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CompTIA A+/Network+/Security+/CySA+/CASP+

Course Length: 25 days
Certifications: CompTIA A+
CompTIA Network+
CompTIA Security+
CompTIA Cybersecurity Analyst (CySA+)

DoD Approved 8570: IAT Level I
DoD Approved 8570: IAT Level II, IAM Level I
DoD Approved 8570: CSSP Analyst, CSSP Infrastructure Support, CSSP Incident Responder, CSSP Auditor
Number of Exams: 6

Class Schedule
01/02/23 - 02/03/23

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01/30/23 - 03/03/23

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02/20/23 - 03/24/23

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03/20/23 - 04/21/23

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04/17/23 - 05/19/23

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05/08/23 - 06/23/23

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  • Certified Instructor
  • Includes all course materials

The CompTIA® A+® Core 1 and Core 2 (Exams 220-1101 and 220-1102) course provides the background knowledge and skills you will require to be a successful A+ technician. It will help you prepare to take the CompTIA A+ Core Series certification examinations, in order to become a CompTIA A+ Certified Professional.

The CompTIA Network+ (Exam N10-008) certification ensures that the successful candidate has the important knowledge and skills necessary to manage, maintain, troubleshoot, install, operate and configure basic network infrastructure, describe networking technologies, basic design principles, and adhere to wiring standards and use testing tools.

CompTIA Security+ (Exam SY0-601) is the primary course you will need to take if your job responsibilities include securing network services, network devices, and network traffic. It is also the main course you will take to prepare for the CompTIA Security+ examination. In this course, you'll build on your knowledge and professional experience with computer hardware, operating systems, and networks as you acquire the specific skills required to implement basic security services on any type of computer network.

CompTIA Cybersecurity Analyst (CySA+) is an international, vendor-neutral cybersecurity certification that applies behavioral analytics to improve the overall state of IT security. CySA+ validates critical knowledge and skills that are required to prevent, detect and combat cybersecurity threats.

The CompTIA Advanced Security Practitioner (CASP) Certification is a vendor-neutral credential. The CASP exam is an internationally targeted validation of advanced-level security skills and knowledge. While there is no required prerequisite, the CASP certification is intended to follow CompTIA Security+ or equivalent experience and has a technical, "hands-on" focus at the enterprise level.


A+ Certification

CompTIA A+ certified professionals are proven problem solvers. They support today's core technologies from security to networking to virtualization and more. CompTIA A+ is the industry standard for launching IT careers into today's digital world.

CompTIA A+ is the only industry recognized credential with performance testing to prove pros can think on their feet to perform critical IT support tasks. It is trusted by employers around the world to identify the go-to person in end point management & technical support roles. CompTIA A+ appears in more tech support job listings than any other IT credential.

The CompTIA A+ Core Series requires candidates to pass two exams: Core 1 (220-1101) and Core 2 (220-1102) covering the following new content, emphasizing the technologies and skills IT pros need to support a hybrid workforce.

  • Increased reliance on SaaS applications for remote work
  • More on troubleshooting and how to remotely diagnose and correct common software, hardware, or connectivity problems
  • Changing core technologies from cloud virtualization and IoT device security to data management and scripting
  • Multiple operating systems now encountered by technicians on a regular basis, including the major systems, their use cases, and how to keep them running properly
  • Reflects the changing nature of the job role, where many tasks are sent to specialized providers as certified personnel need to assess whether it's best to fix something on site, or to save time and money by sending proprietary technologies directly to vendors

Jobs that use A+

  • Help Desk Tech
  • Desktop Support Specialist
  • Field Service Technician
  • Help Desk Technician
  • Associate Network Engineer
  • System Support Technician
  • Junior Systems Administrator

Target Student:

This course is designed for individuals who have basic computer user skills and who are interested in obtaining a job as an entry-level IT technician. This course is also designed for students who are seeking the CompTIA A+ certification and who want to prepare for the CompTIA A+ 220-1101 (Core 1) Certification Exam and the CompTIA A+ 220-1102 (Core 2) Certification Exam.

Prerequisites:

To ensure your success in this course, you should have experience with basic computer user skills, be able to complete tasks in a Microsoft® Windows® environment, be able to search for, browse, and access information on the Internet, and have basic knowledge of computing concepts.

