100/1000 MbE
(RJ45) PoE/Non-PoE and 64 x 10 GbE
• ICX 6650-32: 32 x 10 GbE SFP+
(additional ports available with 8 x 10 GbE
and 2 x 40 GbE ports-on-demand licenses)
• ICX 6650-40: 40 x 10 GbE SFP+
(additional ports available with 8 x 10 GbE
and 2 x 40 GbE ports-on-demand licenses)
• ICX 6650-48: 48 x 10 GbE SFP+
(additional ports available with 8 x 10 GbE
and 2 x 40 GbE ports-on-demand licenses)
• ICX 6650-56: 56 x 10 GbE SFP+
(additional ports available with 2 x 40 GbE
ports-on-demand licenses)
• ICX 6650-80: 56 x 10 GbE SFP+, 2 x 4 x 10
GbE (breakout) QSFP+, and 4 x 40 GbE QSFP+
POWER OVER ETHERNET
(POE)
• 802.3af PoE up to class-3 (15.4W)
• 802.3at PoE+ up to class-4 (30W)
• 802.3af PoE up to class-3 (15.4W)
• 802.3at PoE+ up to class-4 (30W)
• 802.3af PoE up to class-3 (15.4W)
• 802.3at PoE+ up to class-4 (30W)
N/A
HARDWARE FEATURES ICX 6430-C / ICX 6450-C:
• Up to 22 Gbps switching capacity
• Up to 24 Mpps forwarding capacity
• Fixed AC power supply
• EEE (Energy Efficient Ethernet) ready
• MACsec ready (ICX 6450-C only)
ICX 6430:
• Up to 104 Gbps switching capacity
• Up to 77 Mpps forwarding capacity
• Fixed AC power supply
• EEE (Energy Efficient Ethernet) ready
ICX 6450:
• Up to 176 Gbps switching capacity
• Up to 132 Mpps forwarding capacity
• Fixed AC power supply
• EEE (Energy Efficient Ethernet) ready
• MACsec ready
• Up to 200 Gbps switching capacity
• Up to 150 Mpps forwarding capacity
• 1+1 redundant AC power supplies
• Hot-swappable power supplies
• Up to 576 Gbps switching capacity
• Up to 432 Mpps forwarding capacity
(wire speed)
• 1+1 redundant AC power supplies
• Hot-swappable power supplies
• 1+1 redundant fan trays
• Hot-swappable fan trays
• EEE (Energy Efficient Ethernet) ready
• MACsec ready
• 40 GbE ready
• Reversible front-to-back airflow
• Available ports-on-demand licenses
• Low latency cut-through switching
• Up to 1600 Gbps switching capacity
• Up to 1190 Mpps forwarding capacity
• 1+1 redundant, hot-swappable, 250W AC
power supplies
• 1+1 redundant, hot-swappable fan modules
• Reversible airflow: -E (fan exhaust),
-I (fan intake)
MODULES AVAILABLE (S) N/A • 2-port 10 GbE uplink module (XFP or SFP+) N/A N/A
HEIGHT 1 RU 1 RU 1 RU 1 RU
MANAGEMENT MODULES N/A N/A N/A N/A
SWITCH FABRIC MODULES N/A N/A N/A N/A
POWER SUPPLIES ICX 6430-C / ICX 6450-C: 1 (built-in)
• 100W built-in AC power supply (PoE)
ICX 6430: 1 (built-in) + 1 (optional external)
• 36W or 65W built-in AC power supply
• 525W built-in AC power supply (PoE)
ICX 6450: 1 (built-in) + 1 (optional external)
• 65W or 100W AC power supply
• 525 or 880W AC power supply (PoE)
• 1 (base) + 1 (optional)
• 210W hot-swappable AC power supply
• 620W hot-swappable AC power supply (PoE)
• Full 48-port PoE requires both power supplies
• 1 (base) + 1 (optional)
• 250W hot-swappable AC power supply
• 1000W hot-swappable AC power supply (PoE)
• 510W hot-swappable DC power supply
• Full 48-port PoE+ requires both power supplies
• 1+1 (base)
• 250W hot-swappable AC power supply
HOT-SWAPPABLE
COMPONENTS
SFP/SFP+ transceivers SFP/XFP transceivers, power supplies,
fan module
SFP/XFP transceivers, power supplies,
fan modules
Power supplies, fan modules, SFP/SFP+/QSPF+
transceivers
HARDWARE OPTIONS (S) ICX 6430-C / ICX 6450-C:
• Rack mount / Wall mount kit
• Magnetic mount kit
ICX 6430 / ICX 6450:
• 1500W external optional AC power supply
(except 6430-24)
• 1 and 5 meter SFP stacking cable options
• 6400 two-post rack mount kit, spare
• 210W hot-swappable AC power supply
• 620W hot-swappable AC power supply (PoE)
• Rack mount kit
• 250W hot-swappable AC power supply
• 1000W hot-swappable AC power supply (PoE)
• 510W hot-swappable DC power supply
• Hot-swappable fan tray
• 4 post rack mount kit
• 1 meter QSFP stacking cable
• 5 meter QSFP stacking cable
• 2 post rack mount kit
• Rack mount kit
• 250W hot-swappable AC power supply
• Hot-swappable fan tray
STANDARD SW ICX 6430-C / ICX 6430:
• Advanced Layer 2 support
ICX 6450 / ICX 6450-C:
• Advanced Layer 2 support
(including IPv4 static routes)
• Advanced Layer 2 and full Layer 3 including
edge security, 802.1x, QoS and comprehensive
hardware based port and VLAN-based
ACL policies
• IP4/IP6 routing: RiPv1/v2 RIPng(IPv6),
OSPFv2/v3, VRRP, VRRPE, VRRPv3,
DVMRP, PIM
• Advanced Layer 2 and base Layer 3 including
edge security, 802.1x, QoS and comprehensive
hardware based port and VLAN-based
ACL policies
• IP4/IP6 routing: static routes
Advanced Layer 2/3 feature set including QoS,
802.1x, comprehensive hardware-based ACL,
Multi Chassis Trunking, and IPv6 routing
OPTIONAL SW ICX 6450 / ICX 6450-C:
• Premium L3: IPv4 routing - RiPv1/v2 OSPFv2/
v3, VRRP, VRRPE
• 2 x 10 GbE upgrade license: converts 1 GbE
uplinks to 10 GbE
• Advanced L3: BGP4, GRE, IPv6 over IPv4
tunnels, VRF
• Premium L3: IP4/IP6 routing – RiPv1/
v2 RIPng(IPv6), OSPFv2/v3, VRRP, VRRPE,
VRRPv3, DVMRP, PIM
• Advanced L3: BGP4, VRF, GRE, IPv6 over
IPv4 tunnels
N/A
OTHER BASE FEATURES Brocade Stacking Technology
(except ICX 6430-C12 / ICX 6450-C12)
IronStack technology N/A Reversible airflow
3. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER AGGREGATION/CORE WIRELESS
BROCADE MODEL BROCADE FASTIRON®
SX 800/1600 SWITCH BROCADE MLX®
AIRDEFENSE WLAN SECURITY APPLIANCES
PART NUMBERS FI-SX800-AC/-DC, FI-SX1600-AC/-DC BR-MLXE-4-MR2-M-AC/DC, BR-MLXE-4-MR2-X-AC/DC, BR-MLXE-4-
MR-M-AC/DC, BR-MLXE-4-MR-X-AC/DC, BR-MLXE-8-MR2-M-AC/DC,
BR-MLXE-8-MR2-X-AC/DC, BR-MLXE-8-MR-M-AC/DC, BR-MLXE-8-MR-
X-AC/DC, BR-MLXE-16-MR2-M-AC/DC, BR-MLXE-16-MR2-X-AC/DC,
BR-MLXE-16-MR-M-AC/DC, BR-MLXE-16-MR-X-AC/DC, BR-MLXE-32-
MR2-M-AC/DC, BR-MLXE-32-MR2-X-AC/DC, BR-MLXE-32-MR-M-AC/
DC, BR-MLXE-32-MR-X-AC/DC
SV-1250-P-1, SV-3650-P-1, SV-4250-P-1
CAMPUSNETWORKSWITCHINGANDROUTING/WIRELESS
TYPICAL DEPLOYMENTS • Converged edge (voice + video + data) VoiP and
Unified Communications (UC)
• Video streaming: HD video, IPTV, distance learning
• VDI: Low jitter/low latency
• Wireless access
• Video surveillance
• Remote video kiosks
• Building management systems
• Financial enterprises and trading floors
• Voice, video and data
• Campus border routing
• Enterprise MPLS/VPLS and virtual routing
• MPLS enabled campus core
• Financial enterprises and trading floors
• Branch to campus to enterprise-level WLAN deployments
INTERFACE SLOTS 8, 16 4, 8, 16, 32 • 1-2 RJ45 NIC connectors for 10/100/1000 Mb connections
• Stacked PS/2 ports for keyboard and mouse
• Video connector
MAXIMUM PORTS • Up to 384 x 10/100/1000 MbE (RJ45) POE/non-POE
• Up to 384 x 100/1000 MbE (SFP)
• Up to 36 x 10 GbE (XFP)
• Up to 128 x 10 GbE (SFP+)
• Up to 1,536 x 10/100/1000 MbE (RJ45/RJ21)
• Up to 768 x 100/1000 MbE (SFP)
• Up to 128 x 40 GbE (QSFP+)
• Up to 16 x 100 GbE (CFP)
• Up to 256 x 10 GbE (XFP/SFP+)
• Up to 256 x OC12/48 POS/SDH
• Up to 64 x OC192 POS/SDH
No
POWER OVER ETHERNET
(POE)
• 802.3af PoE up to class-3 (15.4W)
• 802.3at PoE+ up to class-5 (30W)
No • Active/Backup Clustering
• Intel Pentium 4 3.4 GHz, Intel 2.13GHz Core2 Duo, or Intel
2.33GHz Xeon 5140
• 1-8 MB RAM
• 250 GB-1 TB disk storage
