Friday, 1 February 2019

Taking the Full Power of Hyperconverged Infrastructure to the Edge with HyperFlex Anywhere

We at Cisco have been on a mission; a mission to create the design patterns for the next generation of datacenters and private clouds. These design patterns are simpler than anything seen before, more performant than anything out there, and include the enterprise-class resiliency that our customers can count on.

Cisco shook up the server industry in 2009 with an architecture that extracted the personality of both server and fabric away from the metal, and codified it into policy. A few years later, we led the transition to converged infrastructure stacks—a space we still lead in. In 2016, we realized that Hyperconverged Infrastructure (HCI) could be built in a much more elegant manner than was available at that time. We codesigned hardware, software, networking, and management, creating a deeply engineered system with a superior architecture. We then introduced HyperFlex 2.0 in 2017, with a focus on application performance, and beat the competition in independent testing. In 2018, we released version 3.0 of HyperFlex, with support for multiple hypervisors, multiple container frameworks, and integrations that bridge to a multicloud world.

Today at Cisco Live Barcelona, I am happy to report that we are announcing HyperFlex 4.0—which extends Cisco’s HyperFlex platform from the core to the edge. HyperFlex 4.0 is a truly unique and innovative platform engineered to meet the requirements for deploying HCI in edge environments at a global scale.

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Data Center Anywhere – There’s Nothing Centered about the Data Center Anymore


Every cloud or data center is built for one reason – to run applications. However, today’s applications are increasingly diverse and distributed. They generate data in disparate locations and consume it from disparate locations. To further the point, it is estimated that by 2022, 50% of enterprise-generated data will be created and processed outside the traditional, centralized data center or cloud[1]. As data pools outside the traditional datacenter, datacenters themselves must follow the data to branch, remote, and edge locations.

Our latest HyperFlex offering is designed with this new reality in mind, delivering an elastic datacenter-in-a-box to wherever the data resides, be it at the core or at the edge.

HyperFlex Anywhere – Simplifying the Branch Deployment


Deploying HCI to multiple sites at a state-wide, national or global scale can be a complex task. Conventional offerings require staging in a central location, sending trucks from there to each site, moving IT teams from location to location, and manual installs. This process can be fraught with problems. Errors can get introduced due to fat fingering. Edge sites can get stale before the entire footprint is even installed. And the entire process can be very time consuming. HyperFlex with Cisco Intersight revolutionizes this process. HyperFlex Edge nodes ship ready to deploy directly from the factory to the edge sites along with connectors to Cisco Intersight in the cloud. This allows us to leverage the power and reach of the Intersight cloud to provide a fully automated, zero touch installation of the HyperFlex Edge clusters.

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We can now deliver deployment and lifecycle management benefits at scale; and deliver this remotely from the cloud. In addition to this, HyperFlex Edge and Intersight also allows our ROBO and Edge customers to:

◈ deploy a single and simplified hyperconverged architecture across their core, hybrid cloud, and edge – simplifying operations
◈ meet aggressive cost envelopes for infrastructure deployment at scale for edge and branch locations
◈ deploy clusters as small as 2-nodes (and up to 4 nodes) – a form factor that fits the needs of edge sites
◈ drive data resiliency without the expense (through our industry leading innovations around an invisible cloud-based witness resident in Intersight)
◈ simplify operations through centralized lifecycle management and actionable intelligence from Intersight.

In addition to the Intersight Cloud for Infrastucture management, we are also now integrated with Citrix Cloud Services. This enables customers to quickly and easily provision hundreds and thousands of virtual desktops and virtual applications from anywhere using Citrix cloud.

HyperFlex Anywhere – Performance without Compromise


The second key theme in today’s HyperFlex announcement is all about performance—one of our key differentiators and an area where Cisco will continue to lead. Although some of our competitors talk down the importance of performance because it is the Achilles Heel of their solution, we at Cisco take the opposite approach. We believe that performance matters and is key to enabling mission critical applications and minimizing total customer spend.

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The reason is simple. HCI has now matured to the point where it runs more and more of a company’s critical business applications. Poor HCI performance can impact customer experience, team effectiveness, and ultimately, a company’s bottom line. On the other hand, a high Performance HCI solution like HyperFlex can not only reduce these risks but also have a significant impact on TCO, both in terms of cost saving and cost avoidance for customers. When you can do more work with less resources, it means you need less hardware, less associated software licenses, and even more important, less operation overhead. These savings can add up quickly.

