Cisco Certified DevNet Professional 350-901 DEVCOR Exam Dumps | 2020 DumpsBase
Before, we have introduced 200-901 real dumps to help you complete Developing Applications and Automating Workflows using Cisco Core Platforms (DEVASC) exam and get Cisco Certified DevNet Associate certification. Today, we have completed real 350-901 DEVCOR exam dumps for your Cisco Certified DevNet Professional certification. It must be clear that 350-901 real exam dumps will ensure that you can get Cisco Certified DevNet Professional certification in 2020. Cisco 350-901 DEVCOR dumps questions have been verified by our experts and professional team, they promise that you can pass 350-901 Developing Applications using Cisco Core Platforms and APIs v1.0 exam in the first try.
Cisco DevNet Certifications Are New Cisco Track Which Was Lauched In February OF 2020
We know Cisco retired almost all certification exams, and since February 24, 2020, new certification tracks and exams are online.
Among all these new Cisco Certification tracks and levels, Cisco DevNet certification program validates the skills of software developers, DevOps engineers, automation specialists, and other software professionals. Also, it validates key emerging technical skills for a new kind of IT professional, empowering organizations to embrace the potential of applications, automation, and infrastructure for the network, Internet of Things (IoT), DevOps, and Webex.
Cisco Certified DevNet Associate is for developers who have one or more years of hands-on experience developing and maintaining applications that are built on Cisco platforms. It validates your core knowledge of Cisco platforms, working with applications, Cisco’s programmability strategy, and APIs. It requires you answer 200-901 Developing Applications and Automating Workflows using Cisco Core Platforms (DEVASC) exam successfully.
Cisco Certified DevNet Specialist is for developers who have three to five years of experiences with application development, operations, security, or infrastructure. Currently, there are 5 certifications in DevNet Specialist:
● Cisco Certified DevNet Specialist - Collaboration Automation and Programmability
Cisco Certified DevNet Specialist - Collaboration Automation and Programmability certification validates your knowledge of implementing applications that automate and extend Cisco Collaboration platforms including programming concepts, APIs and automation protocols, and Python programming. This certification requires to take 300-835 Automating and Programming Cisco Collaboration Solutions (CLAUTO) exam.
● Cisco Certified DevNet Specialist - Data Center Automation and Programmability
Cisco Certified DevNet Specialist - Data Center Automation and Programmability certification validates your knowledge of implementing data center automated solutions. This certification requires to prepare for 300-635 Automating Cisco Data Center Solutions (DCAUTO) certification exam.
● Cisco Certified DevNet Specialist - Enterprise Automation and Programmability
Cisco Certified DevNet Specialist - Enterprise Automation and Programmability certification validates your knowledge of implementing enterprise automated solutions. It requires you to take 300-435 Automating and Programming Cisco Enterprise Solutions (ENAUTO) exam.
● Cisco Certified DevNet Specialist - Security Automation and Programmability
Cisco Certified DevNet Specialist - Security Automation and Programmability certification validates your knowledge of implementing security automated solutions, including programming concepts, RESTful APIs, data models, protocols, firewalls, web, DNS, ISE, cloud and email security. It needs to complete 300-735 Automating and Programming Cisco Security Solutions (SAUTO) certification exam.
● Cisco Certified DevNet Specialist - Service Provider Automation and Programmability
Cisco Certified DevNet Specialist - Service Provider Automation and Programmability certification validates your knowledge of implementing service provider automated solutions including Programming concepts, Orchestration, Programming OS, Automation tools. 300-535 Automating and Programming Cisco Service Provider Solutions (SPAUTO) is the requirement.
Cisco Certification DevNet Professional is for developers who have at least three to five years of experience designing and implementing applications built on Cisco platforms. DevNet Professional certification reflects specialized knowledge regarding the design and development of applications using Cisco APIs and platforms, and management and deployment of applications on Cisco infrastructure. It requires you complete one core exam and one concentration exam.
Cisco 350-901 DEVCOR exam is the core one for Cisco Certified DevNet Professional certification. If you are planning for it, please choose your valid study guide online to save valuable time.
DevNet Expert exam details will be available in the future.