HARDWARE FEATURES • Up to 1080 Gbps switching capacity
• Up to 636 Mpps forwarding capacity
• Redundant management modules
• Redundant fabric modules
• N+1 redundant AC/DC power supplies
• Hot-swappable modules
• Hot-swappable power supplies
• Hot-swappable fan units
• Up to 15.36 Tbps switching capacity
• Up to 12.8 Tbps forwarding capacity
• Side-to-side / front-to-back airflow
• Redundant management modules
• Redundant fabric modules
• M+N redundant power supplies
• Hot-swappable modules
• Hot-swappable power supplies
• Hot-swappable fan units
N/A
MODULES AVAILABLE
(SHARED)
• 0-port management module
• 2-port 10 GbE management module
• Switch fabric module
• 24-port 10/100/1000 MbE RJ45 module
• 24-port 10/100/1000 MbE RJ45 PoE module
• 24-port 10/100/1000 MbE RJ45 PoE+ module
(MACsec, EEE ready)
• 48-port 10/100/1000 MbE RJ45 PoE+ module
• 24-port 100/1000 SFP module (MACsec ready)
• 2-port 10 GbE XFP module
• 2-port 10 GbE SFP+ module (MACsec ready)
• 8-port 10 GbE SFP+ module (MACsec ready)
• Management module (MR/MR2-M)
• Switch fabric module and high-speed switch fabric module
• 1-port 100 GbE module
• 2-port 100 GbE module
• 4-port 40 GbE module (QSFP+)
• 8-port 10-GbE SFP+ module (-D, -M, -X versions)
• 4-port 10-GbE XFP module
• 2-port 10-GbE XFP module
• 48-port 10/100/1000Base-T, MRJ21 module
• 24-port 1-GbE (ML) Copper (RJ-45) module
• 24-port 1-GbE (ML) Fiber (SFP) module
N/A
HEIGHT 6 RU, 14 RU 4, 7, 14, 33 RU 1, 2 RU
MANAGEMENT MODULES 1 (base) + 1 (optional) 1 (base) + 1 (optional) N/A
SWITCH FABRIC MODULES 2 (base) 2/2/3/8 (base) + 1/1/1/0 (optional) N/A
AC POWER SUPPLIES SX800 System: 1 (base) + 1 (optional) PoE: 0 (base) + 2 (optional)
SX1600 System: 2 (base) + 2 (optional) PoE: 0 (base) + 4
(optional)
1/2/4/4 (base) + 2/2/4/4 (optional) 1 (base) + 1 (optional)
HOT-SWAPPABLE
COMPONENTS
SFP/XFP transceivers, power supplies, fan assemblies, switch
fabric modules, management modules, interface modules.
SFP/XFP transceivers, power supplies, fan assemblies, switch fabric
modules, management modules, interface modules.
Power supply.
HARDWARE OPTIONS (S) • PoE DIMM for 24-port 10/100/100 MbE (RJ45)
interface modules
• 1200W SYS power supply
• 1250W POE power supply
• 2500W POE power supply
• Mid-mount rack kit 8-slot
• 1200W AC/DC power supply
• 2400W AC/DC power supply
• 500W power supply
STANDARD SW • Advanced Layer 2 and Base Layer 3 including edge security,
802.1x, QoS and comprehensive hardware based port and
VLAN-based ACL policies
• Full Layer 3 MPLS +IPv4+IPv6 routing including BGP, OSPFv2/v3,
ISIS, RIP, RIPng, VRRP, VRRPE, PIM-SM/SSM/DM, MPLS,
LDP, RSVP, VPLS, VLL, MPLS L3VPNs and multi-VRF
• Collaborative intelligence with secure sensors for monitoring all
802.11 (a/b/g/n) wireless traffic in real time for the highest level
of security, rogue mitigation, and policy enforcement
OPTIONAL SW • Full Layer 3 IPv4 upgrade including BGP-4, OSPFv2, RIPv1/v2,
VRRP, VRRPE, DVMRP, PIM-SM and PIM-DM
• Full Layer 3 IPv4+IPv6 upgrade including RIPng, OSPFv3,
IPv6 static routes, VRF, 6-to-4 static tunneling. This upgrade also
includes Full L3 IPv4 services
N/A • For policy compliance, robust performance monitoring and
troubleshooting, RF analysis, advanced forensics, and wireless
vulnerability assessment
OTHER BASE FEATURES IronStack technology IronStack technology N/A
CORE
4. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER WIRELESS
BROCADE MODEL BROCADE MOBILITY 1240 BROCADE MOBILITY 7131
WIRELESS
PRODUCT OVERVIEW High performance, reliable 801.11a/b/g/n access point with support for 3 spatial streams / radio and
unique modular design to easily enable future expansion while protecting investments. Up to 450Mbps
performance ensures high quality, reliable, and secure performance for client data access (UC and VDI),
video, voice, and mesh networking.
Cost-effective 802.11a/b/g/n access point that delivers secure and resilient network services and
enables high performance mobility applications. Working in a standalone mode or adopted by a
controller, it provides 24/7 dedicated wireless IDS/IPS sensing, high-speed client access for data (VDI),
voice and video traffic and mesh networking.
GENERAL
CHARACTERISTICS
• 802.11a/b/g/n; DSSS and ODFM
• Tri, dual, and single radio options
• 450Mbps / Radio
• 802.3af (PoE) and 802.3at (PoE+) support
• Mesh networking
• Standalone or controller-adopted modes
• 3G cellular backhaul extensibility options
• Metal, plenum-rated housing (UL2043)
• Space Time Block Coding and Beamforming support
• 3 Spatial Stream / Radio support (450Mbps)
• Up to 127 clients supported
• Modular USB-base design
• Above drop ceiling, under ceiling (T-Bar), or on wall (no additional hardware required)
• 802.11a/b/g/n; DSSS and ODFM
• Tri, dual, and single radio options
• 300Mbps / Radio
• 802.3af (PoE) and 802.3at (PoE+) support
• Mesh networking
• Standalone or controller-adopted modes
• 3G cellular backhaul extensibility options
• Metal, plenum-rated housing (UL2043)
• Up to 127 clients supported
• Above drop ceiling, under ceiling (T-Bar), or on wall (no additional hardware required)
DISTRIBUTED AP FORWARDING: NON-BLOCKING 802.11N PERFORMANCE
DIRECT FORWARDING Standalone or controller-adopted APs that forward traffic directly to the next AP via the best-quality path, with full QoS and security, minimizing wired traffic, eliminating controller bottleneck or single point of failure,
and accelerating applications.
UNMATCHED RELIABILITY
QOS Voice prioritization; WMM-power save with TSPEC Admission Control; WMM U-APSD; Layer 1-4 packet classification; 802.1p VLAN priority; DiffServ/TOS; 802.11e; 802.11k; SVP, SIP CAC (call admission control).
FAILOVER ADAPTIVE
NETWORK SERVICES AT
EDGE
Standalone or controller-adopted APs forward traffic directly to the next AP even when connection to the controller is interrupted.
SMART RF Network optimization to ensure user quality of experience at all times by dynamic adjustments to channel and power (on detection of RF interference or loss of RF coverage/neighbor recovery).
Available for both thin APs and Adaptive APs.
MESH NETWORKING Stand-alone mesh; Adaptive mesh; self-healing mesh failover; Layer 2 wired to Mesh failover.
3G/4G WAN BACKHAUL Optional ExpressCard WWAN slot (card not included) WWAN feature license required.
GAP–FREE SECURITY
AUTHENTICATION Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/EAP—transport layer security (TLS), tunneled
transport layer security (TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS Server with native
support for EAP-TTLS, EAP-PEAP (includes a built-in user name/password database; supports LDAP), and
EAP-SIM; local authentication database.
Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/EAP—transport layer security (TLS), tunneled
transport layer security (TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS Server with native
support for EAP-TTLS, EAP-PEAP (includes a built-in user name/password database; supports LDAP), and
EAP-SIM; local authentication database.