Yes, performance matters. And that’s why our latest HyperFlex release ups the game on performance yet again by utilizing Intel®Optane™caching and all NVMe capacity drives. We worked closely with Intel to develop the HX220c M5 All NVMe nodes and were the first to market with a fully engineered all NVMe HCI system that incorporates full reliability, availability, and serviceability (RAS) functionality. This includes hot plug capabilities to enable enterprise-grade All-NVMe systems for our customers’ business critical applications.

We’ve also added a new hardware offload engine to the latest release, called the HyperFlex Acceleration Engine. This engine is an optional add-on PCIe card with an onboard FPGA, and gives our customers the ability to offload processing from the CPU, thereby freeing up those cycles for actual application workloads. In addition, the hardware acceleration provides higher performance, further extending our lead in this area and maximizing economic value for our customers.

And finally, along with all the other new features mentioned above, this release delivers further enhancements for cloud native applications with support for RedHat Openshift Container Platform as well as support for the Kubernetes Container Storage Interface (CSI).

Our Mission Continues


HyperFlex Anywhere enables Cisco customers to extend the simplicity of hyperconvergence from the core to the edge, to address a multitude of workloads and use cases. Our new HyperFlex 4.0 release and Intersight innovations, are engineered to meet the unique requirements for deploying hyperconverged infrastructure in edge and ROBO environments, at a global scale, and with superior performance.

We are proud to have been recognized in 2018 by both Forrester and Gartner as a leader in the hyperconverged infrastructure space and look forward to continuing our mission of providing customers with the innovations they need to accelerate their digital transformation.

Wednesday, 30 January 2019

Security in Utilities: an architectural approach for partners.

When we talk about Utilities, we usually refer mainly to the companies that supply electricity to business and residential consumers. However, there are several other types of Utilities including Water, Gas and Waste Management companies just to name a few. All of them face the same types of security threats, in the past few years there have been a number of incidents, for example public warning systems have been hacked and turned on in the middle of the night. There have also been attacks on the systems that control gas pipelines shutting down the gas flow for several hours.

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Many of these attacks have happened not because of the actual lack of IT security measures or precautions, but in my cases due to organizational failures, whereby security data has been released to a third-party contractor without taking the necessary data protection procedures to avoid these incidents from happening.

In order to prevent security incidents from happening companies have to evolve their security approach to a phased security architecture:

◈ First Phase: modernize the connectivity of the transmission and distribution systems, including zone segmentation, controlled conduits and following standards such as ISA -95,99 / IEC 62443 / NERC /NIST.

◈ Second Phase: providing visibility of the data that is going through the equipment and systems all the way to the control area. This requires Application Control and Threat Control.

◈ Third Phase: convergence of security policies across all the different layers, including policy driven responses and deeper vision and control.

This phased security architectural approach can be used by partners across different types of Utilities. The most important thing to highlight is that partners should provide their customers with a consistent risk assessment followed by an architecture that addresses the potential gaps discovered through this assessment.

There are some use case themes that partners can discuss with their customers to address the different types of potential vulnerabilities their industrial infrastructure might have, including:

◈ Secure Connectivity: what devices can connect to what control systems; what type of communications can happen between different systems.

◈ Secure Remote Access: what are the access control measures, how can secure access be provided.

◈ Threat Control: what devices are vulnerable; how can you protect any vulnerable assets.

◈ Safe Environment: what type of protection is being provided in the networking infrastructure and what type of protection is being provided on the devices themselves.

In order to address the security requirements of all different types of Utilities we now have Cisco IoT Threat Defense which converges a security architecture and services to help industrial companies defend their IoT devices and keep their business running.

The main idea is to look at the individual environments that need some form of Cybersecurity, then mapping them to the products that Cisco partners can deliver by using the Cisco Validated Designs to define how to bring a particular solution forward.

There are four different areas that we focus on: Segmented Access Control for both IT and OT environments; Visibility and Analysis of potentially dangerous behavior to/from IoT devices; Secure Access into the OT network; and finally, Professional Security Services to assess the baseline risk, manage OT environments and perform incident response.

