Wednesday, 21 June 2023

The Cisco DCCOR 350-601 Exam: What to Expect and How to Prepare

Cisco Systems is an internationally renowned company that specializes in internet networking. Its extensive range of networking solutions has greatly benefited businesses in various industries by offering essential services and communication products. The need for skilled professionals who are certified in managing and enhancing IT systems and infrastructure within companies is on the rise. The CCNP Data Center DCCOR 350-601 certification equips individuals with the necessary skills and knowledge to address technical and operational challenges at different stages and devise effective solutions.

Overview of the Cisco DCCOR 350-601Certification

The exam has a duration of 120 minutes, during which candidates will encounter a variety of question formats, including multiple-choice, drag-and-drop, and simulations. The number of questions in the exam can range from 90 to 110. To take the DCCOR 350-601 exam, candidates are required to pay a fee of $400. The exam is conducted in English.

The DCCOR 350-601 exam encompasses a diverse array of subjects pertaining to data center technologies. Several prevalent topics that are addressed in this examination comprise:

  • Network (25%)
  • Compute (25%)
  • Storage Network (20%)
  • Automation (15%)
  • Security (15%)
  • Cisco DCCOR 350-601 Exam Preparation Resources

    To effectively prepare for the Cisco DCCOR 350-601 exam, it is crucial to leverage a combination of study materials and resources. Here are some recommended resources that can enhance your preparation process:

    1. Cisco Official Certification Guide

    The Cisco Official Certification Guide is an authoritative resource covering all exam objectives comprehensively. It offers in-depth explanations, real-world examples, and practice questions to help you grasp the concepts and reinforce your knowledge. Study this guide thoroughly and use it as a reference throughout your preparation journey.

    2. Cisco Learning Labs

    Cisco Learning Labs provides a hands-on experience by offering virtual environments to practice various data center technologies. These labs enable you to gain practical skills and reinforce your understanding of the concepts covered in the exam. Take advantage of these labs to get hands-on experience with Cisco equipment and familiarize yourself with real-world scenarios.

    3. Cisco Online Communities and Forums

    Engaging with online communities and forums dedicated to Cisco certifications can be immensely beneficial. These platforms allow networking professionals to connect, share experiences, and seek guidance. Active participation in discussions will enable you to gain valuable insights, learn from other's experiences, and clarify doubts.

    4. Cisco DCCOR 350-601 Practice Exams

    Practice exams are invaluable resources for gauging your exam readiness. These resources simulate the exam environment and help you identify areas to improve. Regularly practicing with these materials can enhance your time management skills and help you become familiar with the question formats, ensuring a smoother experience on exam day.

    5. Training Courses

    Consider enrolling in an official training course for the Cisco DCCOR 350-601 exam preparation. These intensive programs provide expert-led training, hands-on labs, and comprehensive study materials. The structured approach offered by these courses can significantly streamline your learning process and ensure you cover all the exam objectives effectively.

    Effective Exam Preparation Tips

    1. Create a Study Plan

    Develop a well-structured study plan to make the most of your preparation time. Start by assessing your current knowledge and identifying areas that require more focus. Allocate dedicated study sessions and set realistic goals for each session. Breaking the topics into manageable chunks ensures comprehensive coverage and prevents last-minute cramming.

    2. Follow a Systematic Approach

    Adopting a systematic approach to studying is vital for success. Begin by understanding the foundational concepts and gradually progress to more complex topics. Take notes, create mind maps, and use visual aids to reinforce your understanding. Revise previously covered topics regularly to maintain a solid grasp of the material.

    3. Utilize Active Learning Techniques

    There may need to be more than passive reading to retain information effectively. Employ active learning techniques such as summarizing concepts in your own words, discussing topics with study partners, or teaching the material to someone else. These techniques promote a more profound understanding and long-term retention of the subject matter.

    4. Hands-on Practice

    There must be more than just theory to excel in the Cisco DCCOR 350-601 exam. Devote time to hands-on practice with data center technologies. Set up a virtual lab environment using tools like Cisco Packet Tracer or GNS3 to gain practical experience configuring and troubleshooting network devices. Practical application of the concepts enhances your understanding and builds confidence.

