You demonstrate a foundational understanding of NetApp® data storage systems
and the products and technologies specifically designed for managing data in
today’s growing hybrid cloud market. You understand technologies in storage and
data management, both on-premise and in a hybrid cloud environment and have an
in-depth knowledge of NetApp products and technologies used in managing data in
the cloud.
NCSA-HC certificates will be granted to those individuals who successfully pass
the NetApp Certified Storage Associate-HC (NS0-146) exam.
NCTA will be granted to those individuals who successfully pass the NetApp
Certified Technology Associate (NS0-002) exam.
The NetApp Certified Storage Associate – Hybrid Cloud (NCSA-HC) exam includes 60
test questions, with an allotted time of 1-1/2 hours to complete. In countries
where English is not the native language, candidates for whom English is not
their first language will be granted a 30-minute extension to the allotted
examination completion time.
Your results will be available in CertCenter two (2) to five (5) business days
after you complete your exam.
The NetApp Certified Technology Associate (NS0-002) exam includes the following
topics:
Infrastructure Concepts
Identify basic infrastructure, governance and virtualization concepts
NetApp Hybrid Cloud Value Proposition Describe the business benefits of the NetApp Data Fabric
Identify the consumption model options for NetApp Hybrid Cloud solutions
Have a question? Contact us. The NetApp Certified Storage Associate – Hybrid Cloud (NS0-146) exam
includes the following topics:
Configuration and Administration basic knowledge for:
Cloud storage solutions
ONTAP Cloud or Cloud Manager
AltaVault
Question: 1
Your primary data center is located in NYC, New York, USA and hosts the majority
of your user data.
You also have a remote office in Seoul, South Korea. You are also using ONTAP
Cloud in the New York
region as a backup repository. You are asked to provide local copies of the
backup repository to the users in Seoul.
How would you accomplish this task?
A. Create a second instance of ONTAP Cloud in the Seoul region, and use
SnapMirror to replicate the data.
B. Copy data to disk drives and send them to Seoul.
C. Create a long-haul VPN tunnel from your primary data center to Seoul.
D. Back up the data to tape and use a courier to send the tapes to Seoul.
Answer: A
Question: 2 You want to transfer data to a cloud-based storage solution.
Which NetApp technology will accomplish this task?
A. FlexVol
B. SnapMirror
C. SnapRestore
D. FlexClone
Answer: B
Question: 3 You are deploying a virtual AltaVault appliance on a hypervisor for the
first time.
In this scenario, which statement is correct about the resource allocation for
vCPU, memory, and disk
space to be provisioned?
A. Resources are controlled by the hypervisor and not configurable.
B. Resources are limitless and will consume what they need.
C. Resources must be over-provisioned to ensure proper use.
D. Resources must be reserved.
Answer: D
Question: 4 Which statement describes SAN storage?
A. SAN storage is file based.
B. SAN storage is block based.
C. SAN storage is volume based.
D. SAN storage is aggregate based.
Exam Details The Professional vSphere 6.7 Delta Exam 2019 (2V0-21.19D) which leads to
VMware Certified Professional – Data Center Virtualization 2019 certification is
a 40-item exam, with a passing score of 300 using a scaled scoring method.
Candidates are given 75 minutes to complete the exam.
Minimally Qualified Candidate The minimally qualified candidate (MQC) has already achieved the VCP 6.5-
DCV certification. In addition, the MQC has six to twelve months hands-on
experience installing, configuring, and managing a vSphere solution. The
candidate possesses skills in deploying and administering guest operating
systems on a vSphere infrastructure. The successful candidate also has basic
knowledge of: storage, networking, hardware, business continuity and disaster
recovery, security, environmental monitoring and troubleshooting.
Exam Sections VMware exam blueprint sections are now standardized to the seven sections
below, some of which may NOT be included in the final exam blueprint depending
on the exam objectives.
Section 1 – Architecture and Technologies
Section 2 – Products and Solutions
Section 3 – Planning and Designing
Section 4 – Installing, Configuring, and Setup
Section 5 – Performance-tuning, Optimization, and Upgrades
Section 6 – Troubleshooting and Repairing
Section 7 – Administrative and Operational Tasks
If a section is missing from the list below, please note it is because the exam
has no testable objectives for that section. The objective numbering may be
referenced in your score report at the end of your testing event for further
preparation should a retake of the exam be necessary.
Sections Included in This Exam See the EPG for the Professional vSphere 6.7 Exam 2019 (2V0-21.19) for a
complete list of objectives and references.
Section 1 – VMware vSphere Architectures and Technologies Objective 1.1 – Identify the pre-requisites and components for vSphere
implementation
Objective 1.5 – Manage vCenter inventory efficiently
Objective 1.6 – Describe and differentiate among vSphere, HA, DRS, and SDRS
functionality
Objective 1.9 – Describe the purpose of cluster and the features it provides
Objective 1.10 – Describe virtual machine (VM) file structure
Objective 1.11 – Describe vMotion and Storage vMotion technology
Section 2 – VMware Products and Solutions Objective 2.1 – Describe vSphere integration with other VMware products
Objective 2.2 – Describe HA solutions for vSphere
Objective 2.3 – Describe the options for securing a vSphere environment
Section 4 – Installing, Configuring and Setting Up a VMware vSphere Solution Objective 4.1 – Understand basic log output from vSphere products
Objective 4.3 – Set up a content library
Objective 4.4 – Set up ESXi hosts
Objective 4.6 – Deploy and configure VMware vCenter Server Appliance (VCSA)
Objective 4.7 – Set up identity sources
Objective 4.8 – Configure an SSO domain
Section 5 – Performance Tuning and Optimizing a VMware vSphere Solution Objective 5.2 – Monitor resources of VCSA in a vSphere environment
Objective 5.3 – Identify impacts of VM configurations
Objective 7.3 – Configure a storage policy
Objective 7.4 – Configure host security
Objective 7.9 – Create and manage VMs using different methods
Objective 7.10 – Create and manage templates
Objective 7.11 – Manage different VMware vCenter Server objects
Objective 7.15 – Utilize VMware vSphere Update Manager (VUM)
Objective 7.16 – Configure and manage host profiles
vSphere: Troubleshooting and Performance Optimization [V6.7]
References*
In addition to the recommended courses, item writers use the following
references for information when writing exam questions. It is recommended that
you study the reference content as you prepare to take the exam, in addition to
any recommended training.
Question: 1 An administrator is installing a Platform Services Controller Instance.
Which two options are available during the installation process? (Choose two.)
A. choose deployment size
B. specify vSphere administrator credentials
C. enable Enhanced Linked Mode
D. create a vCenter Single sign-on domain
E. join an existing domain
Answer: D,E
Question: 2 A vSphere Administrator has multiple virtual machines running on a VMFS
datastore.
