Which DevSecOps implementation process gives a weekly or daily update instead of monthly or quarterly in the applications?
Correct Answer: B
Unlike the traditional software life cycle, the CI/CD implementation process gives a weekly or daily update instead of monthly or quarterly. The fun part is customers won't even realize the update is in their applications, as they happen on the fly. Unlike the traditional software life cycle, the CI/CD implementation process gives a weekly or daily update instead of monthly or quarterly. The fun part is customers won't even realize the update is in their applications, as they happen on the fly. Reference: Unlike the traditional software life cycle, the CI/CD implementation process gives a weekly or daily update instead of monthly or quarterly. The fun part is customers won't even realize the update is in their applications, as they happen on the fly.
Question 157
Which network monitoring solution uses streams and pushes operational data to provide a near real-time view of activity?
Correct Answer: D
The traditional use of the pull model, where the client requests data from the network does not scale when what you want is near real-time data. Moreover, in some use cases, there is the need to be notified only when some data changes, like interfaces status, protocol neighbors change etc. Model-Driven Telemetry is a new approach for network monitoring in which data is streamed from network devices continuously using a push model and provides near real-time access to operational statistics. Applications can subscribe to specific data items they need, by using standard-based YANG data models over NETCONF-YANG. Cisco IOS XE streaming telemetry allows to push data off of the device to an external collector at a much higher frequency, more efficiently, as well as data on-change streaming. The traditional use of the pull model, where the client requests data from the network does not scale when what you want is near real-time data. Moreover, in some use cases, there is the need to be notified only when some data changes, like interfaces status, protocol neighbors change etc. Model-Driven Telemetry is a new approach for network monitoring in which data is streamed from network devices continuously using a push model and provides near real-time access to operational statistics. Applications can subscribe to specific data items they need, by using standard-based YANG data models over NETCONF-YANG. Cisco IOS XE streaming telemetry allows to push data off of the device to an external collector at a much higher frequency, more efficiently, as well as data on-change streaming. The traditional use of the pull model, where the client requests data from the network does not scale when what you want is near real-time data. Moreover, in some use cases, there is the need to be notified only when some data changes, like interfaces status, protocol neighbors change etc. Model-Driven Telemetry is a new approach for network monitoring in which data is streamed from network devices continuously using a push model and provides near real-time access to operational statistics. Applications can subscribe to specific data items they need, by using standard-based YANG data models over NETCONF-YANG. Cisco IOS XE streaming telemetry allows to push data off of the device to an external collector at a much higher frequency, more efficiently, as well as data on-change streaming.
Question 158
An organization has a Cisco ESA set up with policies and would like to customize the action assigned for violations. The organization wants a copy of the message to be delivered with a message added to flag it as a DLP violation. Which actions must be performed in order to provide this capability?
Correct Answer: A
Question 159
Which attack is preventable by Cisco ESA but not by the Cisco WSA?
Which feature is supported when deploying Cisco ASAv within AWS public cloud?
Correct Answer: B
The ASAv on AWS supports the following features: + Support for Amazon EC2 C5 instances, the next generation of the Amazon EC2 Compute Optimized instance family. + Deployment in the Virtual Private Cloud (VPC) + Enhanced networking (SR-IOV) where available + Deployment from Amazon Marketplace + Maximum of four vCPUs per instance + User deployment of L3 networks + Routed mode (default) Note: The Cisco Adaptive Security Virtual Appliance (ASAv) runs the same software as physical Cisco ASAs to deliver proven security functionality in a virtual form factor. The ASAv can be deployed in the public AWS cloud. It can then be configured to protect virtual and physical data center workloads that expand, contract, or shift their location over time. Reference: https://www.cisco.com/c/en/us/td/docs/security/asa/asa96/asav/quick-start-book/asav-96 qsg/asavaws.html The ASAv on AWS supports the following features: + Support for Amazon EC2 C5 instances, the next generation of the Amazon EC2 Compute Optimized instance family. + Deployment in the Virtual Private Cloud (VPC) + Enhanced networking (SR-IOV) where available + Deployment from Amazon Marketplace + Maximum of four vCPUs per instance + User deployment of L3 networks + Routed mode (default) Note: The Cisco Adaptive Security Virtual Appliance (ASAv) runs the same software as physical Cisco ASAs to deliver proven security functionality in a virtual form factor. The ASAv can be deployed in the public AWS cloud. The ASAv on AWS supports the following features: + Support for Amazon EC2 C5 instances, the next generation of the Amazon EC2 Compute Optimized instance family. + Deployment in the Virtual Private Cloud (VPC) + Enhanced networking (SR-IOV) where available + Deployment from Amazon Marketplace + Maximum of four vCPUs per instance + User deployment of L3 networks + Routed mode (default) Note: The Cisco Adaptive Security Virtual Appliance (ASAv) runs the same software as physical Cisco ASAs to deliver proven security functionality in a virtual form factor. The ASAv can be deployed in the public AWS cloud. It can then be configured to protect virtual and physical data center workloads that expand, contract, or shift their location over time. Reference: https://www.cisco.com/c/en/us/td/docs/security/asa/asa96/asav/quick-start-book/asav-96 qsg/asavaws.html