    5. Review and Reinforce

    Regularly reviewing the material you have covered is crucial for retention. Set aside dedicated time for review sessions where you revisit previous topics, answer practice questions, and identify any areas that need further reinforcement. Utilize flashcards or create summary sheets to condense essential information and facilitate quick revision.

    6. Take Care of Yourself

    Exam preparation can be intense and demanding, but prioritizing self-care is essential. Get enough sleep, eat well-balanced meals, and engage in physical activities to keep your mind and body in optimal condition. Taking breaks and managing stress effectively will improve your overall well-being and focus during study sessions.

    Conclusion

    Achieving success in the Cisco DCCOR 350-601 exam requires diligent preparation and leveraging the right resources. Following a well-structured study plan, utilizing recommended resources, and adopting practical exam preparation tips can enhance your knowledge, boost your confidence, and increase your chances of attaining a favorable outcome. Remember, continuous learning and practical application of the concepts are vital to becoming a proficient network engineer in the dynamic world of data centers.

    Start your journey today with Cisco DCCOR 350-601 exam preparation, and unlock new opportunities in the ever-evolving networking field.

    Tuesday, 20 June 2023

    Security automation with Cisco XDR

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    Security Operations Centers (SOC) continue to face new and emerging threats that test the limits of their tooling and staff. Attackers have simple, affordable access to a plethora of cloud-based computing resources and can move quicker than ever. Keeping up with threats is no longer about adding more people to the SOC to watch logs and queues. It’s about leveraging automation to match the speed of your attackers. This past April, at the RSA Conference in San Francisco, Cisco announced our new eXtended Detection and Response (XDR) product: Cisco XDR. Cisco XDR combines telemetry and enrichment from a wide variety of products, both Cisco and third party, to give you a single place to correlate events, investigate, and respond to automatically enriched incidents. No modern XDR product is complete without automation, and Cisco XDR has multiple automation features built in to accelerate how your SOC battles their enemies.

    Response Playbooks


    Having visibility from an incident is step one, but being able to quickly take meaningful response actions is vital. In Cisco XDR, the new incident manager has what we’re calling the response playbook. The response playbook is a series of suggested tasks and actions broken down into four phases (based on SANS PICERL):

    • Identification – Review the incident details and confirm that a breach of policy has occurred.
    • Containment – Prevent malicious resources from continuing to impact the environment.
    • Eradication – Remove the malicious artifacts from the environment.
    • Recovery – Validate eradication and recover or restore impacted systems.

    Each of these four phases has their own tasks that guide the analyst through completing relevant steps, but the one to focus on from an automation perspective is containment. Let’s say you have a few endpoints you want to isolate but they’re managed by multiple different endpoint detection and response (EDR) products. Two are managed by Cisco Secure Endpoint and another is managed by CrowdStrike. With both of these products integrated into Cisco XDR, all you need to do is click “Select” on the “Contain Incident: Assets” task, select the endpoints to contain, and click “Execute.” We’ll handle the rest from there using an automated workflow in Cisco XDR Automation (explained in more detail in the next section). The workflow will check which endpoints are in which EDR and take the corresponding actions in each product. Improving the analyst’s ability to identify and execute a response action from within an incident is one of the many ways Cisco XDR helps your SOC accelerate its operations.

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    Automated Workflows


    With automation being a core component of how we achieve XDR outcomes, it should come as no surprise that Cisco XDR has a fully featured automation engine built in. Cisco XDR Automation is a no-to-low code, drag-and-drop workflow editor that allows your SOC to accelerate how it investigates and responds, among other things. You can do this by importing workflows from Cisco or by writing your own. To take automation to the next level in Cisco XDR, we have a new concept called Automation Rules. These rules allow you to define criteria that determine when a workflow is executed. Here are some example rule types and when you might use them:

    • Approval Task – Take response actions after an approval task is approved, or notify the team if a request is denied.
    • Email – Investigate suspicious or user-reported emails as they arrive in a spam or phishing investigation mailbox.
    • Incident – Enrich incidents with additional context, take automated response actions, assign to an analyst, push data to other systems like ServiceNow, and more.
    • Schedule – Automate repetitive tasks like auditing configurations, collecting data, or generating reports.
    • Webhook – Integrate with other systems that can call a webhook when something interesting happens. A message being sent to a bot in Webex, for example.