Which option prioritizes the disk access for the virtual machines?
A. Disk Shares
B. Disk Mode
C. Disk Type
D. Hard Disk
Answer: A
Question: 3 What should be installed on a VM to assist with VM-to-host time
synchronization?
A. VMware Tools
B. vRA guest agent
C. vROps agent
D. Guest Operations Manager
Answer: A
Question: 4 An administrator runs a vSphere cluster containing database VMs with
extremely heavy disk I/O.
Database VMs are placed on a costly all-flash array. The workloads are not
memory intensive.
How can the administrator ensure the most cost-effective utilization of the
all-flash storage array?
A. Enable Storage I/O Control on the flash datastores.
B. Install VMware Tools on the database VMs to ensure the hypervisor can receive
I/O metrics.
C. Use a VM-to-Host affinity rule to ensure database VMs are prioritized.
D. Edit the cluster settings to place the virtual machine swap file on a
different storage tier.
Answer: D
Question: 5 An administrator has an environment with these conditions and requirements:
The host provides 6GHz of CPU and 32GB of memory
The host is shared between the Marketing and QA departments
The QA department needs a higher compute resource priority
How can the administrator meet the conditions and requirements?
A. Adjust NIOC or SIOC as appropriate to give the QA department a higher compute
priority within the cluster.
B. Create a resource pool for each department and use the Shares attribute to
prioritize the allocation of resource.
C. Assign affinity or anti-affinity rules to the appropriate VMs for each
department.
D. Set the VM priority to high for QA department VMs and normal for Marketing
department VMs.
Configure marketing settings verify organization and business management settings
define default matching strategies
configure quota limits
configure event settings
configure Customer Insights synchronization
manage keywords for images for an organization
create templates
configure the privacy banner
configure settings for landing pages
configure data protection tools
Manage segments and lists (10-15%)
Create and manage segments determine segment type
create market segments
configure dynamic segments using Designer, Flow, or Query
combine segments using union, exclude, or intersect logic
Create and manage subscription centers and lists determine usage scenarios for subscription lists
create a subscription list
add a subscription list or lists to a form
create a segment based on a subscription list
create and manage subscription center
Create and manage marketing forms and pages (10-15%)
Create marketing forms determine which marketing form type to use
determine form requirements and limitations
create a marketing form using a template
enable prefilling for forms
embed a form on an external website
create new fields to add to marketing forms
Create and manage marketing pages
determine which marketing page type to use
create a marketing page using a template
add form blocks to marketing pages
customize a marketing page
create and use dynamic test links
implement dedicated marketing page blocks
preview and validate marketing pages
publish a marketing page
Manage leads (10-15%)
Create and manage leads create leads manually or automatically
synchronize leads from LinkedIn by using the LinkedIn connector
create and manage leads and lead segments through parent contacts/accounts
Create and assess sales readiness create and manage lead scoring models
create explicit and implicit scoring conditions
create compound conditions
set up condition models
configure thresholds
Create and manage marketing emails (10-15%)
Create email messages create an email message
define mandatory fields
add dynamic content to email messages
integrate marketing pages with marketing emails
Publish and manage email messages
preview and test messages
validate and publish messages
edit go live emails
Manage customer journeys (15-20%)
Create customer journeys determine template types
implement content types
set up a customer journey
implement activity and launch workflow options
implement targets
implement flow control for customer journeys
Publish and manage customer journeys
validate and publish a customer journey
edit live customer journeys
Manage events and webinars (10-15%)
Create and manage events create an event team
set up agendas, including internal and external tracks
manage speakers, registration, and attendees
manage vendors, logistics, and accommodations
Create and manage webinars
determine webinar types
configure webinar options
Configure and analyze customer responses (10-15%) Notice of planned skills update: In October, Voice of the Customer skills
and exam questions will be replaced with Forms Pro skills and questions. The
exact date of that change and the associated changes to the Skills Measured will
be communicated in August, 2019. Please prepare for your exam accordingly.
Create and manage surveys and survey responses identify survey question types
determine respondent types
configure response routing
preview and test surveys
publish surveys for customer journeys
implement workflow conditional logic for survey actions
Manage Customer Insights
determine report types
analyze contact insights
analyze lead insights
analyze segment insights
analyze customer journey insights
analyze email insights
analyze lead scoring model insights
analyze marketing page insights
analyze marketing form insights
analyze website insights
analyze redirect URL insights
gather and summarize survey results
First date to test: February 24, 2020
CCNP Enterprise Certification and DevNet Professional Certification 90 minutes
Exam Description Automating Cisco Enterprise Solutions v1.0 (ENAUTO 300-435) is a 90-minute
exam associated with the CCNP Enterprise Certification and DevNet Professional
Certification. This exam tests a candidate's knowledge of implementing
Enterprise automated solutions, including programming concepts, Python
programming, APIs, controllers and automation tools. The course, Implementing
Cisco Enterprise Automation Solutions, helps candidates to prepare for this
exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Network Programmability Foundation 10% 1.1 Utilize common version control operations with git (add, clone, push,
commit, diff, branching, merging conflict)
1.2 Describe characteristics of API styles (REST and RPC)
1.3 Describe the challenges encountered and patterns used when consuming APIs
synchronously and asynchronously
1.4 Interpret Python scripts containing data types, functions, classes,
conditions, and looping
1.5 Describe the benefits of Python virtual environments
1.6 Explain the benefits of using network configuration tools such as Ansible
and Puppet for automating IOS XE platforms
2.0 Automate APIs and Protocols 10% 2.1 Identify the JSON instance based on a YANG model
2.2 Identify the XML instance based on a YANG model
2.3 Interpret a YANG module tree generated per RFC8340
2.4 Compare functionality, benefits, and uses of OpenConfig, IETF, and native
YANG models
2.5 Compare functionality, benefits, and uses of NETCONF and RESTCONF
3.0 Network Device Programmability 20% 3.1 Implement device management and monitoring using NetMiko
3.2 Construct a Python script using ncclient that uses NETCONF to manage and
monitor an IOS XE device
3.3 Configure device using RESTCONF API utilizing Python requests library
3.4 Utilize Ansible to configure an IOS XE device
3.5 Configure a subscription for model driven telemetry on an IOS XE device (CLI,
NETCONF, and RESTCONF)