ENCRYPTION WEP 40/128 (RC4); WPA-TKIP; WPA2-CCMP (AES); 802.11i WPA2-TKIP; Multi Cipher support
IDS/IPS Multimode rogue AP detection, rogue AP containment, 802.11n rogue detection, ad hoc network detection, Denial of Service (DoS) protection against wireless attacks, client blacklisting, excessive authentication/
association; excessive probes; excessive disassociation/de-authentication; excessive decryption errors; excessive authentication failures; excessive 802.11 replay; excessive crypto IV failures (TKIP/CCMP replay);
suspicious AP, authorized device in ad hoc mode, unauthorized AP using authorized SSID, EAP Flood, Fake AP Flood, ID theft, ad hoc advertising authorized SSID.
GUEST ACCESS Provides secure guest access for wired and wireless clients. Built-in captive portal, customizable login and welcome pages, URL redirection for user login, usage-based charging, dynamic VLAN assignment of clients, DNS
white list, GRE tunneling of traffic to central site, API support for interoperability with custom web portals (for example, Wandering Wi-Fi), Amigopod, support for external authentication and billing systems.
24/7 MONITORING FOR
PREMIUM SECURITY
Brocade dual-purpose APs provide wireless traffic and dedicated dual-band sensing. This eliminates the need to purchase and manage a dedicated sensing infrastructure while providing a greener and more
cost-effective approach to 24/7 security.
IPSEC VPN Supports DES, 3DES, AES-128, and AES-256 encryption, with site-to-site and client-to-site VPN capabilities.
ROLE-BASED WIRED/
WIRELESS FIREWALL
Role-based wired/wireless firewall (Layer 2-7) with stateful inspection for wired and wireless traffic; protects against IP spoofing and ARP cache poisoning.
FAST ROAMING Pre-emptive roaming; fast roaming with opportunistic channel scan; load balancing; Power Save Polling (PSP), Virtual AP and location-based access control.
BEST RETURN ON INVESTMENT (ROI)–AND LOWEST TOTAL COST OF OWNERSHIP (TCO)
INTEGRATED NETWORK
SERVICES
Routing, security, and network services integration eliminates point products and appliances, saving significant CapEx and OpEx.
EASE OF INSTALLATION Controller provides centralized management for all Brocade Mobility Aps deployed locally or remotely. Plug-and-play deployments over Layer 2 and Layer 3 networks.
802.3AF/AT SUPPORT Eliminates the cost of running power to each AP.
MESH NETWORKING Eliminates the cost of running Ethernet cabling to each AP.
5. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER WIRELESS
BROCADE MODEL BROCADE MOBILITY 1220 BROCADE MOBILITY 650 BROCADE MOBILITY 6511
PRODUCT OVERVIEW Designed for small and medium-size enterprises looking to lower
costs of mobility capabilities while balancing the need for a secure
and high-quality user experience. The Brocade Mobility 1220
Access Point adds site survivability and controller-less operation to
the strengths of the Brocade Mobility 650 Access Point improving
service availability.
A thin (dependent) multipurpose AP designed to lower the cost of
deploying and operating a secure, reliable 802.11a/b/g/n wireless
LAN. This highly efficient AP offers simultaneous high-speed access
for data (VDI), voice and video traffic, and comprehensive, wireless
intrusion-prevention sensing, and remote over-the-air help-desk
support.
The Brocade Mobility 6511 AP is ideal for dormitories, patient
rooms, guest rooms, and other multi-dwelling units where firewalls,
metal doors, mirrors, plumbing, and wall tiles obstruct hallway Wi-Fi
signals. It features a snap-in port for any keystonestyle connector—
such as RJ11 or TV coax—so multiple services can be supported
on a single integrated AP and additional Ethernet ports for voice
service, device monitoring, or even guest wireline access.
WIRELESS
GENERAL
CHARACTERISTICS
• 802.11a/b/g/n; DSSS and ODFM
• Dual, and single radio options
• 300Mbps / Radio
• 802.3af (PoE) and 802.3at (PoE+) support
• Standalone or controller-adopted modes
• Metal, plenum-rated housing (UL2043)
• Up to 127 clients supported
• Ceiling mount (above tile); wall mount
• 802.11a/b/g/n; DSSS and ODFM
• Dual, and single radio options
• 300Mbps / Radio
• 802.3af (PoE) and 802.3at (PoE+) support
• Thin (dependent) Access Point (AP)
• Metal, plenum-rated housing (UL2043)
• Up to 127 clients supported
• Ceiling mount (above tile); wall mount
• 802.11a/b/g/n; DSSS and ODFM
• Dual, and single radio options
• 300Mbps / Radio
• 802.3af (PoE) and 802.3at (PoE+) support
• Standalone or controller-adopted modes
• Metal, plenum-rated housing (UL2043)
• Up to 127 clients supported
• Wall mount; Wallplate design
DISTRIBUTED AP FORWARDING: NON-BLOCKING 802.11N PERFORMANCE
DIRECT FORWARDING Standalone or controller-adopted APs that forward traffic directly to the next AP via the best-quality path, with full QoS and security, minimizing wired traffic, eliminating controller bottleneck or single point of failure,
and accelerating applications.
UNMATCHED RELIABILITY
QOS Voice prioritization; WMM-power save with TSPEC Admission Control; WMM U-APSD; Layer 1-4 packet classification; 802.1p VLAN priority; DiffServ/TOS; 802.11e; 802.11k; SVP, SIP CAC (call admission control).
FAILOVER ADAPTIVE
NETWORK SERVICES
AT EDGE
Standalone or controller-adopted APs forward traffic directly to the
next AP even when connection to the controller is interrupted.
N/A Standalone or controller-adopted APs forward traffic directly to the
next AP even when connection to the controller is interrupted.
SMART RF Network optimization to ensure user quality of experience at all times by dynamic adjustments to channel and power (on detection of RF interference or loss of RF coverage/neighbor recovery). Available for both thin
APs and Adaptive APs.
MESH NETWORKING Stand-alone mesh; Adaptive mesh; self-healing mesh failover; Layer 2
wired to Mesh failover.
N/A Stand-alone mesh; Adaptive mesh; self-healing mesh failover; Layer
2 wired to Mesh failover.
3G/4G WAN BACKHAUL N/A
GAP–FREE SECURITY
AUTHENTICATION Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/
EAP—transport layer security (TLS), tunneled transport layer security
(TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS
Server with native support for EAP-TTLS, EAP-PEAP, and EAP-SIM.
Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/EAP—
transport layer security (TLS), tunneled transport layer security
(TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS
Server with native support for EAP-TTLS, EAP-PEAP, and EAP-SIM.
Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/
EAP—transport layer security (TLS), tunneled transport layer security
(TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS
Server with native support for EAP-TTLS, EAP-PEAP, and EAP-SIM.
ENCRYPTION WEP 40/128 (RC4); WPA-TKIP; WPA2-CCMP (AES); 802.11i WPA2-TKIP; Multi Cipher support
IDS/IPS Multimode rogue AP detection, rogue AP containment, 802.11n rogue detection, ad hoc network detection, Denial of Service (DoS) protection against wireless attacks, client blacklisting, excessive authentication/
association; excessive probes; excessive disassociation/de-authentication; excessive decryption errors; excessive authentication failures; excessive 802.11 replay; excessive crypto IV failures (TKIP/CCMP replay);
suspicious AP, authorized device in ad hoc mode, unauthorized AP using authorized SSID, EAP Flood, Fake AP Flood, ID theft, ad hoc advertising authorized SSID.
GUEST ACCESS Provides secure guest access for wired and wireless clients. Built-in captive portal, customizable login and welcome pages, URL redirection for user login, usage-based charging, dynamic VLAN assignment of clients,
DNS white list, GRE tunneling of traffic to central site, API support for interoperability with custom web portals (for example, Wandering Wi-Fi), Amigopod, support for external authentication and billing systems.
24/7 MONITORING FOR
PREMIUM SECURITY
Brocade dual-purpose APs provide wireless traffic and dedicated dual-band sensing. This eliminates the need to purchase and manage a dedicated sensing infrastructure while providing a greener and more
cost-effective approach to 24/7 security.
IPSEC VPN Supports DES, 3DES, AES-128, and AES-256 encryption, with site-to-site and client-to-site VPN capabilities.
ROLE-BASED WIRED/
WIRELESS FIREWALL
Role-based wired/wireless firewall (Layer 2-7) with stateful inspection for wired and wireless traffic; protects against IP spoofing and ARP cache poisoning.
FAST ROAMING Pre-emptive roaming; fast roaming with opportunistic channel scan; load balancing; Power Save Polling (PSP), Virtual AP and location-based access control.
BEST RETURN ON INVESTMENT (ROI)–AND LOWEST TOTAL COST OF OWNERSHIP (TCO)
INTEGRATED NETWORK
SERVICES
Routing, security, and network services integration eliminates point products and appliances, saving significant CapEx and OpEx.
EASE OF INSTALLATION Controller provides centralized management for all Brocade Mobility Aps deployed locally or remotely. Plug-and-play deployments over Layer 2 and Layer 3 networks.
802.3AF/AT SUPPORT Eliminates the cost of running power to each AP.
