Mastering Cloud Data Center Infrastructure Design and Management
!!! ปลดล็อกอนาคตของ Data Center และ Cloud Data Center !!!
ด้วยหลักสูตรการฝึกอบรมจากผู้เชี่ยวชาญในด้านการออกแบบ การตรวจสอบ และการจัดการ
ในโลกดิจิทัลที่เปลี่ยนแปลงอย่างรวดเร็วในปัจจุบัน ความต้องการ Data Center ที่มีประสิทธิภาพ เชื่อถือได้ และปลอดภัยมีสูงกว่าที่เคย ท่านพร้อมที่จะยกระดับอาชีพของท่านและกลายเป็นผู้นำด้านการออกแบบ Data Center และ Cloud หรือยัง หลักสูตรนี้ครอบคลุมทุกอย่างเกี่ยวกับ Data Center อย่างละเอียดที่สุด เนื้อหาทันสมัยและยังเน้นการบริหารจัดการเชิงปฎิบัติและได้มาตรฐานอุตสาหกรรมสูงสุด ได้แก่ TIA-942, Uptime Institute, BICSI และ ASHRAE และยังครอบคลุมไปถึง การบริหารจัดการ เชิงปฎิบัติการ การอกแบบรายงาน เอกสารการจัดการ การใช้เครื่องมือตรวจสอบประสิทธิภาพ สิ่งแวดล้อม และการใช้เครื่อง Monitor โครงสร้างพื้นฐานและ Security เชิงปฎิบัติ ที่สามารถนำไปใช้งานได้จริง รวมทั้งการบริหารจัดการ Security ด้วยเครื่องมือตรวจสอบและรักษาความปลอดภัยที่ทันสมัย ด้วยภาคปฎิบัติที่จะทำให้ท่านก้าวสู่มืออาชีพในการดูแลรักษาเชิงป้องกัน ทั้งระบบ Security /ระบบ Server รวมทั้งเครือข่ายได้อย่างมีประสิทธิภาพของ Data Center
Additional Resources
ตำราประกอบการอบรม รวมทั้ง Slide การสอนในรูปแบบ PDF Soft File เอกสารมาตรฐาน Data Center ในรูปแบบ PDF 3 เล่ม
ผู้ที่เหมาะเข้ารับการอบรม
Data Center Managers
Network Engineers
Cloud Architects
IT Infrastructure Professionals
System Administrators
จำนวนวันอบรม 3 วัน
รายละเอียดหลักสูตร
Introduction to Data Center and Cloud Infrastructure Design
Overview of Data Center and Cloud Infrastructure
Key differences between traditional data centers and cloud environments.
Types of data centers (Enterprise, Colocation, Hyperscale, Edge) and cloud models (IaaS, PaaS, SaaS).
Fundamental Design Principles
Principles of data center design: scalability, redundancy, efficiency, and security.
Cloud infrastructure design principles: multi-tenancy, elasticity, availability, and cost optimization.
Overview of TIA-942, ASHRAE, and Uptime Institute standards for data center design.
Data Center Infrastructure Components
Key components: servers, storage, networking, power, cooling, and security systems.
Rack design, power distribution units (PDUs), and cable management.
Cooling solutions: CRAC units, CRAH units, in-row cooling, and liquid cooling.
Advanced Data Center Design Concepts
Power and Cooling Systems Design
Designing power infrastructure: Uninterruptible Power Supplies (UPS), generators, and redundant power paths.
Cooling strategies and ASHRAE guidelines for environmental control.
Best practices for designing energy-efficient data centers.
Network Infrastructure Design
Network architecture for data centers: core, distribution, and access layers.
Software-Defined Networking (SDN) and network function virtualization (NFV) in data centers.
Designing for high availability and fault tolerance: redundancy, load balancing, and failover mechanisms.
Security and Compliance
Physical and cybersecurity considerations for data center and cloud environments.
Compliance with regulations and standards (e.g., ISO 27001, PCI-DSS, HIPAA).
Best practices for data center and cloud security design.
Cloud Infrastructure Design and Integration
Cloud Architecture Fundamentals
Introduction to cloud architecture components: compute, storage, networking, and services.
Designing for cloud-native applications: microservices, containers, and serverless architectures.
Cloud infrastructure providers: AWS, Azure, Google Cloud Platform, and their offerings.
Hybrid and Multi-Cloud Design
Integrating on-premises data centers with cloud environments.
Designing for hybrid cloud: connectivity, data synchronization, and workload balancing.
Multi-cloud strategies: vendor management, portability, and resilience.
Cloud Migration Strategies
Planning and executing a data center to cloud migration.
Assessment of workloads for cloud readiness.