3.6 Compare publication and subscription telemetry models
3.6.a Periodic / cadence
3.6.b On-change
3.7 Describe the benefits and usage of telemetry data in troubleshooting the
network
3.8 Describe Day 0 provisioning methods
3.8.a iPXE
3.8.b PnP
3.8.c ZTP
4.0 Cisco DNA Center 20% 4.1 Compare traditional versus software-defined networks
4.2 Describe the features and capabilities of Cisco DNA Center
4.2.a Network assurance APIs
4.2.b Intent APIs
4.2.c Multivendor support (3rd party SDKs)
4.2.d Events and notifications
4.3 Implement Cisco DNA Center event outbound webhooks
4.4 Implement API requests for Cisco DNA Center to accomplish network management
tasks
4.4.a Intent APIs
4.4.b Command Runner APIs
4.4.c Site APIs
4.5 Implement API requests for Cisco DNA Center to accomplish network management
tasks using these APIs
4.5.a Network discovery and device APIs
4.5.b Template APIs (Apply a template)
4.6 Troubleshoot Cisco DNA Center automation process using Intent APIs
5.0 Cisco SD-WAN 20% 5.1 Describe features and capabilities of Cisco SD-WAN vManage Certificate
Management APIs
5.2 Implement a Python script to perform API requests for Cisco SD-WAN vManage
Device Inventory APIs to retrieve and display data
5.3 Construct API requests for Cisco SD-WAN vManage Administration APIs
5.4 Implement a Python script to perform API requests for Cisco SD-WAN vManage
Configuration APIs to modify Cisco SD-WAN fabric configuration
5.5 Construct API requests for Cisco SD-WAN vManage Monitoring APIs (Including
real-time)
5.6 Troubleshoot a Cisco SD-WAN deployment using vManage APIs
300-835 Automating and Programming Cisco Collaboration Solutions (CLAUTO
300-835)
Exam Description Automating and Programming Cisco Collaboration Solutions v1.0 (CLAUTO
300-835) is a 90-minute exam associated with the CCNP Collaboration
Certification and DevNet Professional Certification. This exam tests a
candidate's knowledge of implementing applications that automate and extend
Cisco Collaboration platforms, including programming concepts, APIs and
automation protocols, and Python programming. The course, Implementing Cisco
Collaboration Automation Solutions, helps candidates to prepare for this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Network Programmability Foundation 10% 1.1 Utilize common version control operations with git (add, clone, push,
commit, diff, branching, and merging conflict
1.2 Describe characteristics of API styles (REST, RPC, and SOAP)
1.3 Describe the challenges encountered and patterns used when consuming APIs
synchronously and asynchronously
1.4 Interpret Python scripts containing data types, functions, classes,
conditions, and looping
1.5 Describe the benefits of Python virtual environments
1.6 Identify the roles of load balancer, firewall, DNS, and reverse proxy in
collaboration application deployment
2.0 Unified Communication 25% 2.1 Construct API calls to automate CUCM user/phone moves, adds, changes,
and using the AXL SOAP API
2.2 Construct API calls to automate dialplan and cluster config using the AXL
API
2.3 Describe the capabilities and use of the CUCM CTI APIs TAPI/JTAPI
2.4 Describe the capabilities and use of the CUCM Serviceability Perfmon API and
CDR interface
2.5 Describe the capabilities and use of the IP Phone Services API
2.6 Describe the capabilities of Finesse REST APIs and Gadgets
3.0 Cloud Collaboration 25% 3.1 Describe Webex Teams REST API capabilities, use, application
architectures, authentication mechanisms, and token types
3.2 Implement administrative operations on Webex Teams organizations, users,
licenses, and compliance events using the Webex Teams REST API
3.3 Construct a Python script to automate creation of Webex Teams spaces and
memberships
3.4 Construct a Python script to implement notification
3.5 Construct API calls to implement interactive bots
3.6 Describe the application components involved in conversational bots (Botkit
components and ecosystem)
3.7 Create a HTML web application embedding Webex Teams and messaging, audio /
video using Webex Teams Widgets
3.8 Describe the capabilities and use for the various Webex Teams SDKs
4.0 Collaboration Endpoints 20% 4.1 Construct API calls to automate Cisco collaboration room devices using
the xAPI SSH interface and xAPI HTTP API (configuration, customization and
branding, and making a call)
4.2 Construct a script to monitor Cisco collaboration room device events using
the xAPI Python SDK
4.3 Describe the capabilities, use, creation, and deployment of custom controls
for Cisco collaboration room devices using the In-Room Controls Editor
4.4 Describe the capabilities, use, creation, and deployment of Cisco
collaboration room device JavaScript Macros using the Macro Editor
Automating and Programming Cisco Data Center Solutions (DCAUTO 300-635)
Exam Description Automating and Programming Cisco Data Center Solutions v1.0 (DCAUTO 300-635)
is a 90-minute exam associated with the CCNP Data Center Certification and
DevNet Professional Certification. This exam tests a candidate's knowledge of
implementing Data Center automated solutions, including programming concepts,
orchestration and automation tools.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Network Programmability Foundation 10% 1.1 Utilize common version control operations with git: add, clone, push,
commit, diff, branching, merging conflict
1.2 Describe characteristics of API styles (REST and RPC)
1.3 Describe the challenges encountered and patterns used when consuming APIs
synchronously and asynchronously
1.4 Interpret Python scripts containing data types, functions, classes,
conditions, and looping
1.5 Describe the benefits of Python virtual environments
1.6 Explain the benefits of using network configuration tools such as Ansible
and Puppet for automating data center platforms
2.0 Controller Based Data Center Networking 30% 2.1 Describe the following:
2.1.a ACI target policy
2.1.b ACI application hosting capabilities
2.1.c Implementation of an ACI application from the Cisco ACI Apps Center
2.2 Leverage the API inspector to explore the REST API calls made by the ACI GUI
2.3 Construct a Python script to create an application policy using the ACI REST
API
2.4 Construct a Python script to create an application policy using the ACI
Cobra SDK
2.5 Construct an Ansible playbook to create an application policy
2.6 Describe the benefits of integrating Kubernetes infrastructure using the ACI
CNI plugin
3.0 Data Center Device-centric Networking 30% 3.1 Describe Day 0 provisioning with NX-OS
3.1.a Cisco POAP
3.1.b NX-OS iPXE
3.2 Implement On-Box Programmability and Automation with NX-OS
3.2.a Bash
3.2.b Linux containers (LXC and Docker using provided container
3.2.c NX-OS guest shell
3.2.d Embedded Event Manager (EEM)
3.2.e On-box Python Scripting
3.3 Compare model-driven telemetry such as YANG Push and gRPC to traditional
network monitoring strategies such as SMNP, Netflow, and SYSLOG
3.4 Construct Python script that consumes model-driven telemetry data with NX-OS
3.5 Implement Off-Box Programmability and Automation with NX-OS
3.5.a Nexus NX-API (NX-API REST and NX-API CLI)
3.5.b Nexus NETCONF using native and OpenConfig
3.5.c Network configuration tools with NX-OS (Ansible)
4.0 Data Center Compute 30% 4.1 Configure Cisco UCS with developer tools
4.1.a UCS PowerTool
4.1.b UCS Python SDK
4.1.c Ansible
4.2 Describe the capabilities of the DCNM API
4.3 Identify the steps in the Intersight API authentication method
4.4 Construct an Intersight API call given documentation to accomplish tasks