Course Content

CompTIA A+ 220-1101 (Core 1)

1.0 Mobile Devices
Given a scenario, install and configure laptop hardware and components.
  • Hardware/device replacement
  • Physical privacy and security components
Compare and contrast the display components of mobile devices.
  • Liquid crystal display (LCD)
  • Organic light-emitting diode (OLED)
  • Mobile display components
  • WiFi antenna connector/ placement
  • Camera/webcam
  • Microphone
  • Touch screen/digitizer
  • Inverter
Given a scenario, set up and configure accessories and ports of mobile devices.
  • Connection methods
  • Accessories
  • Docking station
  • Port replicator
  • Trackpad/drawing pad
Given a scenario, configure basic mobile-device network connectivity and application support.
  • Wireless/cellular data network (enable/disable)
  • Bluetooth
  • Location services
  • Mobile device management (MDM)/mobile application management (MAM)
  • Mobile device synchronization
2.0 Networking
Compare and contrast Transmission Control Protocol (TCP) and User Datagram Protocol (UDP) ports, protocols, and their purposes.
  • Ports and protocols
  • TCP vs. UDP
Compare and contrast common networking hardware.
  • Routers
  • Switches
  • Access points
  • Patch panel
  • Firewall
  • Power over Ethernet (PoE)
  • Hub
  • Cable modem
  • Digital subscriber line (DSL)
  • Optical network terminal (ONT)
  • Network interface card (NIC)
  • Software-defined networking (SDN)
Compare and contrast protocols for wireless networking.
  • Frequencies
  • Channels
  • Bluetooth
  • 802.11
  • Long-range fixed wireless
  • NFC
  • Radio-frequency identification (RFID)
Summarize services provided by networked hosts.
  • Server roles
  • Internet appliances
  • Legacy/embedded systems
  • Internet of Things (IoT) devices
Given a scenario, install and configure basic wired/wireless small office/home office (SOHO) networks.
  • IPv4
  • IPv6
  • Automatic Private IP Addressing (APIPA)
  • Static
  • Dynamic
  • Gateway
Compare and contrast common network configuration concepts.
  • DNS
  • DHCP
  • Virtual LAN (VLAN)
  • Virtual private network (VPN)
Compare and contrast Internet connection types, network types, and their features.
  • Internet connection types
  • Network types
Given a scenario, use networking tools.
  • Crimper
  • Cable stripper
  • WiFi analyzer
  • Toner probe
  • Punchdown tool
  • Cable tester
  • Loopback plug
  • Network tap
3.0 Hardware
Explain basic cable types and their connectors, features, and purposes.
  • Network cables
  • Peripheral cables
  • Video cables
  • Hard drive cables
  • Adapters
  • Connector types
Given a scenario, install the appropriate RAM.
  • RAM types
  • Single-channel
  • Dual-channel
  • Triple-channel
  • Quad-channel
Given a scenario, select and install storage devices.
  • Hard drives
  • SSDs
  • Drive configurations
  • Removable storage
Given a scenario, install and configure motherboards, central processing units (CPUs), and add-on cards.
  • Motherboard form factor
  • Motherboard connector types
  • Motherboard compatibility
  • Basic Input/Output System (BIOS)/Unified Extensible Firmware Interface (UEFI) settings
  • Encryption
  • CPU architecture
  • Expansion cards
  • Cooling
Given a scenario, install or replace the appropriate power supply.
  • Input 110-120 VAC vs. 220-240 VAC
  • Output 3.3V vs. 5V vs. 12V
  • 20-pin to 24-pin motherboard adapter
  • Redundant power supply