Tools and methodologies for cloud migration: lift and shift, re-platforming, refactoring.
Advanced Cloud Infrastructure and Automation
Cloud Infrastructure as Code (IaC)
Introduction to Infrastructure as Code and its benefits.
Popular IaC tools: Terraform, AWS CloudFormation, Azure Resource Manager.
Practical lab: Deploying a cloud environment using IaC tools.
Automation and Orchestration
Automating data center and cloud operations: Ansible, Puppet, Chef.
Orchestration tools: Kubernetes, Docker Swarm for container management.
Case studies on successful automation and orchestration strategies.
Monitoring and Management
Tools for monitoring cloud and data center environments: Zabbix, Nagios, SolarWinds, Prometheus.
Performance management and capacity planning.
Incident response and disaster recovery in hybrid and multi-cloud environments.
Data Center Design Principles and Architecture
Introduction to Data Center Design
Key Design Principles for Data Centers
Understanding Tier Levels (Tier I-IV) and Uptime Requirements
ASHRAE Guidelines and Compliance (TC9.9)
Environmental Considerations: Cooling, Power, and Physical Security
Data Center Networking and Connectivity
Designing Data Center Networks: Core, Distribution, and Access Layers
High-Availability Network Designs: Redundancy, Failover, and Load Balancing
Understanding Network Topologies (Leaf-Spine, Mesh, etc.)
Implementing Software-Defined Networking (SDN) in Data Centers
Lab Exercise: Designing a Redundant Data Center Network
Data Center Virtualization and Storage Management
Virtualization Technologies in Data Centers
Virtualization Concepts and Technologies (VMware, Hyper-V, KVM)
Designing and Managing Virtualized Data Centers
Hyperconverged Infrastructure (HCI) and Software-Defined Data Centers (SDDC)
Performance Tuning and Optimization for Virtual Environments
Storage Solutions and Management
Introduction to Data Center Storage Architectures (SAN, NAS, DAS)
Storage Virtualization and Software-Defined Storage (SDS)
Implementing Storage Area Networks (SAN) and Network Attached Storage (NAS)
Backup, Archival, and Disaster Recovery Strategies
Introduction to Data Center Cabling Design
Overview of Data Center Cabling Standards
Introduction to key cabling standards: TIA-942, ISO/IEC 11801, ANSI/BICSI 002.
Understanding the role of cabling in data center design and operation.
Overview of cabling infrastructure layers: access, distribution, and core.
Cabling Media Types and Selection Criteria
Copper vs. fiber optic cabling: types, benefits, and use cases.
Overview of Category 6, 6A, 7, 8 cables, and their applications.
Introduction to single-mode and multi-mode fiber types (OM3, OM4, OM5).
Factors influencing cabling choice: distance, bandwidth, future-proofing, and cost.
Structured Cabling Design Principles
Understanding structured cabling and its components: horizontal cabling, backbone cabling, cross-connects, patch panels, and cable management.
Importance of modularity and scalability in cabling design.
Best practices for cable pathways, routing, and labeling.
Advanced Cabling Systems and Standards Compliance
High-Density and High-Speed Cabling Solutions
Designing for high-density environments: challenges and solutions.
Implementing high-speed cabling solutions for 10G, 40G, 100G, and 400G Ethernet.
Introduction to MPO/MTP connectors and pre-terminated fiber solutions.
Cabling for Power and Cooling Efficiency
Impact of cabling design on airflow management and cooling efficiency.
Cable management strategies to minimize airflow obstruction.
Compliance with Industry Standards
Detailed review of TIA-942: cabling pathways, spaces, and distances.
Overview of ISO/IEC 11801 and its implications for data center design.
BICSI standards and best practices for data center cabling.
Compliance checklists and audit preparation.