such as manage server policies, service profiles, and firmware updates
4.5 Describe the process to implement workflows for physical and virtual
infrastructure using UCS Director
4.5.a Pre-defined tasks
4.5.b Custom tasks
4.5.c Script libraries
4.6 Utilize UCS Director REST API browser Click here to
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Exam Description Automating and Programming Cisco Service Provider Solutions v1.0 (SPAUTO
300-535) is a 90-minute exam associated with the CCNP Service Provider
Certification and DevNet Professional Certification. This exam tests a
candidate's knowledge of implementing service provider automated solutions,
including programming concepts, orchestration, programming OS, and automation
tools. The course, Implementing Cisco Service Provider Automation Solutions,
helps candidates to prepare for this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Network Programmability Foundation 10% 1.1 Utilize common version control operations with git (add, clone, push,
commit, diff, branching, and merging conflict)
1.2 Describe characteristics of API styles (REST and RPC)
1.3 Describe the challenges encountered and patterns used when consuming APIs
synchronously and asynchronously
1.4 Interpret Python scripts containing data types, functions, classes,
conditions, and looping
1.5 Describe the benefits of Python virtual environments
1.6 Explain the benefits of using network configuration tools such as Ansible
and Puppet for automating IOS XE or IOS XR platforms
2.0 Automation APIs and Protocols 30% 2.1 Describe the characteristics and use of YANG Data Models (OpenConfig,
IETF, and Vendor)
2.2 Describe common HTTP authentication mechanisms (basic, token, and oauth)
2.3 Compare common data types (JSON, XML, YAML, plain text, gRPC, and protobuf)
2.4 Identify the JSON instance based on a YANG model
2.5 Identify the XML instance based on a YANG model
2.6 Interpret a YANG module tree generated by pyang
2.7 Implement configuration and operation management using RESTCONF protocol
2.8 Implement configuration and operation management using NETCONF protocol
2.9 Compare the NETCONF datastores
3.0 Network Device Programmability 30% 3.1 Deploy device configuration and validate operational state using
ncclient
3.2 Construct a Python script using NETCONF with YDK
3.3 Deploy device configuration and validate operational state using NetMiko
3.4 Deploy device configuration and validate operational state using Ansible
playbooks
3.5 Compare gNMI with NETCONF
3.6 Construct a Python script using RESTCONF with JSON
3.7 Construct Xpath notation for a given node or instance of a node
3.8 Diagnose model-driven dial-in/-out telemetry streams with gRPC for a Cisco
IOS XR
4.0 Automation and Orchestration Platforms 30% 4.1 Describe ETSI NFV
4.2 Describe NSO architecture
4.3 Identify the benefits of NSO
4.4 Construct a Python script to configure a device using NSO RESTCONF API
4.5 Describe the management and automation of Cisco ESC components
4.6 Implement XR traffic controller (including topology information transfer to
XTC)
4.7 Identify the uses of Cisco WAE
4.8 Construct a service template using NSO
4.9 Deploy a service package using NSO Click here to
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Exam Description Automating and Programming Cisco Security Solutions v1.0 (SAUTO 300-735) is
a 90-minute exam associated with the CCNP Security Certification and DevNet
Professional Certification. This exam tests a candidate's knowledge of
implementing Security automated solutions, including programming concepts,
RESTful APIs, data models, protocols, firewalls, web, DNS, cloud and email
security, and ISE. The course, Implementing Cisco Security Automation Solutions,
helps candidates to prepare for this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Network Programmability Foundation 10% 1.1 Utilize common version control operations with git (add, clone, push,
commit, diff, branching, and merging conflict)
1.2 Describe characteristics of API styles (REST and RPC)
1.3 Describe the challenges encountered and patterns used when consuming APIs
synchronously and asynchronously
1.4 Interpret Python scripts containing data types, functions, classes,
conditions, and looping
1.5 Describe the benefits of Python virtual environments
1.6 Explain the benefits of using network configuration tools such as Ansible
and Puppet for automating security platforms
2.0 Network Security 35% 2.1 Describe the event streaming capabilities of Firepower Management Center
eStreamer API
2.2 Describe the capabilities and components of these APIs
2.2.a Firepower (Firepower Management Center and Firepower Device Management)
2.2.b ISE
2.2.c pxGRID
2.2.d Stealthwatch Enterprise
2.3 Implement firewall objects, rules, intrusion policies, and access policies
using Firepower Management Center API
2.4 Implement firewall objects, rules, intrusion policies, and access policies
using Firepower Threat Defense API (also known as Firepower Device Manager API)
2.5 Construct a Python script for pxGrid to retrieve information such as
endpoint device type, network policy and security telemetry
2.6 Construct API requests using Stealthwatch API
2.6.a perform configuration modifications
2.6.b generate rich reports
3.0 Advanced Threat & Endpoint Security 30% 3.1 Describe the capabilities and components of these APIs
3.1.a Umbrella Investigate APIs
3.1.b AMP for endpoints APIs
3.1.c ThreatGRID API
3.2 Construct an Umbrella Investigate API request
3.3 Construct AMP for endpoints API requests for event, computer, and policies
3.4 Construct ThreatGRID APIs request for search, sample feeds, IoC feeds, and
threat disposition
300-910 Implementing DevOps Solutions and Practices using Cisco Platforms (DEVOPS
300-910)
Exam Description
Implementing DevOps Solutions and Practices using Cisco Platforms v1.0 (DEVOPS
300-910) is a 90-minute exam associated with the DevNet Professional
Certification. This exam tests a candidate's knowledge of DevOps practices as it
pertains to deployment automation that enables automated configuration,
management, and scalability of cloud microservices and infrastructure processes
on Cisco platforms. The course, Implementing DevOps Solutions and Practices
using Cisco Platforms, helps candidates to prepare for this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 CI/CD Pipeline 20% 1.1 Describe characteristics and concepts of build /deploy tools such as
Jenkins, Drone, or Travis CI
1.2 Identify the sequence, components, and integrations to implement a CI/CD
pipeline for a given scenario
1.3 Troubleshoot issues with a CI/CD pipeline such as code-based failures,
pipeline issues, and tool incompatibility
1.4 Identify tests to integrate into a CI/CD pipeline for a given scenario
1.5 Identify release deployment strategy (canary, rollbacks, and blue/green) for
a given scenario
1.6 Diagnose code dependency management issues including API, tool chain, and
libraries
2.0 Packaging and Delivery of Applications 15% 2.1 Identify the steps to containerize an application
2.2 Identify steps to deploy multiple microservice applications
2.3 Evaluate microservices and container architecture diagrams based on
technical and business requirements (security, performance, stability, and cost)
2.4 Identify safe handling practices for configuration items, application
parameters, and secrets
2.5 Construct a Docker file to address application specifications
2.6 Describe the usage of golden images to deploy applications