Monday, 28 January 2019

Improved performance and pay-as-you-go in Microsoft Azure

According to a recent IDC survey 85% of organizations are evaluating or using the public cloud1. As customers begin deploying workloads in the public cloud having a high-performing solution that allows them to securely extend their on-premises network to the cloud is critical. The Cisco CSR 1000V is a full-featured IOS-XE router that provides a secure way to connect your public cloud deployment to your on-premises network.

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We are constantly working with our cloud partners to deliver new features and improved scale and performance. The latest software release for CSR 1000V (IOS-XE 16.10.1) delivers a number of significant enhancements for CSR 1000V on Microsoft Azure.

First, the release adds support for Microsoft Accelerated Networking which will enable customers to achieve 4x the throughput of the current CSR 1000V software release. Also, CSR 1000V will be launching support for customers to leverage pay-as-you-go, allowing for hourly consumption of the CSR. All of these improvements mean customers will be able to leverage better scale and performance for the CSR in Microsoft Azure.

Improved performance with Accelerated Networking


Cisco is adding support for Microsoft Accelerated Networking in the IOS-XE 16.10.1 software release for the CSR 1000V. By leveraging Accelerated Networking CSR 1000V is able to achieve up to a 4x increase in throughput performance across the existing instance types.

Figure 1 – Image from Microsoft Azure Documentation on Accelerate Networking

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With accelerated networking, network traffic arrives at the VM’s network interface (NIC), and then is forwarded directly to the VM by-passing the host and the virtual switch. By allowing the CSR 1000V direct access to the network interface (NIC) Cisco and Microsoft are able to achieve significant improvements in the maximum throughput of the virtual router.

Azure Pay-as-you-Go


This new release for CSR 1000V also marks the launch of a new way to consume CSR 1000V on Azure. Customers will now be able to launch an hourly pay-as-you-go instance of CSR 1000V from the Azure Marketplace. With hourly pay-as-you-go, users can spin up CSR 1000V and consume it for a defined period of time based on their needs. When they are finished they can spin it down and only pay for the length of time they used it instead of being locked into an annual or multi-year contract. This pay-as-you-go instance of CSR 1000V will support all of the existing deployment models that are available today for customers who choose the bring-your-own-license consumption model for CSR 1000V.

Smart Licensing Only


In this release CSR 1000V will support only Smart Licensing. In previous release the CSR 1000V also supported classic ePAK licensing. Going forward all future releases of software for CSR 1000V will support only Smart Licensing which greatly simplifies licensing for the customer and provides greater flexibility and visibility to the licenses they own. Customers can use the Cisco Smart Software Manager (CSSM) to view all of the smart licenses they own in one place. For customers who have classic ePAK licenses they should convert their classic license to a smart licenses using the Licenses Registration Portal prior to upgrading to the 16.10.1 release.

This video provides step-by-step details on how to convert your existing classic ePAK licenses to a smart license.

Thursday, 24 January 2019

The Legacy Continues with a Modern Classic

With the ISR 900 Series, Cisco continues a 26 year pedigree.


1993 was a much simpler time. A gallon of gas cost $1.16. The Space Shuttle was still flying. Beanie Babies were launched. Intel introduced the Pentium processor to power Windows 3.1. Jurassic Park and Mrs. Doubtfire were leading the box office while Snoop Dogg and Rage Against the Machine had breakout hits. Is this making anyone else feel nostalgic or just old?

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1993 was also the year that Cisco introduced something that would forever change the landscape of networking in remote offices – the Cisco 2500 Series. For the first time there was a compact affordable Enterprise router with a huge spectrum of available interfaces and features to hammer just about any networking nail. The 2500 was so reliable that they can still be found in offices and data centers around the world more than a quarter century after being introduced. (I confess that I still use several 2511-RJ as terminal servers.)

Capability with Simplicity


So, what made the Cisco 2500 so great and how does that relate to a router being introduced in 2019? The answer is simple – literally. Simplicity with capability in the form of features and interfaces. The 2500 was never the fastest router in the market, but the flexibility and reliability made it a trusted friend for IT staff. With literally thousands of features and any interface type you were likely, or even unlikely, to run into, the 2500 could do it all.