  • Modular power supply
  • Wattage rating
Given a scenario, deploy and configure multifunction devices/ printers and settings.
  • Properly unboxing a device - setup location considerations
  • Use appropriate drivers for a given OS
  • Device connectivity
  • Public/shared devices
  • Configuration settings
  • Security
  • Network scan services
  • Automatic document feeder (ADF)/flatbed scanner
Given a scenario, install and replace printer consumables.
  • Laser
  • Inkjet
  • Thermal
  • Impact
  • 3-D printer
4.0 Virtualization and Cloud Computing
Summarize cloud-computing concepts.
  • Common cloud models
  • Cloud characteristics
  • Desktop virtualization
Summarize aspects of client-side virtualization.
  • Purpose of virtual machines
  • Resource requirements
  • Security requirements
5.0 Hardware and Network Troubleshooting
Given a scenario, apply the best practice methodology to resolve problems.
  • Identify the problem
  • Establish a theory of probable cause (question the obvious)
  • Test the theory to determine the cause
  • Establish a plan of action to resolve the problem and implement the solution
  • Verify full system functionality and, if applicable, implement preventive measures
  • Document the findings, actions, and outcomes
Given a scenario, troubleshoot problems related to motherboards, RAM, CPU, and power.
  • Power-on self-test (POST) beeps
  • Proprietary crash screens (blue screen of death [BSOD]/ pinwheel)
  • Black screen
  • No power
  • Sluggish performance
  • Overheating
  • Burning smell
  • Intermittent shutdown
  • Application crashes
  • Grinding noise
  • Capacitor swelling
  • Inaccurate system date/time
Given a scenario, troubleshoot and diagnose problems with storage drives and RAID arrays.
  • Light-emitting diode (LED) status indicators
  • Grinding noises
  • Clicking sounds
  • Bootable device not found
  • Data loss/corruption
  • RAID failure
  • Self-monitoring, Analysis, and Reporting Technology (S.M.A.R.T.) failure
  • Extended read/write times
  • Input/output operations per second (IOPS)
  • Missing drives in OS
Given a scenario, troubleshoot video, projector, and display issues.
  • Incorrect data source
  • Physical cabling issues
  • Burned-out bulb
  • Fuzzy image
  • Display burn-in
  • Dead pixels
  • Flashing screen
  • Incorrect color display
  • Audio issues
  • Dim image
  • Intermittent projector shutdown
Given a scenario, troubleshoot common issues with mobile devices.
  • Poor battery health
  • Swollen battery
  • Broken screen
  • Improper charging
  • Poor/no connectivity
  • Liquid damage
  • Overheating
  • Digitizer issues
  • Physically damaged ports
  • Malware
  • Cursor drift/touch calibration
Given a scenario, troubleshoot and resolve printer issues.
  • Lines down the printed pages
  • Garbled print
  • Toner not fusing to paper
  • Paper jams
  • Faded print
  • Incorrect paper size
  • Paper not feeding
  • Multipage misfeed
  • Multiple prints pending in queue
  • Speckling on printed pages
  • Double/echo images on the print
  • Incorrect color settings
  • Grinding noise
  • Finishing issues
  • Incorrect page orientation
Given a scenario, troubleshoot problems with wired and wireless networks.
  • Intermittent wireless connectivity
  • Slow network speeds
  • Limited connectivity
  • Jitter
  • Poor Voice over Internet Protocol (VoIP) quality
  • Port flapping
  • High latency
  • External interference