    Cisco XDR Automation allows you to move data between systems that don’t know how to communicate with each other, use custom or third party tools to enrich incidents as they’re generated, or tailor how your analysts respond to threats based on your standard operating procedures.

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    APIs


    Finally, the core of what powers much of Cisco XDR is its APIs. Cisco XDR has a robust set of APIs that allow you to extend most of the functionality you see in the product out to other systems. You can use Cisco XDR APIs to scrape observables from a block of text (shown below in Postman), gather intelligence from integrated products, conduct an investigation, take response actions using integrated products, and more. The flexibility to use Cisco XDR via APIs allows your SOC to customize your processes at a granular level. Want to enrich tickets in your ticketing platform with intelligence from your security products? We have APIs for that. Want to allow analysts to approve remediation actions by messaging a bot in Webex? We can do that too. Cisco XDR has a full suite of APIs that can help you take your security operations to the next level.

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    Conclusion

    The crucial takeaway from this blog is that automation is a key component of modern security operations. The threats we face evolve constantly, move quickly, and many security teams lack enough skilled staff to monitor all of their tools. We need to use automation to keep up and get ahead of bad actors. From an industry perspective, we also recognize that many teams are trying to do more work with fewer people. Automation can help with that too. We want to enable your SOC to automate the things they don’t want to do and accelerate the tasks that truly matter. All of this and more can be done with Cisco XDR.

    Source: cisco.com

    Saturday, 17 June 2023

    The Power of 5G for the Connected Future

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    Trains, planes, automobiles… they all move fast — their network should, too. Transportation systems depend on a strong, secure network – drivers, passengers, employees, and even autonomous operations all rely on it.

    5G connectivity is key to unlocking next-gen transportation networks and applications. Given the critical importance of safety in the transportation ecosystem, in addition to ensuring a seamless user experience, having ubiquitous and extremely reliable connectivity is mission critical. Managing multi-access technologies such as public 5G, private 5G, and Wi-Fi will play a pivotal role in ensuring reliable and secure connectivity across transportation use cases.

    Traditional networks forced data back to centralized nodes, which increased latency by being further way from where the data originated.  With 5G, these nodes can now be decentralized and distributed in cloud deployments, bringing applications and the internet closer to the vehicle, and allowing unprecedented low latency connectivity. Additionally, 5G provides improved security to aid car manufacturers and fleet managers to meet connected vehicle application security requirements.,

    Next-gen experiences in the connected car


    The connected car has evolved since the early days of sending a signal once the vehicle was in an accident.  Today’s connected vehicle has become a bidirectional communicational channel. It needs to be able to communicate with the internet, other vehicles, roadways, intersections, and more for traffic, safety and even entertainment use cases. Automotive OEMs must navigate how to seamlessly move a vehicle between environments, using multiple access technologies, and maintain network visibility, control, and reporting.

    Connected cars are the most sophisticated Internet of Things (IoT) devices today with use-cases (onboard applications or services) ranging from notifying drivers of upcoming road hazards, emergency vehicles, or pedestrians in intersections, to telematics services that enable predictive maintenance of vehicle components, infotainment services to enable audio and video streaming apps (Netflix, Spotify), on-board Wi-Fi, high-definition maps, and a marketplace for retail use-cases.

    In addition to these use-cases, OEMs are looking at 5G as a critical enabler for autonomous driving with V2X services – where the car communicates with neighboring vehicles, roadway infrastructure, and an edge cloud – which requires periodic mapping updates and predictive intelligence with automated assurance to detect service anomalies and drive corrective actions. Additionally, software defined vehicles require frequent software updates (FOTA/SOTA) which require reliable, high-bandwidth connectivity.

    Webex integration is another application that OEMs are choosing to enable as a new service for their customers by making their vehicle a mobile connected office. Ford and Mercedes Benz AG’s recent partnerships with Cisco to enable WebEx conferencing in their vehicles pave the way for mainstream adoption by other OEMs.

    Commercial Vehicle (CV) OEMs are also leading adoption of autonomous trucking (AT) technologies and building homegrown fleet management solutions. Pervasive connectivity with edge deployments supporting mission critical V2X communications is a pre-requisite for CV OEMs to embrace autonomous trucking. Platooning, considered to be the first commercial AT application, is expected to generate TCO savings of ~45% by the end of this decade. Fleet management solutions for electrified, autonomous trucks will subsequently leverage 5G connectivity for predictive diagnostics and maintenance of vehicle components and powertrain. Figure 1 has an overview of connected vehicle 5G-enhanced use-cases.