That initial success led to the Cisco 2600 and 3600 Series which would morph into the first generation of Integrated Services Routers followed by the ISR G2 and 800 Series routers all running the same Cisco IOS® operating system. That’s a direct unbroken line of platforms running the same operating system since the earliest Cisco Routers, while adding new features and hardening the whole time. There just isn’t another piece of software with that pedigree anywhere.

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Modern Hardware for a New Take on a Classic


The ISR 900 Series builds on that solid foundation with rock-solid 21st century hardware. The Cisco 900 Series is a silent, fan-less chassis designed to fit into any office. With that comes the interfaces you need today including LTE (available soon), ADSL/VDSL, Gigabit Ethernet WAN and switching. Modern components bring Cisco IOS performance on par with current branch routers including high performance encrypted VPN and firewall. Thousands of features you expect from a Cisco Branch Router, including some the 2500 never dreamed of, are built in such as MPLS, IPSLA, AVC, PfR and more with performance that’s more than 100 times what the 2500 could dream of.

Just One More Thing


There’s also one more throwback to classic small branch routers you might notice in the new Cisco 900 Series ISR and that’s the internal power supply. The Cisco 921 & 931 ISRs do away with the external power supply “brick” common to branch office devices and brings the power supply inside the router which can really clean up a cluttered branch environment.  Getting the power supply inside a passively cooled chassis with a wide temperature range is a big engineering deal. Yes, I really did just geek out over a power supply.

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The Cisco 900 Series is a modern classic. It complements other members of the ISR portfolio, such as the ISR 1000 Series and ISR 4000 Series, while providing an easy migration path for Cisco 800 Series users. It isn’t the fastest or flashiest member of the ISR family. What it is is a solid, reliable performer with the features you need to sort out the most complex of network nightmares. Isn’t that what most IT professionals really want when the business is on the line?

This is just a teaser for what you can expect from the Cisco ISR 900 Series. Head on over to the Cisco ISR 900 Series page, cisco.com/go/isr900, for all the details.

Wednesday, 23 January 2019

Cisco DNA Center Network Automation with Template Programmer API – Part 1

Using APIs to apply templates to network devices


Cisco DNA center provides Day0 to Day-N support for network device automation.

This blog looks at one aspect of automation, the template programmer. Specifically, it covers the API’s used to apply templates to network devices.

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Template programmer uses the velocity templating language for templates. The templates are created via the template editor and are applied via the User Interface or programmatically via the API.

This initial blog is going to cover the basics of finding templates, getting a specific version and applying a template to a device. To better illustrate how the API calls can be used in a practical manner, I am going to use a small python script published on github.

I am going to use a common (practical example) template of changing the vlan assigned to an interface on a switch. The template will take two variables:

◈ An interface name (e.g. gig1/0/20)
◈ A vlan number (e.g. 20)

Interaction with PnP Day0


For those familiar with this blog series, I have covered day0 configuration with Network PnP and also some basic velocity examples.

Day-0 templates are applied only when the device first contacts the controller and is onboarded to the network. Depending on your operational model, the day0 configuration might be quite small (just enough to establish secure connectivity) and day-N templates are used to apply ongoing configuration changes.

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Step 1 – Listing Templates


The first step is to find the templates available on the Cisco DNA Center.

If you downloaded the example script, you can just run it with no arguments to see a list of templates.

(in order to run this script you will need to either edit the dnac_config.py file, or set the appropriate environment variables to customize your DNA Center and loging credentials – as outlined in the README). The template of interest is called “Adam/int-vlan” .

The API call is shown below. When the script is run without any argumnets, it prints the names of all templates. The first part of the name is the template project. In this case “Adam”. A project is just a folder to group templates.

$ ./template.py
Available Templates:
https://dnac:443/dna/intent/api/v1/template-programmer/template
  Adam/acl
  Adam/binding
  Adam/int-vlan
  Adam/interface-des
  DB/prefix
  Onboarding Configuration/9300
  Onboarding Configuration/advanced
  Onboarding Configuration/basic
  Onboarding Configuration/encs-9k
  Production/base
  Production/comp1
  Production/interfaces

Step 2– Getting the latest version


To get more details on a particular template, the script can be run with the –template <template-name> option. The latest version of the template (Version: 10) is selected.