CompTIA A+ 220-1102 (Core 2)

1.0 Operating Systems
Identify basic features of Microsoft Windows editions.
  • Windows 10 editions
  • Feature differences
  • Upgrade paths
Given a scenario, use the appropriate Microsoft command-line tool.
  • Navigation
  • Command-line tools
Given a scenario, use features and tools of the Microsoft Windows 10 operating system (OS).
  • Task Manager
  • Microsoft Management Console (MMC) snap-in
  • Additional tools
Given a scenario, use the appropriate Microsoft Windows 10 Control Panel utility.
  • Internet Options
  • Devices and Printers
  • Programs and Features
  • Network and Sharing Center
  • System
  • Windows Defender Firewall
  • Mail
  • Sound
  • User Accounts
  • Device Manager
  • Indexing Options
  • Administrative Tools
  • File Explorer Options
  • Power Options
  • Ease of Access
Given a scenario, use the appropriate Windows settings.
  • Time and Language
  • Update and Security
  • Personalization
  • Apps
  • Privacy
  • System
  • Devices
  • Network and Internet
  • Gaming
  • Accounts
Given a scenario, configure Microsoft Windows networking features on a client/desktop.
  • Workgroup vs. domain setup
  • Local OS firewall settings
  • Client network configuration
  • Establish network connections
  • Proxy settings
  • Public network vs. private network
  • File Explorer navigation - network paths
  • Metered connections and limitations
Given a scenario, apply application installation and configuration concepts.
  • System requirements for applications
  • OS requirements for applications
  • Distribution methods
  • Other considerations for new applications
Explain common OS types and their purposes.
  • Workstation OSs
  • Cell phone/tablet OSs
  • Various filesystem types
  • Vendor life-cycle limitations
  • Compatibility concerns between OSs
Given a scenario, perform OS installations and upgrades in a diverse OS environment.
  • Boot methods
  • Types of installations
  • Partitioning
  • Drive format
  • Upgrade considerations
  • Feature updates
Identify common features and tools of the macOS/desktop OS.
  • Installation and uninstallation of applications
  • Apple ID and corporate restrictions
  • Best practices
  • System Preferences
  • Features
  • Disk Utility
  • FileVault
  • Terminal
  • Force Quit
Identify common features and tools of the Linux client/desktop OS.
  • Common commands
  • Best practices
  • Tools
2.0 Security
Summarize various security measures and their purposes.
  • Physical security
  • Physical security for staff
  • Logical security
  • Mobile device management (MDM)
  • Active Directory
Compare and contrast wireless security protocols and authentication methods.
  • Protocols and encryption
  • Authentication
Given a scenario, detect, remove, and prevent malware using the appropriate tools and methods.
  • Malware
  • Tools and methods
Explain common social-engineering attacks, threats, and vulnerabilities.
  • Social engineering
  • Threats
  • Vulnerabilities
Given a scenario, manage and configure basic security settings in the Microsoft Windows OS.
  • Defender Antivirus
  • Firewall
  • Users and groups
  • Login OS options
  • NTFS vs. share permissions
  • Run as administrator vs. standard user
  • BitLocker
  • BitLocker To Go
  • Encrypting File System (EFS)
Given a scenario, configure a workstation to meet best practices for security.
  • Data-at-rest encryption
  • Password best practices
  • End-user best practices
  • Account management
  • Change default administrator's user account/password
  • Disable AutoRun
  • Disable AutoPlay
Explain common methods for securing mobile and embedded devices.
  • Screen locks
  • Remote wipes
  • Locator applications
  • OS updates
  • Device encryption
  • Remote backup applications
  • Failed login attempts restrictions
  • Antivirus/anti-malware
  • Firewalls
  • Policies and procedures
  • Internet of Things (IoT)
Given a scenario, use common data destruction and disposal methods.
  • Physical destruction
  • Recycling or repurposing best practices
  • Outsourcing concepts
Given a scenario, configure appropriate security settings on small office/home office (SOHO) wireless and wired networks.
  • Home router settings
  • Wireless specific
  • Firewall settings
Given a scenario, install and configure browsers and relevant security settings.
  • Browser download/installation
  • Extensions and plug-ins
  • Password managers
  • Secure connections/sites - valid certificates
  • Settings
3.0 Software Troubleshooting
Given a scenario, troubleshoot common Windows OS problems.
  • Common symptoms
  • Common troubleshooting steps
Given a scenario, troubleshoot common personal computer (PC) security issues.
  • Common symptoms
  • Browser-related symptoms
Given a scenario, use best practice procedures for malware removal.
  • Investigate and verify malware symptoms
  • Quarantine infected systems
  • Disable System Restore in Windows
  • Remediate infected systems
  • Schedule scans and run updates
  • Enable System Restore and create a restore point in Windows
  • Educate the end user
Given a scenario, troubleshoot common mobile OS and application issues.
  • Application fails to launch
  • Application fails to close/crashes
  • Application fails to update
  • Slow to respond
  • OS fails to update
  • Battery life issues
  • Randomly reboots
  • Connectivity issues
  • Screen does not autorotate
Given a scenario, troubleshoot common mobile OS and application security issues.
  • Security concerns
  • Common symptoms
4.0 Operational Procedures
Given a scenario, implement best practices associated with documentation and support systems information management.
  • Ticketing systems
  • Asset management
  • Types of documents
  • Knowledge base/articles
Explain basic change-management best practices.
  • Documented business processes
  • Change management
Given a scenario, implement workstation backup and recovery methods.
  • Backup and recovery
  • Backup testing
  • Backup rotation schemes
Given a scenario, use common safety procedures.
  • Electrostatic discharge (ESD) straps
  • ESD mats
  • Equipment grounding
  • Proper power handling
  • Proper component handling and storage
  • Antistatic bags
  • Compliance with government regulations
  • Personal safety
Summarize environmental impacts and local environmental controls.
  • Material safety data sheet (MSDS)/documentation for handling and disposal
  • Temperature, humidity-level awareness, and proper ventilation
  • Power surges, under-voltage events, and power failures
Explain the importance of prohibited content/activity and privacy, licensing, and policy concepts.
  • Incident response
  • Licensing/digital rights management (DRM)/end-user license agreement (EULA)
  • Regulated data
Given a scenario, use proper communication techniques and professionalism.
  • Professional appearance and attire
  • Use proper language and avoid jargon, acronyms, and slang, when applicable
  • Maintain a positive attitude/ project confidence
  • Actively listen, take notes, and avoid interrupting the customer
  • Be culturally sensitive
  • Be on time (if late, contact the customer)
  • Avoid distractions
  • Dealing with difficult customers or situations
  • Set and meet expectations/time line and communicate status with the customer
  • Deal appropriately with customers' confidential and private materials