350-901 DEVCOR Exam Focus On Software Development And Design
350-901 DEVCOR Developing Applications using Cisco Core Platforms and APIs v1.0 exam is the core exam for DevNet Professional certification, which mainly fouse on your knowledge of software development and design including using APIs, Cisco platforms, application deployment and security, and infrastructure and automation. You need to complete your Cisco 350-901 exam in 120 minutes.
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A developer has created an application based on customer requirements. The customer needs to run the application with the minimum downtime.
Which design approach regarding high-availability applications, Recovery Time Objective, and Recovery Point Objective must be taken?
A. Active/passive results in lower RTO and RPO. For RPO, data synchronization between the two data centers must be timely to allow seamless request flow.
B. Active/passive results in lower RTO and RPO. For RPO, data synchronization between the two data centers does not need to be timely to allow seamless request flow.
C. Active/active results in lower RTO and RPO. For RPO, data synchronization between the two data centers does not need to be timely to allow seamless request flow.
D. Active/active results in lower RTO and RPO. For RPO, data synchronization between the two data centers must be timely to allow seamless request flow.
A cloud native project is being worked on in which all source code and dependencies are written in Python, Ruby, and/or JavaScnpt. A change in code triggers a notification to the CI/CD tool to run the CI/CD pipeline.
Which step should be omitted from the pipeline?
A. Deploy the code to one or more environments, such as staging and/or production.
B. Build one of more containers that package up code and all its dependencies.
C. Compile code.
D. Run automated tests to validate the correctness.
Which two statements are considered best practices according to the 12-factor app methodology for application design? (Choose two.)
A. Application code writes its event stream to stdout.
B. Application log streams are archived in multiple replicated databases.
C. Application log streams are sent to log indexing and analysis systems.
D. Application code writes its event stream to specific log files.
E. Log files are aggregated into a single file on individual nodes.
An organization manages a large cloud-deployed application that employs a microservices architecture. No notable issues occur with downtime because the services of this application are redundantly deployed over three or more data center regions.
However, several times a week reports are received about application slowness. The container orchestration logs show faults in a variety of containers that cause them to fail and then spin up brand new.
Which action must be taken to improve the resiliency design of the application while maintaining current scale?
A. Update the base image of the containers.
B. Test the execution of the application with another cloud services platform.
C. Increase the number of containers running per service.
D. Add consistent “try/catch(exception)” clauses to the code.
How should a web application be designed to work on a platform where up to 1000 requests per second can be served?
A. Use algorithms like random early detection to deny excessive requests.
B. Set a per-user limit (for example, 5 requests/minute/user) and deny the requests from the users who have reached the limit.
C. Only 1000 user connections are allowed; further connections are denied so that all connected users can be served.
D. All requests are saved and processed one by one so that all users can be served eventually.
An organization manages a large cloud-deployed application that employs a microservices architecture across multiple data centers. Reports have received about application slowness. The container orchestration logs show that faults have been raised in a variety of containers that caused them to fail and then spin up brand new instances.
Which two actions can improve the design of the application to identify the faults? (Choose two.)
A. Automatically pull out the container that fails the most over a time period.
B. Implement a tagging methodology that follows the application execution from service to service.
C. Add logging on exception and provide immediate notification.
D. Do a write to the datastore every time there is an application failure.
E. Implement an SNMP logging system with alerts in case a network link is slow.
Which two situations are flagged by software tools designed for dependency checking in continuous integration environments, such as OWASP? (Choose two.)
A. publicly disclosed vulnerabilities related to the included dependencies
B. mismatches in coding styles and conventions in the included dependencies
C. incompatible licenses in the included dependencies
D. test case failures introduced by bugs in the included dependencies
E. buffer overflows to occur as the result of a combination of the included dependencies
A network operations team is using the cloud to automate some of their managed customer and branch locations. They require that all of their tooling be ephemeral by design and that the entire automation environment can be recreated without manual commands. Automation code and configuration state will be stored in git for change control and versioning. The engineering high-level plan is to use VMs in a cloud-provider environment then configure open source tooling onto these VMs to poll, test, and configure the remote devices, as well as deploy the tooling itself.
Which configuration management and/or automation tooling is needed for this solution?
B. Ansible and Terraform
E. Ansible and NSO