Designing and Implementing Secure Cloud Access for Users and Endpoints v1.0 (300-740)
Cisco has recently introduced a new cloud concentration for the Security CCNP certification, titled Implementing Secure Cloud Access for Users and Endpoints 300-740 SCAZT. The 300-740 SCAZT certification aims to equip professionals with knowledge and skills to effectively implement secure access for users and endpoints in a cloud environment. To prepare for this certification exam, you can avail the latest CCNP Security 300-740 SCAZT Exam Questions from PassQuestion. These questions have been designed to cover all the exam content comprehensively, thus providing a thorough understanding of the subject matter. Utilizing these CCNP Security 300-740 SCAZT Exam Questions can significantly enhance your chances of passing the exam with ease, thereby adding a valuable certification to your professional credentials.
Designing and Implementing Secure Cloud Access for Users and Endpoints v1.0 (SCAZT 300-740) is a 90-minute exam associated with the CCNP Security Certification. This exam certifies a candidate's knowledge of designing and implementing cloud security architecture, user and device security, network and cloud security, application and data security, visibility and assurance, and threat response.
Exam Information
Exam Code: 300-740 SCAZT
Exam Name: Designing and Implementing Secure Cloud Access for Users and Endpoints
Duration: 90 minutes
Languages: English, Japanese
Price: $300 USD
Associated certifications: CCNP Security, Cisco Certified Specialist - Security Secure Cloud Access
Exam Objectives
1.0 Cloud Security Architecture 10%
1.1 Describe the components of the Cisco Security Reference Architecture
1.1.a Threat intelligence
1.1.b Security operations toolset
1.1.c User/device security
1.1.d Network security: cloud edge and on-premises
1.1.e Workload, application, and data security
1.2 Describe use cases and the recommended capabilities within an integrated architecture
1.2.a Common identity
1.2.b Converged multicloud policy
1.2.c SASE integrations
1.2.d Zero-trust network access
1.3 Describe industry security frameworks such as NIST, CISA, and DISA
1.4 Describe the SAFE architectural framework
1.5 Describe the SAFE Key structure
1.5.a Places in the Network
1.5.b Secure Domains
2.0 User and Device Security 20%
2.1 Implement user and device authentication via identity certificates
2.2 Implement multifactor authentication for users and devices
2.3 Implement endpoint posture policies for user access to resources
2.4 Configure SAML/SSO and OIDC using an identity provider connection
2.5 Configure user and device trust using SAML authentication for a mobile or web application
3.0 Network and Cloud Security 20%
3.1 Determine security policies for endpoints to control access to cloud applications
3.1.a URL filtering (web layer and DNS layer)
3.1.b Advanced app control
3.1.c Network protocol blocking such as FTP and bit torrent
3.1.d Direct-internet-access for trusted business applications
3.1.e Web application firewall
3.1.f Reverse proxy
3.2 Determine security policies for endpoints to control access to SaaS applications such as Office 365, Workday, and Salesforce
3.3 Determine security policies for remote users using VPN or application-based
3.4 Determine security policies for network security edge to enforce application policy
3.4.a Security services edge
3.4.b Cisco Secure Firewall (FTD and ASA)
4.0 Application and Data Security 25%
4.1 Describe the MITRE ATT&CK framework and attacker defense mitigation techniques
4.2 Describe cloud security attack tactics and mitigation strategies
4.3 Describe how web application firewalls protect against DDoS attacks
4.4 Determine security policies for application enforcement using Cisco Secure Workload and enforcement agents
4.4.a Lateral movement prevention
4.4.b Microsegmentation
4.5 Determine cloud (hybrid and multicloud) platform security policies based on application connectivity requirements (third- party providers such as AWS, Azure, and Google Cloud)
5.0 Visibility and Assurance 15%
5.1 Describe the Cisco XDR solution
5.2 Describe use cases for visibility and assurance automation
5.3 Describe benefits and capabilities of visibility and logging tools such as SIEM, Open Telemetry, and Cisco Secure Network Analytics
5.4 Validate traffic flow and telemetry reports for baseline and compliance behavior analysis
5.5 Diagnose issues with user application and workload access
5.5.a Cisco Secure Network Analytics
5.5.b Cisco Secure Cloud Analytics
5.5.c Cisco Secure Cloud Insights
5.5.d Cisco Secure Analytics and Logging
5.6 Verify user access to applications and data using tools (firewall logs, Duo, Umbrella, and Cisco Secure Workload)
5.7 Analyze application dependencies using tools such as firewall logs and Cisco Secure Workload
6.0 Threat Response 10%
6.1 Describe use cases for response automation
6.2 Determine actions based on telemetry reports
6.3 Determine policies based on security audit reports
6.4 Determine action based on user or application compromise
6.4.a Contain
6.4.b Report
6.4.c Remediate
6.4.d Reinstantiate
View Online CCNP Security 300-740 SCAZT Free Questions
1. The primary purpose of Cisco Secure Analytics and Logging is to:
A. Enhance visibility into security and network events for better incident analysis
B. Simplify attacks on network infrastructure
C. Decrease the storage of logs and analytics data
D. Focus solely on external threat actors while ignoring insider threats
Answer: A
2. What is the purpose of the security operations toolset within the Cisco Security Reference Architecture?
A. To provide connectivity to cloud services
B. To manage and analyze security data
C. To enforce data privacy laws
D. To store digital certificates
Answer: B
3. What is the primary purpose of implementing identity certificates for user and device authentication?
A. To increase network speed
B. To monitor user activity
C. To ensure secure access to resources
D. To track device locations
Answer: C
4. What does SASE integration aim to achieve in cloud security?
A. Decentralize security management
B. Provide a standalone security solution
C. Combine networking and security functions into a single framework
D. Reduce the need for cloud security
Answer: C
5. What are key considerations when implementing an integrated cloud security architecture?
A. Ensuring compatibility between different cloud services
B. Centralizing all data storage on-premises
C. Implementing consistent security policies across environments
D. Leveraging zero-trust principles
Answer: ACD
6. Which component of the Cisco Security Reference Architecture focuses on identifying and analyzing threats?
A. Threat intelligence
B. Network security
C. User/device security
D. Security operations toolset
Answer: A
7. Which of the following is true about lateral movement prevention strategies?
A. They encourage the use of shared credentials
B. They are only applicable in on-premises environments
C. They include the use of just-in-time access and privilege escalation monitoring
D. They primarily focus on external firewall configuration
Answer: C
8. The main benefit of integrating threat intelligence into cloud security is:
A. Reducing the effectiveness of security operations
B. Increasing the complexity of security architectures
C. Enhancing the ability to identify and respond to emerging threats
D. Decreasing the need for secure domains
Answer: C
9. Which of the following is a use case for visibility and assurance automation?
A. Reducing the accuracy of threat detection
B. Decreasing the speed of security operations
C. Increasing manual intervention in security processes
D. Automating the response to security incidents
Answer: D
10. What role does the security operations toolset play in the SAFE architectural framework?
A. To manage security across different secure domains and places in the network
B. To encrypt all network traffic
C. It is not part of the SAFE framework
D. To ensure compliance with physical security standards
Answer: A
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