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Network+ certification

CompTIA Network+ (Exam N10-008) helps develop a career in IT infrastructure covering troubleshooting, configuring, and managing networks.

CompTIA Network+ validates the technical skills needed to securely establish, maintain and troubleshoot the essential networks that businesses rely on.

Unlike other vendor-specific networking certifications, CompTIA Network+ prepares candidates to support networks on any platform. CompTIA Network+ is the only certification that covers the specific skills that network professionals need. Other certifications are so broad, they don't cover the hands-on skills and precise knowledge needed in today's networking environments.

CompTIA Network+ features flexible training options including self-paced learning, live online training, custom training and labs to advance the career development of IT professionals in network administration.

What Skills Will You Learn?

Networking Fundamentals

Explain basic networking concepts including network services, physical connections, topologies and architecture, and cloud connectivity.

Network Implementations

Explain routing technologies and networking devices; deploy ethernet solutions and configure wireless technologies.

Network Operations

Monitor and optimize networks to ensure business continuity.

Network Security

Explain security concepts and network attacks in order to harden networks against threats.

Network Troubleshooting

Troubleshoot common cable, connectivity, and software issues related to networking.

Jobs that use Network+

  • Junior Network Administrator
  • Datacenter Support Technician
  • Network Engineer
  • System Administrator
  • NOC Technician
  • Telecommunications Technician
  • Cable Technician