MESH NETWORKING Eliminates the cost of running Ethernet cabling to each AP.
6. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER ACCESS AGGREGATION
BROCADE MODEL BROCADE FCX SWITCH BROCADE NETIRON®
CES SWITCH BROCADE TURBOIRON®
24X SWITCH BROCADE VDX®
6710 SWITCH
DATACENTERSWITCHINGANDROUTING
PART NUMBERS FCX624-I/-E, FCX648-I/-E NI-CES-2024C-AC/-DC, NI-CES-2024F-AC/-DC,
NI-CES-2048C-AC/-DC,NI-CES-2048F-AC/-DC,
NI-CES-2048CX-AC/-DC, NI-CES-2048FX-AC/-DC,
NI-CES-2024C-4X-AC/-DC, NI-CES-2024F-4X-AC/-DC
TI-24X-AC BR-VDX 6710-54-F/-R
TYPICAL DEPLOYMENTS • Data center
• Top-of-rack 1 GbE server access
• iSCSI storage applications
• High performance computing
• Data center
• Top-of-rack 1 GbE server access
• Layer 3 virtualization
• Hosting solutions
• Content delivery networks
• Data center
• Top-of-rack 10 GbE server access
• Top-of-rack 1 GbE server access
• Data center aggregation
• High performance cluster computing
• Cost-effective 1 GbE fixed port switch with
Brocade Virtual Cluster Switching (VCS®
)
Fabric technology
INTERFACE SLOTS 1 (uplink) 1 (uplink) N/A N/A
MAXIMUM PORTS • Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 4 x 10 GbE (SFP+)
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 48 x 100/1000 MbE (SFP)
• 4 x combination (SFP or RJ45)
• Up to 4 x 10 GbE (XFP/SFP+)
• 24 x 1/10 GbE (SFP/SFP+)
• 4 x 10/100/1000 MbE (RJ45)
• 48 x 1 GbE (RJ45)
• 6 x 1/10 GbE (SFP/SFP+)
HARDWARE FEATURES • Up to 176 Gbps switching capacity
• Up to 132 Mpps forwarding capacity
• 1+1 redundant AC power supplies
• Hot-swappable power supplies
• Up to 136 Gbps switching capacity
• Up to 101 Mpps forwarding capacity
• Low latency
• Deep packet buffering
• 1+1 redundant AC/DC power supplies
• Hot-swappable power supplies
• Hot-swappable fan unit
• Front-to-back airflow
• Up to 488 Gbps switching capacity
• Up to 363 Mpps forwarding capacity
• Ultra-low latency (1.5 micro-second)
• 1+1 redundant AC power supplies
• Hot-swappable power supplies
• Hot-swappable fan unit
• Front-to-back airflow
• Up to 216 Gbps switching capacity, wire-speed
on all ports
• ISL trunking in hardware
• Hot-swappable, redundant power and cooling
• Reversible front-to-back airflow
MODULES AVAILABLE
(INDIVIDUAL)
N/A N/A N/A N/A
MODULES AVAILABLE
(SHARED)
• 4-port 10 GbE SFP+ uplink module
• 4-port 1 GbE SFP uplink module
• 2-port 10 GbE XFP uplink module
• 2-port 10 GbE SFP+ uplink module
• 4-port 10 GbE SFP+ uplink module
N/A N/A
HEIGHT 1 RU 1 RU 1 RU 1 RU
MANAGEMENT MODULES N/A N/A N/A N/A
SWITCH FABRIC MODULES N/A N/A N/A N/A
AC POWER SUPPLIES 1 (base) + 1 (optional) 1 (base) + 1 (optional) 1 (base) + 1 (optional) 2 hot-swappable and redundant power supplies
with integrated fans
HOT-SWAPPABLE
COMPONENTS
SFP/SFP+ transceivers, power supplies SFP/XFP transceivers, power supplies,
fan assembly
SFP/SFP+ transceivers, power supplies,
fan assembly
SFP/SFP+ transceivers, power supplies with
integrated fans
HARDWARE OPTIONS (I) N/A N/A N/A N/A
HARDWARE OPTIONS (S) • 210W AC power supply
• Rack mount kit (extra long ears)
• 500W AC/DC power supply • 300W AC power supply • 4-post fixed rack mount kit
• 2-post mid-rack mount kit
STANDARD SW Advanced Layer 2 and enterprise Layer 3
including edge security, 802.1x, QoS and
comprehensive hardware-based port and
VLAN-based ACL policies.
Advanced Layer 2 and base Layer 3 including
edge security, 802.1x, QoS and comprehensive
hardware-based port and VLAN-based
ACL policies.
Advanced Layer 2 and Layer 3 including QoS,
802.1x, BGP, and comprehensive
hardware-based port and VLAN-based
ACL policies.
• Brocade VCS Fabric technology with multilayer
multipathing
• Automatic migration of port profiles
• Full Layer 2 feature set
• VMaware network automation
• VCS Logical Chassis Management
• Enhanced Layer 3 capabilities (eg BGP)
OPTIONAL SW • Advance Layer 3 license that includes BGP • Full Layer 3 IPv4 upgrade including BGP-4,
RIPv1/v2, OSPFv2, DVMRP, PIM
• Full metro upgrade including MPLS, VPLS,
VLL, PBB
N/A • VCS license
OTHER BASE FEATURES • Reversible front-to-back airflow
• Horizontal stacking (IronStack technology)
N/A • Front-to-back airflow N/A
7. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER AGGREGATION
BROCADE MODEL BROCADE VDX 6720 SWITCH BROCADE VDX 6730 SWITCH BROCADE VDX 6740 AND 6740T SWITCH
PART NUMBERS BR-VDX6720-16-F/-R, BR-VDX6720-24-F/-R,
BR-VDX6720-40-F/-R, BR-VDX6720-60-F/-R
BR-VDX6730-16-F/-R, BR-VDX6730-24-F/-R,
BR-VDX6730-40-F/-R, BR-VDX6730-60-F/-R
BR-VDX6740-24-F/R, BR-VDX6740-48-F/R,
BR-VDX6740-64-F/R, BR-VDX6740T-24-F/R,
BR-VDX6740T-48-F/R, BR-VDX6740T-64-F/R
DATACENTERSWITCHINGANDROUTING
TYPICAL DEPLOYMENTS • 10 GbE fixed port switch with VCS fabric connectivity
• Scale-out Ethernet fabrics to flatten the network in virtualized
data centers
• Converge storage traffic (FCoE, iSCSI) in the Ethernet fabric;
multi-hop FCoE
• 10 GbE fixed port switch with VCS fabric connectivity
• Scale-out Ethernet fabrics to flatten the network in virtualized
data centers
• Converge storage traffic (FCoE, iSCSI) in the Ethernet fabric;
multi-hop FCoE
• Native FC ports bridging Brocade VCS Fabric technology to
FC SAN
• 10 GbE fixed port top of rack switch with VCS fabric connectivity
• Scale-out Ethernet fabrics to flatten the network in virtualized
data centers
• Converge storage traffic (FCoE, iSCSI) in the Ethernet fabric;
multi-hop FCoE
INTERFACE SLOTS N/A N/A N/A
MAXIMUM PORTS • Up to 24 x 1/10 GbE (SFP/SFP+)
• Up to 60 x 1/10 GbE (SFP/SFP+)
6730-24:
• Up to 24 x 1/10 GbE and 8 x 8 Gbps FC ports (SFP/SFP+)
6730-60:
• Up to 60 1/10 GbE and 16 x 8 Gbps FC ports (SFP/SFP+)
VDX 6740:
• Up to 64 x 1/10 GbE SFP/SFP+
• 4 x 40 GbE QSFP+
VDX 6740T:
• 48 10 GbE BASET ports
• 4 x 40 GbE QSFP+ or 16 1/10 GBE SFP/SFP+ ports
HARDWARE FEATURES • Up to 1,200 Gbps switching capacity,
wire-speed on all ports
• ISL trunking in hardware ports on demand
• Direct-attached copper and optical transceiver cabling options
• Hot-swappable, redundant power and cooling
• Reversible front-to-back airflow
• Up to 1,456 Gbps switching capacity; wire-speed on all ports
• ISL trunking in hardware
• Ports on demand
• Direct-attached copper and optical transceiver cabling options
• Hot-swappable, redundant power and cooling
• Reversible front-to-back airflow
• Up to 1.28 Tbpsps switching capacity; wire-speed on all ports
• ISL trunking in hardware
• Single ASIC design
• 1/10 GbE SFP+
• 10 GbE BASET
• 40 GbE QSFP+
• Direct-attached copper and optical transceiver cabling options
• Hot-swappable, redundant power and cooling
• Reversible front-to-back airflow
• Ports on demand
MODULES AVAILABLE
(INDIVIDUAL)
N/A N/A N/A
MODULES AVAILABLE
(SHARED)
N/A N/A N/A
HEIGHT 6720-16/-24: 1RU
6720-40/-60: 2RU
BR-VDX 6730-16/-24: 1RU
BR-VDX 6730-40/-60: 2RU
BR-VDX 6740-24/-48/-64: 1 RU
BR-VDX 6740T-24/-48/-64: 1 RU
MANAGEMENT MODULES N/A N/A N/A
SWITCH FABRIC MODULES N/A N/A N/A