Introduction to Data Center Standards and Compliance
Overview of Key Standards and Frameworks
TIA-942: Telecommunications Infrastructure Standard for Data Centers
Uptime Institute's Tier Standard: Topology
BICSI: Data Center Design and Implementation Best Practices
ASHRAE: Thermal Guidelines for Data Processing Environments
Compliance Requirements and Certification Processes
Understanding Compliance vs. Certification
Key Compliance Criteria for TIA-942, Uptime, BICSI, and ASHRAE
Case Studies on Compliance and Non-Compliance
Intermediate Data Center Design Principles
Site Selection and Layout Design
Factors in Site Selection (Geography, Risk Assessment, Connectivity)
Space Planning and Layout Optimization
Fire Suppression and Physical Security Design
Power and Electrical Systems Design
Electrical Infrastructure Components: UPS, Generators, PDUs
Designing for Redundancy and Reliability (N, N+1, 2N, 2N+1 Configurations)
Power Quality and Management
Cooling and Environmental Controls
Principles of Cooling in Data Centers
Airflow Management: Hot Aisle/Cold Aisle Containment
Advanced Cooling Solutions: Liquid Cooling, In-Row Cooling, and Free Cooling
Advanced Data Center Management and Operations
Advanced Network Architecture and Design
Network Redundancy and Resilience
Designing for Low Latency and High Throughput
Software-Defined Networking (SDN) and Network Function Virtualization (NFV)
Data Center Infrastructure Management (DCIM) Tools
Introduction to DCIM Platforms and Tools
Integrating DCIM with Other IT Management Systems
Benefits and Challenges of DCIM Implementation
Sustainability and Energy Efficiency
Green Data Center Concepts
Energy Efficiency Metrics (PUE, DCiE)
Disaster Recovery and Business Continuity Planning
Disaster Recovery Planning (DRP)
Understanding Risks and Threats
Developing a DRP Framework for Data Centers
Testing and Validating the DRP
Business Continuity Planning (BCP)
Building a BCP for IT Operations
Key Elements of a BCP (RTO, RPO, MTD)
Integration of BCP with DRP
Advanced Compliance and Certification Strategies
Deep Dive into TIA-942 and Uptime Institute Tier Standards
Detailed Analysis of TIA-942 Requirements
Understanding Uptime Institute Tier Standards (Tier I-IV)
Certification Process and Audit Preparation
BICSI and ASHRAE Advanced Compliance
Advanced Data Center Design Considerations for BICSI Compliance
Meeting ASHRAE Thermal Guidelines and Energy Standards
Final Assessment and Certification Exam Preparation
Review of Key Concepts and Standards
Sample Exam Questions and Practice Test
Introduction to Data Center Standards and ASHRAE Guidelines
ASHRAE Overview
Understanding ASHRAE TC9.9 and its significance in data center operations.
Implementing ASHRAE 90.4 for Energy Efficiency
Detailed review of ASHRAE Standard 90.4 for data center energy efficiency.
Compliance requirements for electrical systems, mechanical systems, and IT equipment.
Case studies on implementing ASHRAE 90.4 in existing and new data centers.
Environmental Classes and Requirements:
ASHRAE environmental classes (A1, A2, A3, A4).
Recommended and allowable ranges for temperature and humidity.
Discussion on dew point and its impact on data center environments.
Data Center Design Fundamentals:
Site selection and considerations.
Basic architectural and structural requirements.
Overview of cooling, power, and airflow requirements.
Interactive Session:
Case studies on data center designs complying with ASHRAE standards.
Group activity: Evaluate and improve existing data center designs for ASHRAE compliance.
Cooling and Airflow Management in Compliance with ASHRAE Standards
Cooling Systems Design:
Overview of different cooling technologies (CRAC, CRAH, in-row cooling, liquid cooling).
ASHRAE guidelines on cooling system selection and deployment.
Airflow Management:
Hot aisle/cold aisle configurations.
Containment strategies (hot aisle containment vs. cold aisle containment).
Airflow management best practices to comply with ASHRAE recommendations.
Energy Efficiency and Cooling Optimization:
ASHRAE guidelines for energy-efficient cooling practices.
Understanding Power Usage Effectiveness (PUE) and Data Center Infrastructure Efficiency (DCIE).
Practical Workshop:
Hands-on exercise on designing cooling and airflow layouts using simulation tools.
Analyzing cooling efficiency and airflow distribution in different data center setups.
Power Management and Environmental Monitoring
Power Distribution and Management:
Overview of power requirements in data centers.
ASHRAE guidelines on power distribution systems, redundancy, and reliability.
Uninterruptible Power Supply (UPS) and Backup Power:
Designing UPS systems and backup power solutions following ASHRAE standards.
Best practices for power redundancy and reliability.
Environmental Monitoring and Control:
Importance of continuous monitoring of environmental parameters.
ASHRAE standards for temperature and humidity monitoring.
Using sensors and automated control systems for environmental management.
Data Center Design for Sustainability and Energy Efficiency
Sustainable Data Center Design:
Principles of sustainable data center design in line with ASHRAE standards.
Green building practices and LEED certification considerations.
Energy Efficiency Strategies:
Implementing energy-efficient equipment and design choices.
Analyzing data center energy usage and identifying areas for improvement.
Advanced Cooling and Heat Reuse:
Exploring advanced cooling solutions such as liquid cooling and evaporative cooling.
Strategies for heat reuse and waste heat recovery
Introduction to Data Center Monitoring and Management
Overview of Data Center Operations and Management
Introduction to data center management principles.
Key performance indicators (KPIs) for data centers.
Importance of monitoring and management in data center operations.