Course Outline

1.0 Networking Fundamentals
Compare and contrast the Open Systems Interconnection (OSI) model layers and encapsulation concepts.
  • OSI model
  • Data encapsulation and decapsulation within the OSI model context
Explain the characteristics of network topologies and network types.
  • Mesh
  • Star/hub-and-spoke
  • Bus
  • Ring
  • Hybrid
  • Network types and characteristics
  • Service-related entry point
  • Virtual network concepts
  • Provider links
Summarize the types of cables and connectors and explain which is the appropriate type for a solution.
  • Copper
  • Fiber
  • Connector types
  • Cable management
  • Ethernet standards
Given a scenario, configure a subnet and use appropriate IP addressing schemes.
  • Public vs. private
  • IPv4 vs. IPv6
  • IPv4 subnetting
  • IPv6 concepts
  • Virtual IP (VIP)
  • Subinterfaces
Explain common ports and protocols, their application, and encrypted alternatives.
  • File Transfer Protocol (FTP)
  • Secure Shell (SSH)
  • Secure File Transfer Protocol (SFTP)
  • Telnet
  • Simple Mail Transfer Protocol (SMTP)
  • Domain Name System (DNS)
  • Dynamic Host Configuration Protocol (DHCP)
  • Trivial File Transfer Protocol (TFTP)
  • Hypertext Transfer Protocol (HTTP)
  • Post Office Protocol v3 (POP3)
  • Network Time Protocol (NTP)
  • Internet Message Access Protocol (IMAP)
  • Simple Network Management Protocol (SNMP)
  • Lightweight Directory Access Protocol (LDAP)
  • Hypertext Transfer Protocol Secure (HTTPS) [Secure Sockets Layer (SSL)]
  • HTTPS [Transport Layer Security (TLS)]
  • Server Message Block (SMB)
  • Syslog
  • SMTP TLS
  • Lightweight Directory Access Protocol (over SSL) (LDAPS)
  • IMAP over SSL
  • POP3 over SSL
  • Structured Query Language (SQL) Server
  • SQLnet
  • MySQL
  • Remote Desktop Protocol (RDP)
  • Session Initiation Protocol (SIP)
  • IP protocol types
  • Connectionless vs. connection-oriented
Explain the use and purpose of network services.
  • DHCP
  • DNS
  • NTP
Explain basic corporate and datacenter network architecture.
  • Three-tiered
  • Software-defined networking
  • Spine and leaf
  • Traffic flows
  • Branch office vs. on-premises datacenter vs. colocation
  • Storage area networks
Summarize cloud concepts and connectivity options.
  • Deployment models
  • Service models
  • Infrastructure as code
  • Connectivity options
  • Multitenancy
  • Elasticity
  • Scalability
  • Security implications
2.0 Network Implementations
Compare and contrast various devices, their features, and their appropriate placement on the network.
  • Networking devices
  • Networked devices
Compare and contrast routing technologies and bandwidth management concepts.
  • Routing
  • Bandwidth management
Given a scenario, configure and deploy common Ethernet switching features.
  • Data virtual local area network (VLAN)
  • Voice VLAN
  • Port configurations
  • Media access control (MAC) address tables
  • Power over Ethernet (PoE)/ Power over Ethernet plus (PoE+)
  • Spanning Tree Protocol
  • Carrier-sense multiple access with collision detection (CSMA/CD)
  • Address Resolution Protocol (ARP)
  • Neighbor Discovery Protocol
Given a scenario, install and configure the appropriate wireless standards and technologies.
  • 802.11 standards
  • Frequencies and range
  • Channels
  • Channel bonding
  • Service set identifier (SSID)
  • Antenna types
  • Encryption standards
  • Cellular technologies
  • Multiple input, multiple output (MIMO) and multi-user MIMO (MU-MIMO)
3.0 Network Operations
Given a scenario, use the appropriate statistics and sensors to ensure network availability.
  • Performance metrics/sensors
  • SNMP
  • Network device logs
  • Interface statistics/status
  • Interface errors or alerts
  • Environmental factors and sensors
  • Baselines
  • NetFlow data
  • Uptime/downtime
Explain the purpose of organizational documents and policies.
  • Plans and procedures
  • Hardening and security policies
  • Common documentation
  • Common agreements
Explain high availability and disaster recovery concepts and summarize which is the best solution.
  • Load balancing
  • Multipathing
  • Network interface card (NIC) teaming
  • Redundant hardware/clusters
  • Facilities and infrastructure support
  • Redundancy and high availability (HA) concepts
  • Network device backup/restore
4.0 Network Security
Explain common security concepts.
  • Confidentiality, integrity, availability (CIA)
  • Threats
  • Vulnerabilities
  • Exploits
  • Least privilege
  • Role-based access
  • Zero Trust
  • Defense in depth
  • Authentication methods
  • Risk Management
  • Security information and event management (SIEM)
Compare and contrast common types of attacks.
  • Technology-based
  • Human and environmental
Given a scenario, apply network hardening techniques.
  • Best practices
  • Wireless security
  • IoT access considerations
Compare and contrast remote access methods and security implications.
  • Site-to-site VPN
  • Client-to-site VPN
  • Remote desktop connection
  • Remote desktop gateway
  • SSH
  • Virtual network computing (VNC)
  • Virtual desktop
  • Authentication and authorization considerations
  • In-band vs. out-of-band management
Explain the importance of physical security.
  • Detection methods
  • Prevention methods
  • Asset disposal
5.0 Network Troubleshooting
Explain the network troubleshooting methodology.
  • Identify the problem
  • Establish a theory of probable cause
  • Test the theory to determine the cause
  • Establish a plan of action to resolve the problem and identify potential effects
  • Implement the solution or escalate as necessary
  • Verify full system functionality and, if applicable, implement preventive measures
  • Document findings, actions, outcomes, and lessons learned
Given a scenario, troubleshoot common cable connectivity issues and select the appropriate tools.
  • Specifications and limitations
  • Cable considerations
  • Cable application
  • Common issues
  • Common tools
Given a scenario, use the appropriate network software tools and commands.
  • Software tools
  • Command line tool
  • Basic network platform commands
Given a scenario, troubleshoot common wireless connectivity issues.
  • Specifications and limitations
  • Considerations
  • Common issues
Given a scenario, troubleshoot general networking issues.
  • Considerations
  • Common issues

