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Operational Excellence
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- Resources have identified owners
- Processes and procedures have identified owners
- Operations activities have identified owners responsible for their performance
- Team members know what they are responsible for
- Mechanisms exist to identify responsibility and ownership
- Mechanisms exist to request additions, changes, and exceptions
- Responsibilities between teams are predefined or negotiated
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- Executive Sponsorship
- Team members are empowered to take action when outcomes are at risk
- Escalation is encouraged
- Communications are timely, clear, and actionable
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- Resource teams appropriately
- Diverse opinions are encouraged and sought within and across teams
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- Use version control
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- Share design standards
- Use multiple environments
- Make frequent, small, reversible changes
- Fully automate integration and deployment
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Security
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- Evaluate and implement new security services and features regularly
- Automate testing and validation of security controls in pipelines
- Identify and prioritize risks using a threat model
- Keep up-to-date with security recommendations
- Keep up-to-date with security threats
- Identify and validate control objectives
- Secure account root user and properties
- Separate workloads using accounts
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- Analyze public and cross-account access
- Manage access based on life cycle
- Share resources securely with a third party
- Reduce permissions continuously
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- Establish emergency access process
- Define permission guardrails for your organization
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- Define access requirements
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- Build a program that embeds security ownership in workload teams
- Centralize services for packages and dependencies
- Manual code reviews
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Reliability
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- How do you ensure sufficient gap between quotas and maximum usage to accommodate failover?
- How do you automate quota management?
- How do you monitor and manage service quotas?
- How do you accommodate fixed service quotas and constraints through architecture?
- How do you manage service quotas and constraints across accounts and Regions?
- How do you manage service quotas and constraints?
- How do you build a program that embeds reliability into workload teams?
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- How do you enforce non-overlapping private IP address ranges in all private address spaces?
- How do you prefer hub-and-spoke topologies over many-to-many mesh?
- How do you ensure IP subnet allocation accounts for expansion and availability?
- How do you provision redundant connectivity between private networks in the cloud and on-premises environments?
- How do you use highly available network connectivity for workload public endpoints?
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- Monitor end-to-end tracing of requests through your system
- Conduct reviews regularly
- Analytics
- Automate responses (Real-time processing and alarming)
- Send notifications (Real-time processing and alarming)
- Define and calculate metrics (Aggregation)
- Monitor End-to-End Tracing of Requests Through Your System
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- Monitor all components of the workload to detect failures
- Fail over to healthy resources
- Automate healing on all layers
- Rely on the data plane and not the control plane during recovery
- Use static stability to prevent bimodal behavior
- Send notifications when events impact availability
- Architect your product to meet availability targets and uptime service level agreements (SLAs)
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Cost Optimization
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- Establish ownership of cost optimization
- Establish a partnership between finance and technology
- Establish cloud budgets and forecasts
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- Monitor cost proactively
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- Quantify business value from cost optimization
- Report and notify on cost optimization
- Create a cost-aware culture
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- Perform cost analysis for different usage over time
- Analyze all components of this workload
- Perform a thorough analysis of each component
- Select components of this workload to optimize cost in line with organization priorities
- Perform cost analysis for different usage over time
- Select software with cost effective licensing
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Performance
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- Learn about and understand available cloud services and features
- Evaluate how trade-offs impact customers and architecture efficiency
- Use guidance from your cloud provider or an appropriate partner to learn about architecture patterns and best practices
- Factor cost into architectural decisions
- Use policies and reference architectures
- Use benchmarking to drive architectural decisions
- Use a data-driven approach for architectural choices
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- Use purpose-built data store that best support your data access and storage requirements
- Collect and record data store performance metrics
- Evaluate available configuration options for data store
- Implement Strategies to Improve Query Performance in Data Store
- Implement data access patterns that utilize caching
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- Understand how networking impacts performance
- Evaluate available networking features
- Choose appropriate dedicated connectivity or VPN for your workload
- Use load balancing to distribute traffic across multiple resources
- Choose network protocols to improve performance
- Choose your workload's location based on network requirements
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- Establish key performance indicators (KPIs) to measure workload health and performance
- Use monitoring solutions to understand the areas where performance is most critical
- Define a process to improve workload performance
- Review metrics at regular intervals
- Load test your workload
- Use automation to proactively remediate performance-related issues
- Keep your workload and services up-to-date
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Sustainability
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- Optimize geographic placement of workloads based on their networking requirements
- Align SLAs with sustainability goals
- Optimize geographic placement of workloads based on their networking requirements
- Stop the creation and maintenance of unused assets
- Optimize team member resources for activities performed
- Implement buffering or throttling to flatten the demand curve
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- Optimize software and architecture for asynchronous and scheduled jobs
- Remove or refactor workload components with low or no use
- Optimize areas of code that consume the most time or resources
- Optimize impact on devices and equipment
- Use software patterns and architectures that best support data access and storage patterns
- Remove unneeded or redundant data
- Use technologies that support data access and storage patterns
- Use policies to manage the lifecycle of your datasets
- Use shared file systems or storage to access common data
- Back up data only when difficult to recreate
- Use elasticity and automation to expand block storage or file system
- Minimize data movement across networks
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- Articles coming soon
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Identify and prioritize risks using a threat model
PostedNovember 27, 2024
UpdatedNovember 27, 2024
ByKevin McCaffrey
Performing threat modeling allows you to identify and maintain an up-to-date register of potential threats and associated mitigations for your workload. By prioritizing these threats, you can adapt your security controls to prevent, detect, and respond to incidents. Regularly revisiting and updating the threat model ensures that it remains relevant to your workload and the evolving security landscape.
- Develop a threat model: Begin by identifying the most critical assets and potential attack vectors within your workload. Use frameworks like STRIDE or MITRE ATT&CK to guide the threat identification process, ensuring comprehensive coverage of all risk areas.
- Prioritize identified threats: Based on potential impact and likelihood, categorize threats to determine which require immediate attention. Focus on addressing high-priority risks that could have the most significant impact on your workload’s security and business continuity.
- Apply and update security controls: Implement preventive, detective, and responsive security controls based on the identified risks. Ensure that controls are regularly tested and adjusted as threats evolve or new vulnerabilities are discovered.
- Revisit and maintain the threat model: Continuously update the threat model as the workload evolves or as new information about threats becomes available. Regular threat model reviews ensure your mitigations remain effective against emerging security risks.
- Adapt to the evolving security landscape: Stay informed of new security threats and trends by consuming threat intelligence and industry updates. Incorporate this information into your threat model and adjust security controls accordingly.
Supporting Questions:
- How is the threat model developed and maintained for your workload?
- What process do you follow to prioritize risks based on their impact and likelihood?
- How are security controls adjusted based on updates to the threat model?
Roles and Responsibilities:
Security Architect:
- Responsibilities:
- Develop and maintain the threat model for the workload.
- Identify potential attack vectors and assess the impact and likelihood of threats.
- Ensure security controls are updated based on evolving threats.
Risk Manager:
- Responsibilities:
- Prioritize threats based on business impact and risk appetite.
- Collaborate with security teams to ensure risk mitigations are in place and effective.
- Review and adjust the threat model as the workload or external threat landscape changes.
Artefacts:
- Threat Model Documentation: Detailed records of identified threats, their likelihood, potential impact, and associated mitigations.
- Risk Register: A prioritized list of identified risks and corresponding control measures for monitoring and management.
- Security Control Testing Reports: Evidence of regular testing and validation of security controls based on updated threat models.
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