Monitoring Fundamentals
Introduction to monitoring concepts: uptime, downtime, SLAs.
Types of data center monitoring: environmental, network, security, and system monitoring.
Monitoring protocols: SNMP, WMI, IPMI, etc.
Industry Standards and Compliance
Overview of ASHRAE standards for data center environments.
TIA-942 standard for data center infrastructure.
Uptime Institute’s data center tier standards.
Tools and Techniques for Data Center Monitoring
Environmental Monitoring and Management
Temperature, humidity, and airflow monitoring.
Using ASHRAE guidelines for environmental conditions.
Tools and sensors for environmental monitoring.
Network Monitoring and Management
Importance of network monitoring in data centers.
Common tools for network monitoring: Zabbix, SolarWinds, Nagios, etc.
Best practices for network performance management and troubleshooting.
Security Monitoring
Threat detection and response in data centers.
Monitoring tools for intrusion detection and prevention.
Implementing security information and event management (SIEM) systems.
Advanced Monitoring Strategies and Automation
Advanced Monitoring Techniques
Implementing predictive analytics for proactive monitoring.
Machine learning and AI in data center monitoring.
Case studies on successful monitoring strategies.
Automation in Data Center Management
Introduction to automation tools: Ansible, Puppet, Chef, etc.
Automating routine tasks and incident response.
Scripting for automation in monitoring tools.
Integration of Monitoring Systems
Integrating different monitoring tools and systems.
Using APIs and webhooks for cross-platform monitoring.
Creating unified dashboards for comprehensive monitoring.
Data Center Management Best Practices
Change Management and Incident Response
Change management processes in data centers.
Incident response and disaster recovery planning.
Tools for change management and incident tracking.
Capacity Planning and Performance Management
Strategies for capacity planning and resource optimization.
Performance management for compute, storage, and network resources.
Using monitoring data for effective capacity planning.
Energy Management and Efficiency
Monitoring and managing energy usage in data centers.
Tools and techniques for energy efficiency.
Compliance with ASHRAE guidelines for energy management.
Introduction to Data Center Security
Overview of Data Center Security Principles
Importance of data center security.
Key threats and vulnerabilities in data centers.
Overview of security standards and frameworks (ISO 27001, NIST, PCI-DSS, etc.).
Physical Security in Data Centers
Best practices for physical security: access control, surveillance, and intrusion detection.
Designing secure layouts: building perimeters, mantraps, and secure zones.
Compliance with physical security standards (TIA-942, ISO 27001).
Introduction to Logical Security
Network segmentation and isolation strategies.
Implementing firewalls, IDS/IPS, and DDoS protection.
Best practices for securing servers, storage, and network devices.
Advanced Data Center Security Concepts
Cybersecurity for Data Centers
Threat landscape and emerging cybersecurity threats.
Implementing layered security (Defense in Depth).
Endpoint security and hardening strategies for data center environments.
Identity and Access Management (IAM)
Implementing robust IAM policies for data center environments.
Role-based access control (RBAC) and least privilege principles.
Tools and technologies for identity management (Active Directory, LDAP, etc.).
Security Monitoring and Incident Detection
Implementing security information and event management (SIEM) systems.
Setting up and managing security alerts and log analysis.
Techniques for detecting and responding to security incidents.
Compliance and Risk Management
Data Center Compliance Requirements
Understanding regulatory requirements: GDPR, HIPAA, PCI-DSS, etc.
Compliance management frameworks (ISO 27001, NIST CSF).
Conducting compliance audits and assessments.
Risk Management in Data Centers
Identifying and assessing risks in data centers.
Implementing risk mitigation strategies.
Developing risk management plans and conducting risk assessments.
Data Protection and Privacy
Data protection strategies: encryption, masking, and tokenization.
Implementing data retention and disposal policies.
Understanding data privacy laws and regulations.
Security Incident Response and Recovery
Incident Response Planning
Developing an incident response plan (IRP) for data centers.
Incident detection, classification, and escalation procedures.
Role of the incident response team and communication strategies.
Disaster Recovery and Business Continuity Planning
Building and implementing a disaster recovery (DR) plan.
Business continuity planning (BCP) for data center operations.
Conducting DR and BCP tests and drills.
Post-Incident Analysis and Reporting
Conducting a post-incident review (PIR) and root cause analysis (RCA).
Documentation and reporting of security incidents.
Implementing corrective actions and lessons learned.
Hands-on Labs and Real-World Scenarios
Hands-on Security Tools and Technologies
Practical exercises on configuring firewalls, IDS/IPS, and SIEM tools.
Implementing security policies using data center security management tools.
Role-playing exercises on incident response and crisis management.
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