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    Figure 1. Connected vehicle 5G-enhanced use cases

    Cisco’s vision for a 5G connected transportation future

    To achieve this vision of a 5G connected future in transportation, we are enabling vehicle OEMs to take the control needed to deliver a safer and more sustainable fleet. That requires deep integration with networks and a deep understanding of the quality of service (QoS) that comes from it.

    QoS becomes critical for services that depend on specific characteristics or SLAs like safety or autonomous driving. OEMs need to know how vehicles are performing, and to be able to address issues as they arise, not open a ticket with their communications service provider (CSP) and wait for a response. They need a framework where CSPs allow them certain control and configuration privileges, like applying a slice to a network service or deploying additional edge nodes when capacity dictates they are needed.

    This level of control will allow OEMs to provide unique customer experiences, with a reliable QoS to deliver their services. The car becomes a digital extension of the passenger’s journey, whether it’s a privately owned vehicle, or a shared mobility service. And this goes beyond the connected car.

    OEMs and municipalities must work together to build intelligent systems that will power the connected roads and corridors.  They must learn how to bring disparate sources of data together, process them into intelligent decisions and then feed that information back to drivers or infrastructure that can act upon it.

    The next generation of both cars and networks will change transportation and mobile networks in ways we can’t even fathom yet. But unless you have a strategy for how to bring these two together, you will struggle to unlock the power that is just at our fingertips.

    Source: cisco.com

    Tuesday, 13 June 2023

    Announcing Cisco ISE 3.3

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    If you were at Cisco Live 2023 in Las Vegas, you surely saw that Cisco announced a lot of new products. One of these new products was the update to Cisco Identity Services Engine (ISE 3.3).

    Every network admin or security operator has the same issue: you’re trying to enhance your network’s security, while adding visibility and boosting efficiency, all without sacrificing flexibility. In other words, you want more features without the complications. Cisco ISE 3.3 has that.

    Split Upgrade and Multi-Factor Classification adds flexibility


    When it comes to flexibility, Cisco ISE 3.3’s Split Upgrade feature will change the way you look at ISE upgrades. Customers can be hesitant to update to the newest version of Cisco ISE, because it can take a long time for ISE nodes with large databases to complete the upgrade. Split Upgrades is a new process that is less complex, as files are downloaded before upgrades and prechecks are done. Split Upgrade gives you better control on which ISE nodes to upgrade at any given time, without any downtime.

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    Cisco Identity Services Engine (ISE) Dashboard

    Another feature in Cisco ISE 3.3 provides a way to easily identify clusters of unidentified endpoints found on the network. These endpoints are unidentified because oftentimes a variety of endpoints connect to the network that are not directly provisioned by IT. This feature uses AI/ML Profiling and multi-factor classification (MFC) to quickly identify clusters of identical unknown endpoints via a cloud-based ML engine. From there, the devices can be reviewed by proposed profiling policies via the ML engine and have the devices labeled as either MFC Hardware Manufacturer, MFC Hardware Model, MFC Operating System and MFC Endpoint Type.

    By placing the unidentified device into one of these four buckets, Cisco ISE has taken a big chunk of guessing what goes where out of the equation. From there it’s easier for the customer to determine what the endpoints are and what policies should govern them when on the network.

    Unique to Cisco: Wi-Fi Edge Analytics


    A Cisco-only feature called Wi-Fi Edge Analytics will allow network admins to mine data from Apple, Intel and Samsung devices to better improve profiling. Cisco Catalyst 9800 wireless controllers will pass along endpoint-specific attributes, such as model, OS version, firmware, among others, to ISE via RADIUS. From there this information will be used to profile common endpoints found on the network. Network Admins will now have more data allowing them to create more defined profiles. The more information that is at the fingertips of the admin, the more precise the profile.

    Even More Flexibility with Controlled Application Restart


    To increase efficiency, predictability and reduce downtime, Cisco ISE 3.3 offers Controlled Application Restart. It benefits customers by saving them time and eliminating a lot of the headaches that come with managing ISE admin certificates. Customers are now given the ability to control the replacement of the ISE administrative certificate allowing them the ability to plan for maintenance once their current certificate expires. Prior to this new feature, a certification replacement required a complete reboot of all the PSNs in the deployment without the ability to know or control the order to the reboot, which can cause some admins to allow the certification to lapse.