The TemplateId is then used to return the body of this version of the template.

The body is quite simple, applying an access vlan to the given switch port. This is shown in green.

The script also requires two parameters ({“vlan”:””,”interface”:””})

$ ./template.py --template Adam/int-vlan
Looking for: Adam/int-vlan
https://dnac:443/dna/intent/api/v1/template-programmer/template
TemplateId: 610a718c-0a71-484b-a632-a79b64192cb7 Version: 11

https://dnac:443/dna/intent/api/v1/template-programmer/template/610a718c-0a71-484b-a632-a79b64192cb7
Showing Template Body:
interface $interface
  switchport access vlan $vlan

Required Parameters for template body: {"vlan":"","interface":""}

Bindings []

Step 3– Applying the template


The script can be executed with a device (ip address) and params provided. Note the params are in single quote to avoid shell issues.

$ /template.py --template Adam/int-vlan --device 10.10.50.2 --params '{"vlan":"20","interface":"gig1/0/20"}'
Looking for: Adam/int-vlan
https://dnac:443/dna/intent/api/v1/template-programmer/template
TemplateId: 610a718c-0a71-484b-a632-a79b64192cb7 Version: 11

https://dnac:443/dna/intent/api/v1/template-programmer/template/610a718c-0a71-484b-a632-a79b64192cb7
Showing Template Body:
interface $interface
  switchport access vlan $vlan

Required Parameters for template body: {"interface":"","vlan":""}

Bindings []

Up to this point, the output is the same as before. The payload for applying the template is below. Some notes:

◈ The targetInfo can be a list, which means multiple devices can be provisioned at the same time.
◈ Each target has its own set of parameters.
◈ The target device can be specified in multiple ways. In this example “MANAGED_DEVICE_IP” is the type, and the IP of the device is 10,.10.50.2. UUID is also supported.
◈ The templateId is also required.

{'targetInfo': [{'params': {u'interface': u'gig1/0/20', u'vlan': u'20'},
                'type': 'MANAGED_DEVICE_IP',
                'id': '10.10.50.2'}],
'forcePushTemplate': False,
'templateId': u'610a718c-0a71-484b-a632-a79b64192cb7'}

The POST call to https://dnac:443/dna/intent/api/v1/template-programmer/template/deploy returns a task, which contains a deploymentId which needs to be polled for completion.

Executing template on:10.10.50.2, with Params:{"vlan":"20","interface":"gig1/0/20"}
payload {'targetInfo': [{'params': {u'interface': u'gig1/0/20', u'vlan': u'20'}, 'type': 'MANAGED_DEVICE_IP', 'id': '10.10.50.2'}], 'forcePushTemplate': False, 'templateId': u'610a718c-0a71-484b-a632-a79b64192cb7'}
https://dnac:443/dna/intent/api/v1/template-programmer/template/deploy
Response {u'duration': u'0 seconds', u'deploymentId': u'Deployment of Template: 610a718c-0a71-484b-a632-a79b64192cb7.ApplicableTargets: [10.10.50.2]Template Deployemnt Id: 41ac69b9-8f2b-43a5-bb4b-622936f0f244', u'endTime': u'', u'startTime': u''}

The deploymentId status needs to be polled until the deployment is competed.