3.0 Automating Infrastructure 20% 3.1 Describe how to integrate DevOps practices into an existing organization
structure
3.2 Describe the use of configuration management tools to automate
infrastructure services such as Ansible, Puppet, Terraform, and Chef
3.3 Construct an Ansible playbook to automate an application deployment of
infrastructure services
3.4 Construct a Terraform configuration to automate an application deployment of
infrastructure services
3.5 Describe the practice and benefits of Infrastructure as Code
3.6 Design a pre-check validation of the network state in a CI/CD pipeline for a
given scenario
3.7 Design a pre-check validation of the application infrastructure in a CI/CD
pipeline for a given scenario
3.8 Describe the concepts of extending DevOps practices to the network for
NetDevOps
3.9 Identify the requirements such as memory, disk I/O, network, and CPU needed
to scale the application or service
4.0 Cloud and Multicloud 15% 4.1 Describe the concepts and objects of Kubernetes
4.2 Deploy applications to a Kubernetes cluster
4.3 Utilize objects of Kubernetes to build a deployment to meet requirements
4.4 Interpret the pipeline for continuous delivery of a Drone configuration file
4.5 Validate the success of an application deployment on Kubernetes
4.6 Describe method and considerations to deploy an application to multiple
environments such as multiple cloud providers, high availability configurations,
disaster recovery configurations, and testing cloud portability
4.7 Describe the process of tracking and projecting costs when consuming public
cloud
4.8 Describe benefits of infrastructure as code for repeatable public cloud
consumption
4.9 Compare cloud services strategies (build versus buy)
5.0 Logging, Monitoring, and Metrics 20% 5.1 Identify the elements of log and metric systems to facilitate
application troubleshooting such as performance issues and streaming telemetry
logs
5.2 Implement a log collection and reporting system for applications
5.2.a aggregate logs from multiple related applications
5.2.b search capabilities
5.2.c reporting capabilities
5.3 Troubleshoot a distributed application using AppDyanmics with Application
Performance Monitoring
5.4 Describe the principles of chaos engineering
5.5 Construct Python scripts that use APIs to accomplish these tasks
5.5.a build a monitoring dashboard
5.5.b notify Webex Teams space
5.5.c responding to alerts and outages
5.5.d creating notifications
5.5.e health check monitoring
5.5.f opening and closing incidents
5.6 Identify additional application requirements to provide visibility into
application health and performance
5.7 Describe Kubernetes capabilities related to logging, monitoring, and metrics
5.8 Describe the integration of logging, monitoring and alerting in a CI/CD
pipeline design
Exam Description Developing Solutions Using Cisco IoT & Edge Platforms v1.0 (DEVIOT 300-915)
is a 90-minute exam that is associated with the DevNet Professional
Certification. This exam tests a candidate's IoT application development
knowledge as it pertains to Cisco IoT edge compute and network architecture
including Cisco IOx and Cisco EFM, IoT Data Visualization, and security methods.
The course, Developing Solutions using Cisco IoT & Edge Platforms, helps
candidates to prepare for this exam.
Developing Solutions Using Cisco IoT and Edge Platforms (300-915)
Exam Description Developing Solutions Using Cisco IoT & Edge Platforms v1.0 (DEVIOT 300-915)
is a 90-minute exam that is associated with the DevNet Professional
Certification. This exam tests a candidate's IoT application development
knowledge as it pertains to Cisco IoT edge compute and network architecture
including Cisco IOx and Cisco EFM, IoT Data Visualization, and security methods.
The course, Developing Solutions using Cisco IoT & Edge Platforms, helps
candidates to prepare for this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Cisco Network IoT Architecture 20% 1.1 Interpret the data flow of a topology that includes:
1.1.a gateways
1.1.b access points
1.1.c firewalls (including industrial firewalls)
1.1.d routers
1.1.e switches
1.2 Describe the purpose, functionality, and use of these operational
technology components: 1.2.a PLCs and operations
1.2.b embedded microcontrollers
1.2.c RTOS systems
1.2.d Cisco interfaces (serial, sensors, I2C, and USC)
1.2.e communication protocols (BLE, WiFi, Ethernet, and LoraWAN)
1.2.f communication standards (DDS, OPC UA, MT Connect, and Open PLC)
1.3 Describe IoT requirements related to networking and device configuration
policies (including configuring IOS commands to enable IOx, port and protocol
needs of an application, and security and prioritization of data)
1.4 Construct a workflow to connect a sensor
1.5 Troubleshoot sensor connectivity issue
2.0 Compute and Analysis 10% 2.1 Compare the characteristics, capabilities, and use of edge devices to
generic compute devices
2.2 Determine the use of cloud or specific edge devices for a given application
scenario
2.3 Analyze application resource usage information to determine any required
changes to the application or hardware
2.4 Construct a Python script to deploy an application at the edge using FND and
GMM APIs
2.5 Troubleshoot application resources usage and network connectivity issues
when using FND and GMM APIs
2.6 Determine data handling procedure and action to take with edge data based on
business requirements
3.0 Cisco IOx IoT Software 20% 3.1 Describe the capabilities of a Cisco IOx application
3.2 Troubleshoot a Dockerfile for Cisco IOx
3.3 Describe the process to build applications for Cisco IOx
3.4 Identify the troubleshooting approaches for a deployed application for Cisco
IOx
3.5 Describe the process to deploy an Cisco IOx application into a CI/CD on
platforms (such as FND, Kinetic GMM, or Directly to IOx)
3.6 Construct a Cisco IOx application to meet requirements given SDK
documentation
4.0 Cisco EFM IoT Software 15% 4.1 Describe characteristics of edge data services
4.2 Analyze a DSLink (extracting data from a sensor)
4.3 Identify the process to create a data flow
5.0 Open Source IoT Software 10% 5.1 Evaluate the flow and processing of data from sensor to cloud in a given
scenario
5.2 Compare characteristics and usage of MQTT and AMQP
5.3 Determine the output from given messages and subscription details
5.4 Identify broker QoS level for messages in a given scenario
5.5 Diagnose issues with broker deployment and application connection
6.0 IoT Data Visualization 10% 6.1 Describe the characteristics and capabilities of data visualization
tools (such as Freeboard, Grafanna, and Kibana)
6.2 Identify the data visualization technique to meet business requirements
6.3 Interpret visualized data
7.0 Security 15% 7.1 Identify methods to implement a secure software development life cycle
7.2 Identify methods to secure an application and infrastructure during
production and testing in a CI/CD pipeline
7.3 Describe risk management (including security challenges in IT and
operational technology)
7.4 Describe the concepts related to confidentiality, integrity, and
availability
7.5 Describe the capabilities of:
7.5.a ISE and ISE integration
7.5.b pxGRID
7.5.c AMP for Endpoints proxy
7.5.d Cisco Tetration
7.5.e StealthWatch (Enterprise and Cloud)
7.5.f Cisco Cloudlock Click here to
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Exam overview This exam tests a candidate's Webex development knowledge as it pertains to
Webex API foundations, Webex Meetings, WebEx Devices, messaging, embedding Webex,
and administration and compliance.