    Changes to certificates require a restart since it affects systemwide configuration and cannot be done during operational hours since it requires significant downtime. However, Cisco ISE 3.3 now provides flexibility for these certifications to be scheduled the restart at the network admins’ convenience; during the middle of the night or on weekend when network usage is low. This eliminates the need for that downtime and helps to smooth security updates without disruption.

    Controlled Application Restart is a response to an industry trend where customers are moving to a short-term certificate due to added security. This new feature is beneficial as the maintenance needed to update the certification—which can take upwards of 30 minutes per certificate—can be scheduled for the middle of the night, when network use is low, saving both time and resources.

    Improved Insights with pxGrid Direct Visibility


    pxGrid Direct Visibility has improved visibility from the last iteration of Cisco ISE (ISE 3.2) and now customers get improved endpoint attributes via external databases such as Service Now. These attributes can now be shown in Context Visibility. Whether the data comes from endpoints, users, devices or which apps are running over the network and its different attributes, it provides a lot of information such as the device type, device owner and other things like whether the device is operational.

    Getting this endpoint data in an easily accessible fashion allows you to make better network decisions based on facts. This data can then be spun to run the network in a more efficient manner allowing for a safer network and less time spent on translating information.

    Tougher Security with the TPM Chip


    The new TPM Chip (for supported hardware) is a response to the need for increased security. Found on the new SNS-3700 models and in some virtual environments (in a form of Virtual TPM), the TPM chip is a dedicated chip where sensitive information can be stored. Previously if Cisco ISE used a password to connect to a database, it was stored in the file system, which is less secure. But now with the information housed on the physical TPM Chip, and with the ability to create true random numbers for key generation, it has proven to be more difficult to access thus providing a more secure place for information to be stored.

    With the number of new features and functionality that comes to you with the latest Cisco ISE 3.3 update, your network’s security will be enhanced, and you will notice an increase in efficiency and visibility.

    Cisco ISE 3.0 Overview Demo

    Source: cisco.com

    Thursday, 8 June 2023

    Empowering an extensible observability ecosystem with the Cisco Full-Stack Observability Platform

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    Businesses today are digitally led, providing experiences to their customers and consumers through applications. The environments these applications are built upon are complex and evolve rapidly — requiring that IT teams, security teams, and business leaders can observe all aspects of their applications’ performance and be able to tie that performance to clear business outcomes. This calls for a new type of platform that can scale as a business scale and easily extend across an organization’s entire infrastructure and application lifecycle. It’s critical for leaders to have complete visibility, context and control of their applications to ensure their stakeholders — from employees to business partners to customers — are empowered with the best experiences possible.

    What is Cisco Full-Stack Observability (FSO) Platform?


    The Cisco FSO Platform is an open and extensible, API-driven full stack observability (FSO) platform focused on OpenTelemetry and anchored on metrics, events, logs, and traces (MELT), providing AI/ML driven analytics as well as a new observability ecosystem delivering relevant and impactful business insights through new use-cases and extensions.

    Benefits of The Cisco FSO Platform


    Cisco’s FSO Platform is future-proof and vendor agnostic, bringing data together from multiple domains — including application, networking, infrastructure, security, cloud, sustainability — and business sources. It is a unified observability platform enabling extensibility from queries, data ingestion pipelines and entity models all the way to APIs and a composable UI framework.

    This provides Cisco customers with in-context, correlated, and predictive insights which enables them to reduce time to resolve issues, optimize their own users’ experiences, and minimize business risk — all with the additional flexibility to extend the Cisco FSO Platform’s capabilities with the creation of new or customized business use cases. This extensibility unleashes a diverse ecosystem of developers who can create new solutions or build upon existing ones to rapidly add value with observability, telemetry, and actionable insights.

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    Cisco FSO Platform Diagram

    First Application on the Cisco FSO Platform – Cloud Native Application Observability


    Cloud Native Application Observability is a premier solution delivered on the Cisco FSO Platform. Cisco’s extensible application performance management (APM) solution for cloud native architectures, Cloud Native Application Observability with business context – now on the Cisco FSO Platform – helps customers achieve business outcomes, make the right digital experiences related decisions, ensure performance alignment with end-user expectations, prioritize, and reduce risk while securing workloads.