AC POWER SUPPLIES 2 hot-swappable and redundant power supplies 2 hot-swappable and redundant power supplies Two hot-swappable, load-sharing and redundant power supplies
HOT-SWAPPABLE
COMPONENTS
BR-VDX 6720-16/-24: Integrated power/fans and SFP+ optics
BR-VDX 6720-40/-60: Power supplies, fans, and SFP+ optics
BR-VDX 6730-16/-24: Integrated power/fans and SFP+ optics
BR-VDX 6730-40/-60: Power supplies, fans, and SFP+ optics
VDX 6740: Power supplies and SFP+ optics
VDX 6740T: Power supplies, fans, and
SFP+ optics
HARDWARE OPTIONS (I) N/A N/A N/A
HARDWARE OPTIONS (S) • 4-post fixed rack mount kit
• 2-post mid-rack mount kit
• 4-post fixed rack mount kit
• 2-post mid rack mount kit
• 4-post fixed rack mount kit
• 2-post mid rack mount kit
STANDARD SW • Brocade VCS Fabric technology
• Automatic migration of port profiles
• Full Layer 2 feature set
• VMaware network automation
• VCS Logical Chassis Management
• Enhanced Layer 3 capabilities (eg BGP)
• Brocade VCS Fabric technology with multilayer multipathing
• Automatic migration of port profiles
• Full Layer 2 feature set
• VMaware network automation
• VCS Logical Chassis
• Enhanced Layer 3 capabilities (eg BGP)
• Brocade VCS Fabric technology with multilayer multipathing
• Automatic migration of port profiles
• Full Layer 2 feature set
• Enhanced Layer 3 capabilities (eg BGP)
• VMaware network automation
• VCS Logical Chassis
• Virtual Fabric Feature of VCS
• L3 multi-tenancy support, including VRF-Lite
• NAS Auto QoS
• VCS Gateway for NSX
OPTIONAL SW • Ports on demand licenses
• VCS license
• FCoE license
• Ports on demand licenses
• VCS license
• FCoE license
• Ports on demand licenses
• VCS license
• FCoE license
OTHER BASE FEATURES N/A N/A N/A
8. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER AGGREGATION ACCESS/AGGREGATION CORE
BROCADE MODEL BROCADE VDX 8770 BROCADE ADX BROCADE MLXe
DATACENTERSWITCHINGANDROUTING
PART NUMBERS BR-VDX8770-4-BND-AC, BR-VDX8770-4-BND-DC,
BR-VDX8770-8-BND-AC, BR-VDX8770-4-BND-DC
ADX 1000 Series: Si-1008-1, SI-1008F-1, Si-1016-2, SI-1016F-2,
SI-1016-4, SI-1016F-4, SI-1216-4, SI-1216F-4 ADX 4000 Series:
SI-4000, SI-4000-DC, SI-4000-PREM, SI-4000-ASM8-P-B, SI-4000-
ASM4-P12-B ADX 10000 Series: SI-10000, SI-10000-DC, SI-10000-
PREM Software License Upgrade Options for ADX 1000/1000F:
ADX-1008-1-LIC-2PPLS, ADX-1016-2-LIC-4P, ADX-1016-2-LIC-4P10G,
ADX-1016-4-LIC-10G, ADX-1K-1-2-LIC-SSL, ADX-1K-4-LIC-SSL,
ADX-1K-LIC-PREM Software License Upgrade and Interchangeable
Expansion Hardware Modules for ADX 4K and 10K: ADX-CH-LIC-
PREM, SI-AEM-SSL, SI-ASM8, SI-MM, SI-MM-SSL, SI-SFM
BR-MLXE-4-MR2-M-AC/DC, BR-MLXE-4-MR2-X-AC/DC,
BR-MLXE-4-MR-M-AC/DC, BR-MLXE-4-MR-X-AC/DC,
BR-MLXE-8-MR2-M-AC/DC, BR-MLXE-8-MR2-X-AC/DC,
BR-MLXE-8-MR-M-AC/DC, BR-MLXE-8-MR-X-AC/DC,
BR-MLXE-16-MR2-M-AC/DC, BR-MLXE-16-MR2-X-AC/DC,
BR-MLXE-16-MR-M-AC/DC, BR-MLXE-16-MR-X-AC/DC,
BR-MLXE-32-MR2-M-AC/DC, BR-MLXE-32-MR2-X-AC/DC,
BR-MLXE-32-MR-M-AC/DC, BR-MLXE-32-MR-X-AC/DC
TYPICAL DEPLOYMENTS • Data center
• Scale-out fabric
• Smaller scale VCS fabric configurations
• Medium scale VCS fabric configurations
• Large and very large VCS fabric configurations
• SP data center and service oriented IT and enterprise data center
• Layer 4 web and application load balancing
• Brocade Network Subscription (BNS)
• IPv6 migration/transition and Transparent Cache Switching (TCS)
• SSL offload/proxy
• DDoS and SYN protection
• Infrastructure applications, DNS/e-mail/AAA/firewall/cache
• Business continuity and disaster recovery
• Large multi-site enterprise
• Federal
• High-performance computing
• Research and education networks
• Healthcare
• Financial
INTERFACE SLOTS • 4 slot chassis – interface 1-4
• 8 slot chassis – interface 1-8
2, n.A., n.A. 4, 8, 16, 32
MAXIMUM PORTS VDX 8770-4:
• Up to 192 10 GbE ports, 48 40 GbE ports or a combination
VDX 8770-8:
• Up to 384 10 GbE ports, 96 40 GbE ports or a combination
Modular Platform (ADX 4000 and 10000):
• Up to 48 x 10/100/1000 Mbps (RJ45)
• Up to 48 x 1 Gbps fiber (SFP)
• Up to 16 x 10 Gbps (XFP)
Fixed Platform (ADX 1000 and 1000F):
• Up to 16 x 10/100/1000 Mbps (RJ45)
• Up to 16 x 1 Gbps fiber (SFP)
• Up to 2 x 10 Gbps fiber (SFP+)
• Up to 1,536 x 10/100/1000 MbE (RJ45/RJ21)
• Up to 768 x 100/1000 MbE (SFP)
• Up to 768 x 10 GbE (XFP/SFP+)
• Up to 128 x 40 GbE (QSFP+)
• Up to 32 x 100 GbE (CFP)
HARDWARE FEATURES • Wire speed switching capacity on all ports
• ISL trunking in hardware
• 4 Tbps line-rate backplane design
• 1 GbE copper SFP
• 10 Gbps SFP+
• 10 GbE SR and LR
• 40 GbE QSFP
• Hot-swappable power supply and fan tray
• Side-to-back airflow with front-to-back duct converter option on
VDX 8770-4 and front-to-back airflow support for VDX 8770-8
• Up to 3 million L4 HTTP connections/sec
• Up to 70 Gbps L4 & L7 switching capacity
• Up to 32 tenants on multitenancy mode (virtualized mode in ADX)
• Up to 18 million DNS queries/sec
• Up to 320 Gbps raw switching
• Up to 120 million SYN protection/sec
• N+N redundant power supplies
• Hot-swappable fan unit
• Up to 15.36 Tbps switching capacity
• Up to 8.64 Bpps forwarding capacity
• Rear exhaust on all models
• Redundant management modules
• Redundant fabric modules
• M+N redundant power supplies
• Hot-swappable modules
• Hot-swappable power supplies
• Hot-swappable fan units
MODULES AVAILABLE (I) • 1 GbE: 48 x 1 GbE
• 10 GbE: 48 x 10 GbE
• 40 GbE: 12 x 40 GbE
N/A N/A
MODULES AVAILABLE (S) • Management module
• Switch fabric module
• Management module
• Application switch module
• Switch fabric module
• 12-port 10/100/100 Mbe RJ45 module
• 12-port 1 GbE SFP module
• 4-port 10 GbE XFP module
• New SSL module for connections with 2048-bit-key
• Management module
• High-speed switch fabric module
• 2-port 100 GbE module
• 4-port 40 GbE module
• 8-port 10 GbE SFP+ module (-D, -M, -X versions)
• 4-port 10 GbE XFP module
• 24-port 10 GbE SFP+ module (-DM version)
• 48-port 10/100/1000 Base-T, MRJ21 module
• 24-port 1 GbE (X) copper (RJ-45) module
• 24-port 1 GbE (X) fiber (SFP) module
HEIGHT BR-VDX 8770-4-BND-AC: 8U
BR-VDX 8770-4-BND-D: 8U
BR-VDX 8770-8-BND-AC: 15U
BR-VDX 8770-4-BND-DC: 15U
1, 4, 10 RU MLXe-4: 5 RU
MLXe-8: 7 RU
MLXe-16: 14 RU
MLXe-32: 33 RU
MANAGEMENT MODULES BR-VDX 8770-MM1 supports RJ45 management port, USB port,
console, AUX service port (RJ45 connector)
n.A./1/1 (base) + n.A./0/1 (optional, non-redundant) 1 (base) + 1 (optional)
SWITCH FABRIC MODULES VDX 8770-4: supports up to 3 BR-VDX 8870-SM-1 modules
VDX 8770-8: supports up to 6 BR-VDX 8870-SM-1 modules
n.A./1/2 (base) 2/2/3/7 (base) + 1/1/1/1 (optional)
AC POWER SUPPLIES N/A 1/1/2 (base) + 1/1/2 (optional) 1/2/4/4 (base) + 2/2/4/4 (optional)
HOT-SWAPPABLE
COMPONENTS
SFP/XFP transceivers, power supplies, fan assemblies, switch fabric
modules, management modules, interface modules
SFP/XFP transceivers, power supplies, fan assemblies, interface
modules
SFP/XFP transceivers, power supplies, fan assemblies, switch fabric
modules, management modules, and interface modules.