waiting for deploymentId 41ac69b9-8f2b-43a5-bb4b-622936f0f244
https://dnac:443/api/v1/template-programmer/template/deploy/status/41ac69b9-8f2b-43a5-bb4b-622936f0f244
{u'status': u'INIT', u'templateName': u'int-vlan', u'projectName': u'Adam', u'devices': [{u'status': u'IN_PROGRESS', u'name': u'', u'detailedStatusMessage': None, u'deviceId': u'e05075e8-eb5b-42f5-9f60-d56380702655', u'startTime': u'04:33:56 15/01/2019', u'duration': u'0 minutes 0 seconds', u'endTime': u'', u'ipAddress': u'e05075e8-eb5b-42f5-9f60-d56380702655'}], u'deploymentId': u'41ac69b9-8f2b-43a5-bb4b-622936f0f244', u'startTime': u'', u'duration': u'0 seconds', u'endTime': u'', u'templateVersion': u'11'}
Task=41ac69b9-8f2b-43a5-bb4b-622936f0f244 has not completed yet. Sleeping 2 seconds...
https://dnac:443/api/v1/template-programmer/template/deploy/status/41ac69b9-8f2b-43a5-bb4b-622936f0f244
{u'status': u'SUCCESS', u'templateName': u'int-vlan', u'projectName': u'Adam', u'devices': [{u'status': u'SUCCESS', u'name': u'', u'detailedStatusMessage': u'Provisioning success for template int-vlan', u'deviceId': u'e05075e8-eb5b-42f5-9f60-d56380702655', u'startTime': u'04:33:56 15/01/2019', u'duration': u'0 minutes 2 seconds', u'endTime': u'', u'ipAddress': u'e05075e8-eb5b-42f5-9f60-d56380702655'}], u'deploymentId': u'41ac69b9-8f2b-43a5-bb4b-622936f0f244', u'startTime': u'', u'duration': u'0 seconds', u'endTime': u'04:33:57 15/01/2019', u'templateVersion': u'11'}

Once completed, the status is displayed. The status (SUCCESS/FAIL), time taken, template name, version and deviceId are all shown.

Response:
{
  "status": "SUCCESS",
  "templateName": "int-vlan",
  "projectName": "Adam",
  "devices": [
    {
      "status": "SUCCESS",
      "name": "",
      "detailedStatusMessage": "Provisioning success for template int-vlan",
      "deviceId": "e05075e8-eb5b-42f5-9f60-d56380702655",
      "startTime": "04:33:56 15/01/2019",
      "duration": "0 minutes 2 seconds",
      "endTime": "",
      "ipAddress": "e05075e8-eb5b-42f5-9f60-d56380702655"
    }
  ],
  "deploymentId": "41ac69b9-8f2b-43a5-bb4b-622936f0f244",
  "startTime": "",
  "duration": "0 seconds",
  "endTime": "04:33:57 15/01/2019",
  "templateVersion": "11"
}

The interface Gig1/0/20 on the switch has successfully been provisioned into vlan 20.

Tips and Traps


One of the most obvious issues when testing is an error message related to “deployed with same params”, an example appears below.

Executing template on:10.10.50.2, with Params:{"vlan":"20","interface":"gig1/0/20"}
payload {'targetInfo': [{'params': {u'interface': u'gig1/0/20', u'vlan': u'20'}, 'type': 'MANAGED_DEVICE_IP', 'id': '10.10.50.2'}], 'forcePushTemplate': False, 'templateId': u'610a718c-0a71-484b-a632-a79b64192cb7'}
https://dnac:443/dna/intent/api/v1/template-programmer/template/deploy
Response {u'duration': u'0 seconds', u'deploymentId': u'Deployment of Template: 610a718c-0a71-484b-a632-a79b64192cb7.ApplicableTargets: [10.10.50.2],Template int-vlan:11 is already deployed with same params,. Not deploying it.None of the targets are applicable for the template. Hence not deploying', u'endTime': u'', u'startTime': u''}
Error: 11 is already deployed with same params,. Not deploying it.None of the targets are applicable for the template. Hence not deploying

By default Cisco DNA Center will not deploy the same template, with the same parameters twice (if the first attempt was successful). There are times where you may want to change this behaviour. The –force option can be used to set the ‘forcePushTemplate’: False, option to True.
One other thing you may find confusing is the following message.

Executing template on:10.10.50.20, with Params:{"vlan":"20","interface":"gig1/0/20"}
payload {'targetInfo': [{'params': {u'interface': u'gig1/0/20', u'vlan': u'20'}, 'type': 'MANAGED_DEVICE_IP', 'id': '10.10.50.20'}], 'forcePushTemplate': False, 'templateId': u'610a718c-0a71-484b-a632-a79b64192cb7'}
https://dnac:443/api/v1/template-programmer/template/deploy
Response {u'duration': u'0 seconds', u'deploymentId': u'Deployment of Template: 610a718c-0a71-484b-a632-a79b64192cb7.nonApplicableTargets: {10.10.50.20=Device is not applicable for the template due to mismatch of deviceType or softwareType or softwareVersion}.ApplicableTargets: NoneNone of the targets are applicable for the template. Hence not deploying', u'endTime': u'', u'startTime': u''}
Error: Deployment of Template: 610a718c-0a71-484b-a632-a79b64192cb7.nonApplicableTargets: {10.10.50.20=Device is not applicable for the template due to mismatch of deviceType or softwareType or softwareVersion}.ApplicableTargets: NoneNone of the targets are applicable for the template. Hence not deploying