    The following are some of the modules built on Cisco FSO Platform that work with Cloud Native Application Observability.

    Modules built by Cisco

    Cost Insights: This module provides visibility and insights into application-level costs alongside performance metrics, helping businesses understand the fiscal impact of their cloud applications. It leverages advanced analytics and automation to identify and eliminate unnecessary costs, while also supporting sustainability efforts.

    Application Resource Optimizer: This module provides deeper insights into a Kubernetes workload and provides visibility into the workload’s resource utilization. It helps to identify the best candidates for optimization—and reduce your resource utilization. Running continuous AI/ML experiments on workloads, the Application Resource Optimizer creates a utilization baseline, and offers specific recommendations to help you improve. It analyzes and optimizes application workloads to maximize resource usage and reduce excessive cloud spending.

    Security Insights: This module provides Business Risk Observability for cloud-native applications. It provides cloud native infrastructure insights to locate threats and vulnerabilities; runtime data security to detect and protect against leakage of sensitive data; and business risk prioritization for cloud security. By integrating features from our market-leading portfolio of security solutions, security and application teams have expanded threat visibility, and the intelligent business risk insights to respond in real-time to revenue-impacting security risks and reduce overall organizational risk profiles.

    Cisco AIOps: This module helps to visualize contextualized data relevant to infrastructure, network, incidents, and performance of a business application, all in one place. It simplifies and optimizes the IT operations needs and accelerates time-to market for customer-specific AIOps capabilities and requirements.

    Modules built by Partners

    Evolutio Fintech: This module helps to reduce revenue losses for financial customers resulting from credit card authorization failures. It monitors infrastructure health impact on hourly credit card authorizations aggregated based on metadata like region, schemas, infra components and merchants.

    CloudFabrix vSphere Observability and Data Modernization: This module helps to observe vSphere through the FSO platform and enriches vShpere and vROps data with your environment’s Kubernetes and infrastructure data.

    Kanari Capacity Planner and Forecaster: This module provides insights into infrastructure risk factors that have been determined through predictive ML algorithms (ARIMA, SARIMA, LSTM). It helps to derive capacity forecasts and plans using these insights and baseline capacity forecast to analyze changing capacity needs overtime.

    Source: cisco.com

    Tuesday, 6 June 2023

    Understanding Application Aware Routing (AAR) in Cisco SD-WAN

    One of the main features used in Cisco SD-WAN is Application Aware Routing (AAR). It is often advertised as an intelligent mechanism that automatically changes the routing path of applications, thanks to its active monitoring of WAN circuits to detect anomalies and brownout conditions.


    Customers and engineers alike love to wield the power to steer the application traffic away from unhealthy circuits and broken paths. However, many may overlook the complex processes that work in the background to provide such a flexible instrument.

    In this blog, we will discuss the nuts and bolts that make the promises of AAR a reality and the conditions that must be met for it to work effectively.

    Setting the stage


    To understand what AAR can and cannot do, it’s important to understand how it works and the underlying mechanisms running in unison to deliver its promises.

    To begin, let’s first define what AAR entails and its accomplices:

    Application Aware Routing (AAR) allows the solution to recognize applications and/or traffic flows and set preferred paths throughout the network to serve them appropriately according to their application requirements. AAR relies on Bidirectional Forwarding Detection (BFD) probes to track data path characteristics and liveliness so that data plane tunnels between Cisco SD-WAN edge devices can be established, monitored, and their statistics logged. It uses the collected information to determine the optimal paths through which data plane traffic is sent inside IPsec tunnels. These characteristics encompass packet loss, latency, and jitter.

    The information above describes the relationship between AAR and BFD, but it’s crucial to note that they are separate mechanisms. AAR relies on the BFD daemon by polling its results to determine the preferred path configured,  based on the results of the BFD probes sent through each data plane tunnel.