Exam Description Developing Applications for Cisco Webex and Webex Devices v1.0 (DEVWBX
300-920) is a 90-minute exam associated with the DevNet Professional
Certification. This exam tests a candidate's Webex development knowledge as it
pertains to Webex API foundations, Webex Meetings, WebEx Devices, messaging,
embedding Webex, and administration and compliance. The course, Developing
Applications for Cisco Webex and Webex Devices, helps candidates to prepare for
this exam.
The following topics are general guidelines for the content likely to be
included on the exam. However, other related topics may also appear on any
specific delivery of the exam. To better reflect the contents of the exam and
for clarity purposes, the guidelines below may change at any time without
notice.
1.0 Webex API Foundation 15% 1.1 Describe the process to get access to Webex APIs for a given scenario
(including getting the necessary users roles from a Webex administrator)
1.2 Identify the authentication methods for Webex Teams, devices, and meetings
1.3 Troubleshoot error codes for REST API responses (including rate limiting,
access, and authentication)
1.4 Interpret a REST API response that includes pagination and filtering
1.5 Construct a JavaScript request using promises with a Webex JavaScript SDK
1.6 Describe the OAuth token management lifecycle
2.0 Meetings 20% 2.1 Describe the capabilities of the Webex Meeting APIs
2.2 Construct the JavaScript to schedule a meeting
2.3 Construct HTTP requests with the XML API to manage users
2.4 Construct the JavaScript to list and download a recording of a meeting
3.0 Devices 20% 3.1 Compare the capabilities and use of xAPI over SSH, REST APIs, and
WebSockets
3.2 Describe the mechanisms to send and receive data
3.3 Construct a script using 'jsxapi' to address a scenario
3.4 Troubleshoot macros
3.5 Construct a custom user interaction (including in-room controls)
4.0 Messaging 20% 4.1 Construct REST API requests using JSON and HTTP for a given scenario
(managing spaces, teams, and memberships)
4.2 Construct a JavaScript application to send a message and to retrieve the
content of an incoming message
4.3 Construct a JavaScript application that uses cards
4.4 Diagnose the process of managing Webhooks including resource and event
filters
4.5 Describe the limitations and capabilities of bots
4.6 Identify whether to use a bot or an Integration in a given scenario
5.0 Embedding Webex 15% 5.1 Construct a HTML page embedding a Widget using an Integration or guest
issuer
5.2 Construct the JavaScript to call and screen share with the browser SDK
5.3 Construct the JavaScript to call and send messages with the browser SDK and
guest issuer
5.4 Describe the mechanisms to receive incoming call notifications for IOS and
Android SDKs
6.0 Administration and Compliance 10% 6.1 Construct the JavaScript to administer a Webex organization
6.1.a User and licenses
6.1.b Devices
6.2 Construct JavaScript to collect compliance data
6.3 Identify the requirements, steps, and permissions needed to take a
compliance action on a message or space
6.4 Construct the JavaScript to send requests to multiple devices for a given
scenario
What is Disaster Recovery? Disaster recovery is the process, policies, and procedures related to
preparing for recovery or continuation of technology infrastructure critical to
an organization after a natural or human-induced disaster. Disaster recovery is
a subset of business continuity. While business continuity involves planning for
keeping all aspects of a business functioning in the midst of disruptive events,
disaster recovery focuses on the IT or technology systems that support business
functions.
Become a Certified Disaster Recovery Professional
This certification requires the following knowledge and skills: Working knowledge of all areas of the organization and the ability to
develop a clear understanding of the company’s key functional processes and
resources.
Thorough knowledge and understanding of current disaster recovery planning
techniques and technologies as well as the methods used in performing risk
analyses and business impact analyses.
Working knowledge of data processing in order to assist in the preparation of
recovery procedures in this area.
Working knowledge of data and voice telecommunications in order to assist in the
preparation of recovery procedures in this area.
Good project management skills.
Ability to plan, organize, and direct the testing of emergency response,
recovery support, and business resumption procedures.
Strong interpersonal skills to interface with managers and staff at all levels
within the organization and to deal with vendors of record storage facilities
and disaster recovery services.
Good oral and written communication skills. Certification Target Audience
The EDRP certification is ideal for:
Network server administrators
Firewall Administrators
Security Testers
System Administrators
Risk Assessment professionals Exam Information
EDRP (Prefix 312-76) exam is available at the ECC Exam Center. EC-Council reserves the right to revoke the certification status of
candidates that do not comply with all EC-Council examination policies found
here.
EDRP Exam Details
Duration 4 Hours
Questions 150
EDRP Blueprint
Clause: Age Requirements and Policies Concerning Minors
The age requirement for attending the training or attempting the exam is
restricted to any candidate that is at least 18 years old.
If the candidate is under the age of 18, they are not eligible to attend the
official training or eligible to attempt the certification exam unless they
provide the accredited training center/EC-Council a written consent of their
parent/legal guardian and a supporting letter from their institution of higher
learning. Only applicants from nationally accredited institution of higher
learning shall be considered.
Disclaimer: EC-Council reserves the right to impose additional restriction to
comply with the policy. Failure to act in accordance with this clause shall
render the authorized training center in violation of their agreement with
EC-Council. EC-Council reserves the right to revoke the certification of any
person in breach of this requirement.
QUESTION 1 Which of the following tools in Helix Windows Live is used to reveal the
database password of password protected MDB files created using Microsoft Access
or with Jet Database Engine?
A. Asterisk logger
B. FAU
C. Access Pass View
D. Galleta
Answer: C
Explanation:
QUESTION 2 Mark is the project manager of the HAR Project. The project is scheduled to
last for eighteen
months and six months already passed. Management asks Mark that how often the
project team is
participating in the risk reassessment of this project. What should Mark tell
management if he is
following the best practices for risk management?
A. At every status meeting of the project team, project risk management is an
agenda item.
B. Project risk management happens at every milestone.
C. Project risk management has been concluded with the project planning.
D. Project risk management is scheduled for every month in the 18-month project.
Answer: A
Explanation:
QUESTION 3 You work as a project manager for TYU project. You are planning for risk
mitigation. You need to identify the risks that will need a more in-depth
analysis. Which of the following activities will help you in this?