At first glance, you might think the device type of the template does not match that of the device. This could be true however, somewhat confusingly, it could also be the device IP address cannot be found on the controller. Be careful with devices that have multiple IP addresses, make sure you use the same IP as the controller used to discover and manage the device. In this case 10.10.50.20 is not a valid device in the controller inventory. 10.10.50.2 was used in the earlier examples.

The final thing to be careful of is some parameters might be “typed”. For example, I could have type “int” for vlan in this example (rather than a string). Make sure the payload reflects that.

Sunday, 20 January 2019

Performance, Scale, and Flexibility for Accelerating AI / ML

A famous line: “I feel the need–the need for speed!” When I talk to data scientists, they often express the same sentiment. Charged with the responsibility of mining value out of numerous data sources, they often feel that they need ever more speed to do their jobs quickly. To support the data scientists, IT teams are always looking for performance, scale, and flexibility. Clearly, the need for accelerating artificial intelligence and machine learning performance is critical to enterprise’s success.

Performance


In anticipation of Cisco Live Barcelona, I am excited to share some of the recent development on the UCS team to help customers to accelerate AI/ML deployment.

First, Cisco has published the performance characteristics of the UCS C480 ML. With 8 x NVIDIA V100 Tesla GPUs, this server is optimized for deep learning workloads as demonstrated with the various popular convolutional neural networks for image classification.

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C480 ML TensorFlow Training Performance

Scale


While the performance of a single server is important, customers are demanding that a cluster of servers to scale to increasing demands. At Cisco Live Barcelona, we are looking forward to show 2 demos.

NGC on Hortonworks 3

Many customers already have a big data lake, and almost everyone is looking to mine additional value out of the data. With Hortonworks 3, the Hadoop cluster is able to support containers running on CPUs and GPUs. This unified cluster architecture enables customers to do traditional data extract, transform, and load (ETL) before feeding the data to a deep learning algorithm. Since Cisco announced intent to support NVIDIA NGC-Ready program, which provides GPU enabled software containers, Cisco Live Barcelona will be the first time where Cisco demonstrate NGC containers running on UCS, in this case, as part of the Hortonworks cluster. In short, the Hortonworks Hadoop cluster is able to support the complete data pipeline.

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NGC on Hortonworks 3

NGC on Red Hat OpenShift

While some customers prefer Hadoop as the clustering tool, others are choosing Red Hat OpenShift as the Kubernetes container orchestrator with enterprise support. In Barcelona, we will also show NGC running on OpenShift enabling support for multiple data scientists with both interactive and batch workloads.

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NGC on Red Hat OpenShift

Flexibility


Kubeflow Pipelines

While many customers have the bulk of their data on-premise, some data scientists would like to do machine learning experiments in the cloud. In November, 2018, Google announced Kubeflow Pipelines. At Cisco Live Barcelona, in partnership with Google, Cisco will demonstrate Kubeflow Pipelines running on both Google Cloud and UCS enabling a true hybrid cloud experience.

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Inferencing on Hyperflex 4.0

Inferencing is also a critical part of machine learning. At Barcelona, we are also showcasing HyperFlex 4.0 as a edge computing system in a retail environment where video streams can be used for customer sentiment analysis.

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HyperFlex 4.0 for Inferencing on the Edge

Cisco Live Barcelona 2019


I can’t wait to share with all of you the UCS solutions that can accelerate artificial intelligence and machine learning adoption. With the raw performance of the UCS C480 ML, scale with Hortonworks 3 and Red Hat OpenShift, and flexibility with Kubeflow and inferencing on HyperFlex 4.0, I am looking forward to help our customers to make a genuine difference with the business problems.

Friday, 18 January 2019

Forrester’s Zero Trust or Gartner’s Lean Trust?