    It is a logical next step to explain how BFD works in SD-WAN as described in the Cisco SD-WAN Design Guide:

    On Cisco WAN Edge routers, BFD is automatically started between peers and cannot be disabled. It runs between all WAN Edge routers in the topology encapsulated in the IPsec tunnels and across all transports. BFD operates in echo mode, which means when BFD packets are sent by a WAN Edge router, the receiving WAN Edge router returns them without processing them. Its purpose is to detect path liveliness and it can also perform quality measurements for application aware routing, like loss, latency, and jitter. BFD is used to detect both black-out and brown-out scenarios.

    Searching for ‘the why’


    Understanding the mechanism behind AAR is essential to comprehend its creation and purpose. Why are these measurements taken, and what do we hope to achieve from them? As Uncle Ben once said to Spider-Man, “With great power comes great responsibility.”

    Abstraction power and transport independence require significant control and management. Every tunnel built requires a reliable underlay, making your overlay only as good as the underlay it uses.

    Service Level Agreements (SLAs) are crucial for ensuring your underlay stays healthy and peachy, and your contracted services (circuits) are performing as expected. While SLAs are a legal agreement, they may not always be effective in ensuring providers fulfill their part of the bargain. In the end, it boils down to what you can demonstrate to ensure that providers keep their i’s dotted and their t’s crossed.

    In SD-WAN, you can configure SLAs within the AAR policies to match your application’s requirements or your providers’ agreements.

    Remember the averaged calculations I mentioned before? They will be compared against configured thresholds (SLAs) in the AAR policy. Anything not satisfying those SLAs will be flagged, logged, and won’t be used for AAR path selections.

    Measure, measure, measure!


    Having covered the what, who, and the often-overlooked why, it’s time to turn our attention to the how! ?

    As noted previously, BFD measures link liveliness and quality. In other words, collecting, registering, and logging the resulting data. Once logged, the next step is to normalize and compare the data by subsequently averaging the measurements.

    Now, how does SD-WAN calculate these average values? By default, quality measurements are collected and represented in buckets. Those buckets are then averaged over time. The default values consist of 6 buckets, also called poll intervals, with  each bucket being 10 minutes long, and each hello sent at 1000 msec intervals.

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    Putting it all together (by default):

    ◉ 6 buckets
    ◉ Each bucket is 10 minutes long
    ◉ One hello per second, or 1000 msec intervals
    ◉ 600 hellos are sent per bucket
    ◉ The average calculation is based on all buckets

    Finding the sweet spot


    It’s important to remember that these calculations are meant to be compared against the configured SLAs. As the result is a moving average, voltage drops or outages may not be considered by AAR immediately (but they might already be flagged by BFD). It takes around 3 poll intervals to motivate the removal of a certain transport locator (TLOC) from the AAR calculation, when using default values.

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    Can these values be tweaked for faster AAR decision making? Yes, but it will be a trade-off between stability and responsiveness. Modifying the buckets, multipliers (numbers of BFD hello packets), and frequency may be too aggressive for some circuits to meet their SLAs.

    Let’s recall that these calculations are meant to be compared against SLAs configured.

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    Phew, who would have thought that magic can be so mathematically pleasing? ?

    Source: cisco.com

    Saturday, 3 June 2023

    The Future of Work is Here – and it’s Hybrid

    We are excited to be announcing a new blog channel for Cisco – we don’t do this often but believed it was necessary to have a space to tell stories that cut across people, technology, and spaces in one place. In this “Future of Work” channel we’ll be highlighting trends, solutions, and any relevant and interesting topics with a goal of making your journey to great work experiences faster, easier, and more rewarding.

    Next week will be our Cisco Live USA event, starting on June 4, 2023 . Whether you are attending in-person in Las Vegas or digitally,we’ll talk about the Future of Work in various sessions and showcase technology solutions live, both in our partner areas and the Cisco Solution Showcase.

    One of the big questions we wondered about last year at Cisco Live was the extent to which “hybrid work” – as in the flexibility to work remotely or in the office – was truly here to stay, or if employees would all come back to the office?

    The data indicates that – at least in the USA – that about 30% of work days are being taken at home.

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    Based on this we’re confident that there will be remote workers, at least for the foreseeable future. Employers are also now starting to make the connection between great hybrid work experiences, achieving corporate sustainability goals, reducing real estate space needs, and the role technology plays in it all going forward. This means investing in the right security, collaboration tools, and network to ensure that teams are empowered no matter where their members are located.

    Source: cisco.com