HARDWARE OPTIONS (I) • 4 slot chassis (XBR-VDX 8770-4)
• 8 slot (XBR-VDX 8770-8)
• 500W AC/DC power supply • 4-post rack mount kit (MLXe-4, -8, -16, -32)
• Mid-mount rack mount kit (MLXe-32)
HARDWARE OPTIONS (S) • Power supply unit (XBR-ACPWR-3000, XBR-BCPWR-3000)
• Fan FRU for 4 and 8 slot chassis
• 1200W AC/DC power supply • 1200W AC/DC power supply
• 2400W AC/DC power supply
STANDARD SW • Brocade VCS Fabric technology with multilayer multipathing
• Automatic migration of port profiles
• Full Layer 2 feature set
• Enhanced Layer 3 capabilities (eg BGP)
• VMaware network automation
• VCS Logical Chassis
• Virtual Fabric Feature of VCS
• L3 multi-tenancy support, including VRF-Lite
• NAS Auto QoS
• ADX hardware-based virtualization (multi-tenancy)
• Layer 2 (STP, RSTP, LACP, VLANs, 802.1q, Layer 3 capabilities
routing (RIPv1/v2, Static), Layer 4-7 application delivery (SLB),
L7 content inspection
• Brocade OpenScript engine
• Application health monitoring
• High-availability (active/active, active/passive)
• Multi-port binding and server group pools
• Comprehensive management (CLI, GUI, SNMP)
• Brocade Network Advisor and Application Resource Broker
• SOAP/XML API extensions and EBS and RoHS compliant
• Full Layer 3 MPLS +IPv4+IPv6 routing including BGP, OSPFv2/
v3, ISIS, RIP, RIPng, VRRP, VRRPE, PIM-SM/SSM/DM, MPLS, LDP,
RSVP, VPLS, VLL, MPLS L3VPNs and multi-VRF, 6VPE
• Software-Defined Networking with OpenFlow support in Hybrid
Port Mode
OPTIONAL SW • VCS fabric license
• FCoE license
• Layer 3 license
• Increased multi-tenancy capacity (for ADX 4000 and ADX 10000)
• Global Server Load Balancing (GSLB)
• Advanced Layer 3 routing, including OSPFv2 & v3, IS-IS, and
multiprotocol BGP
• NAT64, SLB 446, SLB 664, SLB 666, dual stack (IPv4/IPv6)
• Full IPv6 Services Support (server load balancing services,
OpenScript application scripting engine, CSW (Layer 7 content
switching), SSL, GSLB, FWLB, Transparent Cache Switching (TCS),
DNS, Layer 3 routing protocols)
• SSL proxy, SSL termination, 2048 bit key SSL encryption
N/A
OTHER BASE FEATURES N/A • Brocade Network Advisor Integration (BNA)
• Load Balancing as a Service (LBaaS) with (Apache) CloudStack
• Application Resource Broker (ARB)
N/A
9. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER WLAN CONTROLLERS
BROCADE MODEL BROCADE MOBILITY RFS4000 BROCADE MOBILITY RFS6000 BROCADE MOBILITY RFS7000 BROCADE MOBILITY RFS9510
PRODUCT OVERVIEW Tightly integrates wired, wireless, and network
security features into a compact and easy-to-use
form factor. It features an ExpressCard Slot for
3G WAN backhaul, enabling organizations to
create survivable remote office networks using a
single platform. Comprehensive software delivers
advanced Layer 2 and Layer 3 networking
services, onboard DHCP server, wired/wireless
firewall, wireless IDS/IPS, AAA services, IP
Security (IPsec) VPN gateway, Wi-Fi RFID
locationing, QoS mechanisms for VDI, VoWLAN,
and video services.
Provides a single platform capable of managing
wireless data, voice, and video services for
medium to large enterprises with 2,000 to 4,000
client devices. It delivers advanced capabilities
such as Layer 2 and Layer 3 networking services,
onboard DHCP server, wired/wireless firewall,
wireless IDS/IPS, AAA services, IP Security
(IPsec) VPN gateway, Wi-Fi RFID locationing,
QoS mechanisms for VDI, VoWLAN, and video
services, and an ExpressCard Slot for
3G WAN backhaul.
Provides a single platform capable of managing
wireless data, voice, and video services for large
enterprises with 8,000 to 16,000 client devices.
It delivers advanced capabilities such as Layer 2
and Layer 3 networking services, onboard DHCP
server, wired/wireless firewall, wireless IDS/IPS,
AAA services, IP Security (IPsec) VPN gateway,
Wi-Fi RFID locationing, QoS mechanisms for VDI,
VoWLAN, andvideo services.
Provides a single platform for large,
geographically dispersed Wireless LAN (WLAN)
deployments, centrally manage up to 10,240
access points and 200,000 devices with
centralized control, statistics aggregation for
highly scalable mobility in enterprises and
campuses distributed across small to medium-
sized enterprise locations, Other services include
DHCP/RADIUS/FTP services, and
remote troubleshooting.
CAMPUSNETWORKSWITCHINGANDROUTING
GENERAL
CHARACTERISTICS
• Supports up to 6 Brocade Mobility 7131
802.11a/b/g/n access points and
12 per cluster
• Supports 24 WLANs/VLANs per AP
• Supports up to 500 clients per AP and 1,000
users per cluster
• ExpressCard slot for 3G/4G WWAN backhaul
• PCI/HIPAA/SOX capable out-of-the-box
• Supports up to 256 Brocade Mobility 7131
802.11a/b/g/n access points and 512
per cluster
• Supports 32 WLANs/VLANs per AP
• Supports up to 2,000 client per AP and 4,000
users per cluster
• ExpressCard slot for 3G/4G WWAN backhaul
• PCI/HIPAA/SOX capable out-of-the-box
• Supports up to 1024 Brocade Mobility 7131
802.11a/b/g/n access points and 2048
per cluster
• Supports 256 WLANs/VLANs per AP
• Supports up to 8,000 clients per AP and
16,000 users per cluster
• PCI/HIPAA/SOX capable out-of-the-box
• Supports up to 10,240 Brocade Mobility
802.11a/b/g/n access points,
200,000 devices
• Enables hot spot configuration and
statistics aggregation
• 2 x 1TB hot-swappable HDs, 36GB RAM,
4 x 10GbE ports, Multithreaded CPU core
• DHCP/RADIUS/FTP services
• Remote troubleshooting
NON-BLOCKING 802.11N PERFORMANCE
DIRECT FORWARDING Standalone or controller-adopted APs that forward traffic directly to the next AP via the best-quality path, with full QoS and security, minimizing wired traffic, eliminating controller bottleneck or single point of failure,
and accelerating applications.
UNMATCHED RELIABILITY
QOS Voice prioritization; WMM-power save with TSPEC Admission Control; WMM U-APSD; Layer 1-4 packet classification; 802.1p VLAN priority; DiffServ/TOS; 802.11e; 802.11k; SVP, SIP CAC (call admission control).
HIGH AVAILABILITY WITH
CLUSTERING
Active: Standby; Active: Active and N+1 redundancy with access point and client load balancing for large deployments; critical resource monitoring.
SMART RF Network optimization to ensure user quality of experience at all times by dynamic adjustments to channel and power (on detection of RF interference or loss of RF coverage/neighbor recovery). Available for both
thin APs and Adaptive Aps.
MESH NETWORKING Stand-alone mesh; adaptive mesh; self-healing mesh failover; Layer 2 wired to mesh failover.
LOAD BALANCING AND AP
STEERING
AP licenses are shared between clustered controllers.
3G/4G WAN BACKHAUL Optional ExpressCard WWAN slot (card not
included); WWAN feature license included.
Optional ExpressCard WWAN slot (card not
included); WWAN feature license required.
N/A
GAP–FREE SECURITY
AUTHENTICATION Access Control Lists (ACLS); pre-shared keys (PSK); 802.1x/EAP—transport layer security (TLS), tunneled transport layer security (TTLS), protected EAP (PEAP); Kerberos Integrated AAA/RADIUS Server with native
support for EAP-TTLS, EAP-PEAP (includes a built-in user name/password database; supports LDAP), and EAP-SIM; local authentication database).