Zero trust is misnamed


There’s been many management approaches that include the “Zero” term. In shipping, there was “Zero Inventory”. In manufacturing, there was “Zero Defects”. In environmental planning, there’s “Zero Waste”. So, it’s not surprising that the security industry has adopted “Zero Trust” or its “Zero Trust Networking” (ZTN) and “Zero Trust eXtended” (ZTX) variants as it’s buzzword. I bet you will see this term plastered on vendors booths at RSA Conference this year. But without trust, how would your digital business get things done? Gartner’s Neil MacDonald makes the argument that “zero trust is misnamed” in his latest report, “Zero Trust Is an Initial Step on the Roadmap to CARTA”. Whether it’s Forrester ZTX or Gartner CARTA, both approaches allow businesses to operate in a risk-appropriate manner by enabling better access security decisions.

Use cases that matter


Before we jump into any comparisons, let’s explore some use cases to illustrate why it matters to your business. One example is your CEO accessing Microsoft Office 365—maybe even with her unmanaged iPhone. How do you know that she didn’t get phished and an attacker is logging in with her stolen credentials? Is her device’s screen-lock turned on, OS and browser up to date, and not jailbroken? Another example is your HVAC system accessing the campus network. Were you aware that the OT team installed this without telling IT? Do you know if it meets your IoT requirements or if it’s communicating with things it should not? And don’t forget about your in-house app with containerized workloads accessing each other across a hybrid cloud data center infrastructure. Did your DevOps team document how it’s supposed to communicate or how its services stay up to date? Unlikely, so how do you learn this as it changes over time? It’s now harder than ever for IT teams to enforce access decisions everywhere. But is the answer just denying your CEO, HVAC and app from working? Of course not. Yet “Zero Trust” essentially says to begin with an initial security posture that has no implicit trust between different entities, aka. default deny. If you’re a CISO, does zero trust clearly explain to other business execs why new security investments are needed?

Shift to lean trust


Zero trust also says to “always verify”. So, we could verify the CEO’s identity. And we could assess her iPhone’s hygiene. Or we could check the compliance of the HVAC system’s profile. And we could baseline workloads’ communication behaviors. One could say that these verifications and assessments are rebuilding trust at a higher level of the IT stack. Not based on network IPs, but establishing user-device, IoT or workload trust. So, it does seem like “zero trust” is a misnamed term. Gartner’s CARTA (Continuous Adaptive Risk and Trust Assessment) framework argues that the goal is “lean trust”. MacDonald says to better enable new digital business, cloud and mobile initiatives that we need to continuously assess the combination of risk and trust throughout the duration of a network interaction and beyond the network to all infosec processes.

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Be practical


Whether you tell your boardroom that you’re going to adopt zero trust or lean trust, you need to decide how and where to start your multi-year journey. Forrester’s Zero Trust eXtended concept includes every security technology—those designed to eliminate or establish trust as well as those to prevent or detect threats. So, it opens the flood gates to dozens of vendors positioning nearly every product to help you adopt zero trust. Cisco agrees that zero trust is a useful security concept but extending it to all aspects of security makes adopting the approach less practical and prescriptive. MacDonald instead recommends starting two specific projects in 2019—one granting more access protection for users and devices and another delivering more attack protection for workloads and apps. These projects are known as software-defined perimeters to let the good guys in and microsegmentation to keep the bad guys out, respectively.

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Maintain balance


In the CARTA framework, MacDonald splits his “Adaptive Security Architecture” (circa 2014) into two balanced access and attack protection approaches with four stages each. This aligns more closely with how Cisco recommends that customers complement the threat-centric security solutions (already deployed or being considered), such as NGFW and SIG, with newer trust-centric security solutions, such as MFA and SDP (see acronym definitions below). Across Cisco’s portfolio, we feel it’s more practical and prescriptive to focus on the subset of services and products that align to the app and network access-focused tenets of CARTA or Zero Trust. We call these trust-centric solutions Cisco Trusted Access. And Cisco is adding continuous verification capabilities across this portfolio to establish a CARTA-inspired “lean trust” level for users and their devices, headless IoT devices, and app workloads. Cisco’s integrated portfolio will ensure that dynamic context gained from your threat-centric solutions adapt trusted access based on your risk tolerance levels. Thereby, eliminating silos across your multi-domain security policy.