A. Quantitative analysis
B. Estimate activity duration
C. Risk identification
D. Qualitative analysis
Answer: D
Explanation:
QUESTION 4
Della works as a security manager for SoftTech Inc. She is training some of the
newly recruited
personnel in the field of security management. She is giving a tutorial on DRP.
She explains that
the major goal of a disaster recovery plan is to provide an organized way to
make decisions if a
disruptive event occurs and asks for the other objectives of the DRP. If you are
among some of
the newly recruited personnel in SoftTech Inc, what will be your answer for her
question?
Each correct answer represents a part of the solution. Choose three.
A. Guarantee the reliability of standby systems through testing and simulation.
B. Protect an organization from major computer services failure.
C. Minimize the risk to the organization from delays in providing services.
D. Maximize the decision-making required by personnel during a disaster.
Answer: A,B,C
Explanation:
QUESTION 5 Which of the following BCP teams is the first responder and deals with the
immediate effects of the disaster?
A. Emergency management team
B. Damage assessment team
C. Off-site storage team
D. Emergency action team
The certified candidate will demonstrate an understanding of the planning,
designing, deploying and optimization of Symantec CloudSOC. This understanding
serves as a basis of technical knowledge and competency for Symantec CloudSOC
solutions in an enterprise environment.
To achieve this level of certification, candidates must pass the technical exam
and accept the Symantec Certification Agreement.
Exam Details # of Questions: 70 - 80
Exam Duration: 90 minutes
Passing Score: 70%
Languages: English
CloudSOC v1
Current Class Schedule
Additional online training is available 24/7 in LearnCentral.
Note: If you do not have prior experience with this product, it is recommended
that you complete an in-person, classroom training or Virtual Academy virtual
classroom training class in preparation for the SCS exam. If you have experience
with this product, you may find an online course equivalent to be sufficient. Be
cautioned that attendance in a training course does not guarantee passage of a
certification exam.
QUESTION: 1
Refer to the exhibit. What does this Access Monitoring policy do?
A. Notify the owner when an email is sent
B. Send a ticket when a user with a ThreatScore higher than 80 perform an
invalid login.
C. Notify the admin when a folder is deleted by a user with a ThreatScores
higher than 80
D. Create a ticket when a user with a ThreatScore higher than 80 sends an email
Answer: D
QUESTION: 2 What module should and administrator utilize to identify inherent risk in
cloud applications?
A. Investigate
B. Audit
C. Detect
D. Protect
Answer: B
QUESTION: 3 How does the audit module get data?
A. Firewall and proxies
B. Cloud application APIs
C. CloudSOC gateway
D. Manual uploads
Answer: B
QUESTION: 4 What Business Readiness Rating (BRR) category does the subcategory ”user
Audit trail” belong to?
A. Data
B. Informational
C. Administration
D. Business
Answer: C
QUESTION: 5 How should an administrator handle a cloud application that fails to meet
compliance requirements, but the business need outweighs the risk?
A. Sanction
B. Monitor
Symantec 250-437
C. Block
D. Review
Number of questions: 66
Number of questions to pass: 45
Time allowed: 90.0 mins
Status: Live
This intermediate level certification is for system administrators who have
extensive product knowledge and are expected to plan, install, configure and
maintain the product.
These system administrators perform day-to-day administration activities which
cover:
It is expected that this system administrator will be generally self-sufficient
and be able to perform the tasks involved in the role with limited assistance
from peers, product documentation and vendor support services.
Due to the various platforms supported by IBM MQ V9.1, this certification is a
cross platform certification. There are platform specific questions on the
certification test. Due to the timing of the Continuous Delivery and Long Term
Support availability on the appliance, questions related to MQ Appliance reflect
version 9.1.
Planning, Installation, and Migration 15% Describe the differences between Long Term Support (LTS) and Continuous
Delivery (CD) Design an appropriate infrastructure to meet conflicting
requirements Identify the pre-requisites for installing and implementing an IBM
MQ configuration, including multi-instance queue managers Plan the appropriate
backup and recovery strategy Describe the differences between MQ Advanced and MQ
Select the appropriate IBM MQ platform for a given workload Outline migration
considerations, including impact on existing applications and multi-installation
Deploy MQ in a Docker container
Configuration 21% Create the necessary IBM MQ objects to support an application Configure IBM
MQ channels based on the network topology Configure IBM MQ objects for triggered
applications and channels Create the objects required to enable queue manager
clustering and workload distribution Define the objects to support a
publish/subscribe topology distribution Configure IBM MQ objects to support JMS
Configure channel exits Configure an MQ Client
Security 15% Understand the purpose of Connection Authentication (CONNAUTH) Configure
Channel Authentication (CHLAUTH) Control access to IBM MQ objects Configure IBM
MQ clients and channels with TLS 1.2 Describe MQ Appliance features that provide
intrusion detection Distinguish between the available security choices Configure
end-to-end message security
Administration 17% Administer queue managers and their objects Configure IBM MQ Explorer for
remote administration Monitor and alter IBM MQ using the different command tools
Define procedures to recover messages and objects in the event of failure
Implement dead-letter queue (DLQ) handling Acquire, apply maintenance, or
migrate IBM MQ Use the WEB UI and REST interface Configure different types of
logs
Availability 11% Configure and manage a multi-instance queue manager Configure IBM MQ for
automatic client reconnection Implement backup, restart, and recovery procedures
Implement a Queue-Sharing Group for High Availability Manage an MQ cluster
Configure and Manage HA/DR for MQ appliance Create a High Availability
Replication Data Queue manager (HA RDQM) topology
Monitoring 8% Explain the IBM MQ capabilities for monitoring Enable and Monitor IBM MQ
Events Monitor Message and Application Activities Gather and analyze IBM MQ
accounting and statistics data Use IBM MQ administration tools or commands to
monitor the status of a queue manager, channel or queue
Performance Tuning 5% Identify the tools available to assist in IBM MQ performance Use accounting
and statistical data to identify and resolve performance issues Tune IBM MQ
object definitions for performance and tune client and server connection channel
parameters
Problem Determination 9% Locate problem information such as IBM MQ error logs, FFST files and IBM MQ
dumps Produce an IBM MQ trace Identify the steps to evaluate and recover a
non-responsive queue manager Determine the route that a message took through a
queue manager network Describe how to use the Enhanced Application Activity
Trace Predict the final destination of a message given a scenario containing
alias or remote definitions
This intermediate level certification is for system administrators who have
extensive product knowledge and are expected to plan, install, configure and
maintain the product.
These system administrators perform day-to-day administration activities which
cover:
1. Planning, Installation and Migration
2. Configuration
3. Security
4. Administration
5. Availability
6. Monitoring
7. Performance Tuning
8. Problem Determination
It is expected that this system administrator will be generally self-sufficient
and be able to perform the tasks involved in the role with limited assistance
from peers, product documentation and vendor support services.