ENCRYPTION WEP 40/128 (RC4); WPA-TKIP; WPA2-CCMP (AES); 802.11i WPA2-TKIP; Multi Cipher support.
IDS/IPS Multimode rogue AP detection, rogue AP containment, 802.11n rogue detection, ad hoc network detection, Denial of Service (DoS) protection against wireless attacks, client blacklisting, excessive authentication/
association; excessive probes; excessive disassociation/de-authentication; excessive decryption errors; excessive authentication failures; excessive 802.11 replay; excessive crypto IV failures (TKIP/CCMP replay);
suspicious AP, authorized device in ad hoc mode, unauthorized AP using authorized SSID, EAP Flood, Fake AP Flood, ID theft, ad hoc advertising authorized SSID.
GUEST ACCESS Provides secure guest access for wired and wireless clients with built-in captive portal, customizable login/welcome pages, URL redirection for user login, usage-based charging, dynamic VLAN assignment of clients,
DNS white list, GRE tunneling of traffic to central site, API support for interoperability with custom web portals (for example, Wandering Wi-Fi), Amigopod, support for external authentication and billing systems.
24/7 MONITORING FOR
PREMIUM SECURITY
Brocade dual-purpose APs provide wireless traffic and dedicated dual-band sensing. This eliminates the need to purchase and manage a dedicated sensing infrastructure while providing a greener and more cost-
effective approach to 24/7 security.
IPSEC VPN Supports DES, 3DES, AES-128, and AES-256
encryption, with site-to-site and client-to-site
VPN capabilities.
Supports DES, 3DES, AES-128, and AES-256
encryption, with site-to-site and client-to-site VPN
capabilities. Supports 300 concurrent IPSec
tunnels per controller without ADSec license,
and 512 concurrent IPSEC tunnels per controller
with ADSec license.
Supports DES, 3DES, AES-128 and AES-256
encryption, with site-to-site and client-to-site VPN
capabilities. Supports 512 concurrent IPSec
tunnels per controller without ADSec license, and
1024 concurrent IPSec tunnels per controller with
ADSec license.
Supports DES, 3DES, AES-128 and AES-256
encryption, with site-to-site and client-to-site VPN
capabilities. Supports 512 concurrent IPSec
tunnels per controller without ADSec license, and
1024 concurrent IPSec tunnels per controller with
ADSec license.
ROLE-BASED WIRED/
WIRELESS FIREWALL
Role-based wired/wireless firewall (Layer 2-7)
with stateful inspection for wired and wireless
traffic; active firewall sessions—50,000 per
controller and 600,000 per cluster; protects
against IP spoofing and ARP cache poisoning.
Advanced Security License for per user
firewall included.
Role-based wired/wireless firewall (Layer 2-7)
with stateful inspection for wired and wireless
traffic; active firewall sessions—100,000 per
controller and 1,200,000 per cluster; protects
against IP spoofing and ARP cache poisoning.
Per user firewall requires optional Advanced
Security License.
Role-based wired/wireless firewall (Layer 2-7)
with stateful inspection for wired and wireless
traffic; active firewall sessions—205,000 per
controller and 2,460,000 per cluster; protects
against IP spoofing and ARP cache poisoning.
Per user firewall requires optional Advanced
Security License.
Role-based wired/wireless firewall (Layer 2-7)
with stateful inspection for wired and wireless
traffic; active firewall sessions—205,000 per
controller and 2,460,000 per cluster; protects
against IP spoofing and ARP cache poisoning.
Per user firewall requires optional Advanced
Security License.
NAC SUPPORT Integration with third-party systems from Microsoft, Symantec, and Bradford.
GEOFENCING Control or limit network or application access based on a user and their location.
FAST ROAMING Pre-emptive roaming; fast roaming with opportunistic channel scan; load balancing; Power Save Polling (PSP), Virtual AP and location-based access control.
BEST RETURN ON INVESTMENT (ROI)–AND LOWEST TOTAL COST OF OWNERSHIP (TCO)
INTEGRATED NETWORK
SERVICES
PoE switching, AAA server, DHCP server, NAT, Guess Access Captive portal, RSSI-based triangulation for Wi-Fi assets, Wired/Wireless Firewall- all built-in with no additional cost.
EASE OF INSTALLATION Provides central management of Brocade Mobility Access Points deployed locally or at remote locations. Plug-and-play deployments over Layer 2 and Layer 3 networks.
SMART LICENSING
SHARING
Clustering capability allows for virtual license sharing among controllers to provide highly scalable and available networks.
10. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER ACCESS AGGREGATION
BROCADE MODEL BROCADE 6910 SWITCH BROCADE NETIRON CES 2000 SWITCH BROCADE NETIRON CER 2000 ROUTER
SERVICEPROVIDERNETWORKROUTING
PART NUMBERS BR-6910-EAS-ACBR-6910-EAS-DC,
BR-6910-EAS-H-ACBR-6910-EAS-H-DC
NI-CES-2024C-AC/-DC, NI-CES-2024F-AC/-DC,
NI-CES-2048C-AC/-DC, NI-CES-2048F-AC/-DC,
NI-CES-2048CX-AC/-DC, NI-CES-2048FX-AC/-DC,
NI-CES-2024C-4X-AC/-DC
NI-CER-2024C-AC, NI-CER2024C-ADVPREM-ACNI-CER-2024C-DC,
NI-CER-2024C-ADVPREM-DCNI-CER-2024F-AC, NI-CER-2024F-
ADVPREM-AC, NI-CER-2024F-DC, NI-CER-2024F-ADVPREM-DC,
NI-CER-2048C-AC, NI-CER-2048C-ADVPREM-AC, NI-CER-2048C-DC,
NI-CER-2048C-ADVPREM-DC, NI-CER-2048F-AC, NI-CER-2048F-
ADVPREM-AC, NI-CER-2048F-DC, NI-CER-2048F-ADVPREM-DC, NI-
CER-2048CX-AC, NI-CER-2048CX-ADVPREM-AC, NI-CER-2048CX-DC,
NI-CER-2048CX-ADVPREM-DC, NI-CER-2048FX-AC, NI-CER-2048FX-
ADVPREM-AC, NI-CER-2048FX-DC, NI-CER-2048FX-ADVPREM-DC,
NI-CER-2024-2X10G, NI-CER-2024C-4X-DC, NI-CER-2024C-4X-AC,
NI-CER-2024-ADVU, NI-CER-2048-ADVU. Advanced Scalability:
NI-CER-2024C-RT-AC, NI-CER-2024C-RT-DC, NI-CER-2048C-RT-AC, NI-
CER-2048C-RT-DC, NI-CER-2048CX-RT-AC, NI-CER-2048CX-RT-DC
TYPICAL DEPLOYMENTS • Cell site switch for 4G backhaul and public safety networks
• Managed CPE device for business/enterprise services
• Access switch for Fiber-To-The-Home (FTTH)
• Layer 2 access switch for residential triple-play services
• Tier 2/3 Service Provider and MSO
― L2 VPN business services for metro access
(QinQ, VPLS/VLL, PBB, G.8032 and OAM)
― Wireless back haul wholesale
― Internet access distribution/wholesale
― Regional SP/Power Utilities Remote Access
― Metro Ethernet Aggregation for multi-service FTTx
(EPON/GPON/DSL,etc.)