Due to the various platforms supported by IBM MQ V9.1, this certification is a
cross platform certification. There are platform specific questions on the
certification test. Due to the timing of the Continuous Delivery and Long Term
Support availability on the appliance, questions related to MQ Appliance reflect
version 9.1.
Recommended Prerequisite Skills
Knowledge and foundational skills one needs to possess before acquiring skills
measured on the certification test. These foundational skills are NOT measured
on the test. For skills measured on the test, see Test Objectives.)
Working knowledge of IBM MQ on supported operating systems (e.g., AIX, Solaris,
IBM i, Linux, z/OS, Windows)
Working knowledge of security concepts and protocols
Good understanding of messaging concepts
Basic knowledge of operating MQ Explorer
Basic knowledge of networking concepts
Basic knowledge on systems infrastructure and Docker
Number of questions: 60
Number of questions to pass: 41
Time allowed: 90.0 mins
Status: Live
This exam consists of 8 sections described below.
Section 1: Real Estate and Portfolio Management Describe the TRIRIGA Transaction Management Capabilities
Describe the TRIRIGA Lease Administration Capabilities
Describe the TRIRIGA Lease Accounting Capabilities
Section 2: Capital Project Management Understand Program & Funding Management
Explain End to End Project Execution
Section 3: Space Management Understanding of Space and Portfolio Set Up
Understanding key processes within Space Management
Understand Space and Scenario Planning functional capabilities
Section 4: Operations and Maintenance Demonstrate a solid understanding of the TRIRIGA Set-Up requirements within
the TRIRIGA Operations & Maintenance Module
Demonstrate an understanding of Operations & Maintenance key processes and
functional capabilities
Demonstrate an understanding of the TRIRIGA Facilities Condition Assessment
process
Section 5: Environmental and Energy Management Understand the environmental Data Set-Up
Understand the execution of environmental reporting
Understand the impact of environmental projects
Understand and configure IBM TRIRIGA Building Insights
Section 7: Architecture Understand the key difference between On-prem vs. SaaS Offering
Describe the different server components and their role within a TRIRIGA system
configuration
Describe the typical implementation environment configuration
Identify role of Administrator console for TRIRIGA
Section 8: Integration and Data Management
Describe the different types of integration
Describe the connectors within TRIRIGA
Overview PartnerWorld Code: C0003700
Replaces PW Code: Not Applicable
Status: Live The IBM TRIRIGA Solution Architect is a person who can design, plan and
architect a Watson Internet of Things TRIRIGA solution. They can do this with
limited assistance from support, documentation or relevant subject matter
experts.
Key areas of competency include: Demonstrate knowledge of IBM TRIRIGA concepts and architectural principles
Ability to evaluate customer's current state and requirements and architect an
IBM TRIRIGA solution
Provide infrastructure recommendations based on current industry best practices
and customer requirements
Provide guidance on fulfilling customer requirements and use cases utilizing
TRIRIGA base capabilities and, where needed, additional configuration.
Advanced knowledge of capabilities in the IBM TRIRIGA solution
Understand the data sources for integration with IBM TRIRIGA and the
configuration and use of those integrations
Possesses or ability to quickly acquire domain knowledge of IWMS principles
(Integrated Workplace Management System)
Recommended Prerequisite Skills
The following qualifications are requirements for success:
Working knowledge of IBM TRIRIGA solution concepts
Working knowledge of IBM TRIRIGA Cloud solution concepts
General knowledge of cloud infrastructure principles
Working knowledge of IBM TRIRIGA architecture
Working knowledge of designing a comprehensive IBM TRIRIGA solution
Basic knowledge of consulting principles
Working knowledge of IBM TRIRIGA Integration principles
Working knowledge of IBM TRIRIGA configuration capabilities
Number of questions: 62
Number of questions to pass: 44
Time allowed: 90 mins
Status: Live
This intermediate level certification is intended for solution developers who
have the knowledge and experience to use IBM App Connect V11.0 to develop,
deploy, tune, and support platform-independent message flow applications that
use various messaging topologies to transport messages between service
requesters and service providers, as well as enable the messages to be routed,
transformed, validated, and enriched during processing. Solution developers are
expected to have experience with cloud applications and tools to develop and
deploy container based solutions.
In addition to development, the solution developers are also expected to
generate IBM App Connect artifacts from patterns, and use troubleshooting,
tuning and monitoring tools.
These solution developers are generally self-sufficient and can perform the
tasks involved in the role with limited assistance from peers.
Integration Architecture, Planning, and Design 15% Explain the core architecture, components, and operating environments
Understand App Connect Enterprise topologies
Plan for migration from previous versions
Installation and Configuration 15% Install the App Connect Enterprise Development environment
Understand container based installation
Create and configure App Connect Enterprise components
Development of IBM App Connect Enterprise Toolkit Solutions 22% Build integration solutions
Build a message model
Build RESTful services
Build solutions with basic built in nodes
Design and build transactional solutions with App Connect Enterprise
Implement message transformations
Build integration solutions with patterns
Understand caching options available
Build applications using common integration patterns
Implement functionality used for error handling, logging and monitoring
Build Hybrid solutions
Extending App Connect Enterprise 5% Integrate with App Connect Designer
Integrate with extended/external integration services(
Solution Assembly, Configuration and Deployment 13% Demonstrate understanding of the relationship between the use of projects,
applications, default applications and libraries
Build and deploy App Connect Enterprise solutions
Define and override application properties using policies and user defined
properties
Describe and explain the Web administration console
Troubleshooting and Tuning 11% Test message flows with the flow exerciser
Use the debugger to locate and resolve problems
Configure and use trace nodes in a message flow
Configure and use user trace facilities
Tune integration solutions
Gather and analyze message flow statistics and resource statistics
Gather logging diagnostic information
Security 8% Describe the authentication and authorization security facilities available
in App Connect Enterprise
Use the SecurityPEP Node
Describe and configure link level security
Status: Live This intermediate level certification is intended for solution developers
who have the knowledge and experience to use IBM App Connect V11.0 to develop,
deploy, tune, and support platform-independent message flow applications that
use various messaging topologies to transport messages between service
requesters and service providers, as well as enable the messages to be routed,
transformed, validated, and enriched during processing. Solution developers are
expected to have experience with cloud applications and tools to develop and
deploy container based solutions.
In addition to development, the solution developers are also expected to
generate IBM App Connect artifacts from patterns, and use troubleshooting,
tuning and monitoring tools.
These solution developers are generally self-sufficient and can perform the
tasks involved in the role with limited assistance from peers.
Requirements This certification requires 1 exam
Exam Required:
Click on the link below to see exam details, exam objectives, suggested training
and sample tests.
C1000-056 - IBM App Connect Enterprise V11 Solution Development