• Data Center
― Cloud data center interconnect via L2VPN
― Data center wholesale connectivity
• Tier2/3 Service Provider and MSO
― Provider Edge Router (PE) in small/medium regions for L2/L3
VPN and internet access services
― BGP router reflector
― BGP peering
• Data Center
― BGP/OSPF border router
― BGP cloud internet peering
INTERFACE SLOTS N/A 1 (uplink) 1 (uplink)
MAXIMUM PORTS • 12 x 10/100/1000 Base-T ports
• 12 x 100/1000 Base-X ports (SFP)
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 48 x 100/1000 MbE (SFP)
• 4 x combination (SFP or RJ45)
• Up to 4 x 10 GbE (XFP, SFP+)
• Up to 48 x 10/100/1000 MbE (RJ45)
• Up to 48 x 100/1000 MbE (SFP)
• 4 x combination (SFP or RJ45)
• Up to 4 x 10 GbE (XFP, SFP+)
HARDWARE FEATURES • Up to 24 Gbps forwarding capacity
• 8 Mbps of packet buffering
• 1+1 redundant AC/DC power supplies
• Fanless design
• Up to 136 Gbps switching capacity
• Up to 101 Mpps forwarding capacity
• Low latency
• Deep packet buffering
• 1+1 redundant AC/DC power supplies
• Hot-swappable power supplies
• Hot-swappable fan unit
• Front-to-back airflow
• Up to 136 Gbps switching capacity
• Up to 101 Mpps forwarding capacity
• Up to 1.5MM IPv4 FIB entries
• Low latency
• Deep packet buffering
• 1+1 redundant AC/DC power supplies
• Hot-swappable power supplies
• Hot-swappable fan unit
• Front-to-back airflow
MODULES AVAILABLE (I) N/A N/A N/A
MODULES AVAILABLE (S) N/A • 2-port 10 GbE uplink module
• 4-port 10 GbE uplink module
• 2-port 10 GbE uplink module
• 4-port 10 GbE uplink module
HEIGHT 1 RU 1 RU 1 RU
MANAGEMENT MODULES N/A N/A N/A
SWITCH FABRIC MODULES N/A N/A N/A
AC POWER SUPPLIES 2x (base) 1 (base) + 1 (optional) 1 (base) + 1 (optional)
HOT-SWAPPABLE
COMPONENTS
N/A SFP/XFP transceivers, power supplies, fan assembly SFP/XFP transceivers, power supplies, fan assembly
HARDWARE OPTIONS (I) N/A N/A N/A
HARDWARE OPTIONS (S) N/A 500W AC/DC power supply 500W AC/DC power supply
STANDARD SW • Full Layer 2 features including Ethernet ring protection, spanning
tree protocols, Virtual LAN (VLAN) tag translation, provider
bridging, and IGMP snooping
• Layer 3 static routing for Internet connectivity
• Advanced Layer 2 and base Layer 3 including edge security,
802.1x, QoS and comprehensive hardware-based port and
VLAN-based ACL policies
Advanced Layer 2 and 3 functions:
• Full Layer 3, including RIP, OSPF, IS-IS, and BGP
• Virtual routing in non-MPLS environments through multi-VRF
• All classic Layer 2 capabilities
• QoS and ACLs
• Management through SNMP/CLI
OPTIONAL SW N/A • Full Layer 3 IPv4 upgrade, including BGP-4, RIPv1/v2, OSPFv2,
DVMRP, PIM
• Full metro upgrade, including MPLS, VPLS, VLL, PBB
All functions in base plus:
• Multi-Protocol Label Switching (MPLS)
• Layer 2 VPNs using VPLS and VLLs
• Provider bridges (IEEE 802.1ad)
• Provider backbone bridges (IEEE 802.1ah)
• Connectivity fault management (IEEE 802.1ag) and Service OAM
• Ethernet service instance (ESI) framework
OTHER BASE FEATURES N/A N/A N/A
11. BROCADE QUICK REFERENCE GUIDE IP
NETWORK LAYER AGGREGATION CORE
BROCADE MODEL BROCADE SERVERIRON®
ADX SWITCH BROCADE MLXe CORE ROUTER
PART NUMBERS BR-MLXE-4-MR2-M-AC/DC, BR-MLXE-4-MR2-X-AC/DC, BR-MLXE-4-MR-M-AC/DC, BR-MLXE-4-MR-X-AC/DC,
BR-MLXE-8-MR2-M-AC/DC, BR-MLXE-8-MR2-X-AC/DC, BR-MLXE-8-MR-M-AC/DC, BR-MLXE-8-MR-X-AC/
DC, BR-MLXE-16-MR2-M-AC/DC, BR-MLXE-16-MR2-X-AC/DC, BR-MLXE-16-MR-M-AC/DC, BR-MLXE-
16-MR-X-AC/DC, BR-MLXE-32-MR2-M-AC/DC, BR-MLXE-32-MR2-X-AC/DC, BR-MLXE-32-MR-M-AC/DC,
BR-MLXE-32-MR-X-AC/DC
BR-MLXE-4-MR2-M-AC/DC, BR-MLXE-4-MR2-X-AC/DC, BR-MLXE-4-MR-M-AC/DC, BR-MLXE-4-MR-X-AC/DC,
BR-MLXE-8-MR2-M-AC/DC, BR-MLXE-8-MR2-X-AC/DC, BR-MLXE-8-MR-M-AC/DC, BR-MLXE-8-MR-X-AC/
DC, BR-MLXE-16-MR2-M-AC/DC, BR-MLXE-16-MR2-X-AC/DC, BR-MLXE-16-MR-M-AC/DC, BR-MLXE-
16-MR-X-AC/DC, BR-MLXE-32-MR2-M-AC/DC, BR-MLXE-32-MR2-X-AC/DC, BR-MLXE-32-MR-M-AC/DC,
BR-MLXE-32-MR-X-AC/DC
SERVICEPROVIDERNETWORKROUTING
TYPICAL DEPLOYMENTS • SP (cloud, carrier, mobile, content provider) data center
• Enterprise data center
• High performance, low latency application delivery
• IPv6 transition
• SSL offload
• Infrastructure applications - DNS/e-mail/AAA/firewall/cache
• Transit
• Cloud and hosting providers
• Internet Exchange Provider (IXP)
• Cable MSO
• Content Delivery Network (CDN)
• Web 2.0
• Regional Service Providers
• Federal
• High performance computing
• Research networks
INTERFACE SLOTS 0, 2, 4 4, 8, 16, 32
MAXIMUM PORTS Fixed platform (1000):
• Up to 16 x 10/100/1000 Mbps (RJ45)
• Up to 16 x 1 Gbps fiber (SFP)
• Up to 2 x 10 Gbps fiber (XFP/SFP+)
Modular platform (4000 and 10000):
• Up to 48 x 10/100/1000 Mbps (RJ45)
• Up to 48 x 1 Gbps fiber (SFP)
• Up to 16 x 10 Gbps (XFP)
• Up to 1,536 x 10/100/1000 MbE (RJ45/RJ21)
• Up to 768 x 100/1000 MbE (SFP)
• Up to 768 x 10 GbE (XFP/SFP+)
• Up to 128 x 40 GbE (QSFP+)
• Up to 32 x 100 GbE (CFP)
HARDWARE FEATURES • Up to 3 million L4 HTTP connections/sec
• Up to 70 Gbps L4 L7 switching capacity
• Up to 18 million DNS queries/sec
• Up to 320 Gbps raw switching
• Up to 120 million SYN protection/sec
• N+N redundant power supplies
• Hot-swappable fan unit
• Up to 15.36 Tbps switching capacity
• Up to 8.64 Bpps forwarding capacity
• Rear exhaust on all models
• Redundant management modules
• Redundant fabric modules
• M+N redundant power supplies
• Hot-swappable modules
• Hot-swappable power supplies
• Hot-swappable fan units
MODULES AVAILABLE
(INDIVIDUAL)
N/A N/A
MODULES AVAILABLE
(SHARED)
ADX 4000 and 10000:
• Management module
• Application switch module
• Switch fabric module
• 12-port 10/100/100 MbE RJ45 module
• 12-port 1 GbE SFP module
• 4-port 10 GbE XFP module
• Management module
• High-speed switch fabric module
• 2-port 100 GbE module
• 4-port 40 GbE module
• 8-port 10 GbE SFP+ module (-D, -M, -X versions)
• 4-port 10 GbE XFP module
• 24-port 10 GbE SFP+ module (-DM version)
• 48-port 10/100/1000 Base-T, MRJ21 module
• 24-port 1 GbE (X) copper (RJ-45) module
• 24-port 1 GbE (X) fiber (SFP) module
HEIGHT 1, 4, 10 RU 5, 7, 14, 33 RU
MANAGEMENT MODULES 0/1/1 (base) + 0/0/1 (optional, non-redundant) 1 (base) + 1 (optional)
SWITCH FABRIC MODULES 0/1/2 (base) 2/2/3/7 (base) + 1/1/1/1 (optional)
AC POWER SUPPLIES 1/1/2 (base) + 1/1/2 (optional) 1/2/4/4 (base) + 2/2/4/4 (optional)
HOT-SWAPPABLE
COMPONENTS
SFP/XFP transceivers, power supplies, fan assemblies,
interface modules.
SFP/XFP transceivers, power supplies, fan assemblies, switch fabric modules, management modules,
and interface modules.
HARDWARE OPTIONS (I) • 500W AC/DC power supply • 4-post rack mount kit (MLXe-4, -8, -16, -32)
• Mid-mount rack mount kit (MLXe-32)
HARDWARE OPTIONS (S) • 1200W AC/DC power supply • 1200W AC/DC power supply
• 2400W AC/DC power supply
STANDARD SW • Layer 2, L3 routing (RIPv1/v2, Static)
• Layer 4-7 Application delivery (SLB), Graphical User Interface (GUI) management, XML API extensions,
and hot-standby HA
• Full Layer 3 MPLS +IPv4+IPv6 routing including BGP, OSPFv2/v3, ISIS, RIP, RIPng, VRRP, VRRPE,
PIM-SM/SSM/DM, MPLS, LDP, RSVP, VPLS, VLL, MPLS L3 VPNs and multi-VRF
• Software-Defined Networking with OpenFlow support
OPTIONAL SW • Layer 3 routing including RIPv1/v2, OSPFv2 and v3, IS-IS, Static, and BGP, Global Server Load
Balancing (GSLB)
• IPv6 NAT64, IPv6 SLB, OpenScriptsymmetric active-standby HA, symmetric active-active HA, multi-port
binding, server group pools
• SSL offload and acceleration, SYN and DDoS protection
N/A
OTHER BASE FEATURES Application Resource Broker (ARB) for integrated management
in heterogeneous virtualization environment
N/A