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Security+ certification

CompTIA Security+ is a global certification that validates the baseline skills necessary to perform core security functions and pursue an IT security career.

Why is it different?

More choose Security+ - chosen by more corporations and defense organizations than any other certification on the market to validate baseline security skills and for fulfilling the DoD 8570 compliance.

Security+ proves hands-on skills - the only baseline cybersecurity certification emphasizing hands-on practical skills, ensuring the security professional is better prepared to problem solve a wider variety of today's complex issues.

More job roles turn to Security+ to supplement skills - baseline cybersecurity skills are applicable across more of today's job roles to secure systems, software and hardware.

Security+ is aligned to the latest trends and techniques - covering the most core technical skills in risk assessment and management, incident response, forensics, enterprise networks, hybrid/cloud operations, and security controls, ensuring high-performance on the job.

What Skills Will You Learn?

Attacks, Threats and Vulnerabilities

Focusing on more threats, attacks, and vulnerabilities on the Internet from newer custom devices that must be mitigated, such as IoT and embedded devices, newer DDoS attacks, and social engineering attacks based on current events.

Architecture and Design

Includes coverage of enterprise environments and reliance on the cloud, which is growing quickly as organizations transition to hybrid networks.

Implementation

Expanded to focus on administering identity, access management, PKI, basic cryptography, wireless, and end-to-end security.

Operations and Incident Response

Covering organizational security assessment and incident response procedures, such as basic threat detection, risk mitigation techniques, security controls, and basic digital forensics.

Governance, Risk and Compliance

Expanded to support organizational risk management and compliance to regulations, such as PCI-DSS, SOX, HIPAA, GDPR, FISMA, NIST, and CCPA.

Jobs that use CompTIA Security+

  • Security Administrator
  • Systems Administrator
  • Helpdesk Manager / Analyst
  • Network / Cloud Engineer
  • Security Engineer / Analyst
  • DevOps / Software Developer
  • IT Auditors
  • IT Project Manager

Exam: SY0-601

CompTIA Security+ is the first security certification a candidate should earn. It establishes the core knowledge required of any cybersecurity role and provides a springboard to intermediate-level cybersecurity jobs. Security+ incorporates best practices in hands-on troubleshooting, ensuring candidates have practical security problem-solving skills required to:

  • Assess the security posture of an enterprise environment and recommend and implement appropriate security solutions
  • Monitor and secure hybrid environments, including cloud, mobile, and IoT
  • Operate with an awareness of applicable laws and policies, including principles of governance, risk, and compliance
  • Identify, analyze, and respond to security events and incidents

Security+ is compliant with ISO 17024 standards and approved by the US DoD to meet directive 8140/8570.01-M requirements. Regulators and government rely on ANSI accreditation, because it provides confidence and trust in the outputs of an accredited program. Over 2.3 million CompTIA ISO/ANSI-accredited exams have been delivered since January 1, 2011.

Course Content

1.0 Threats, Attacks, and Vulnerabilities
Compare and contrast different types of social engineering techniques.
  • Phishing
  • Smishing
  • Vishing
  • Spam
  • Spam over instant messaging (SPIM)
  • Spear phishing
  • Dumpster diving
  • Shoulder surfing
  • Pharming
  • Tailgating
  • Eliciting information
  • Whaling
  • Prepending
  • Identity fraud
  • Invoice scams
  • Credential harvesting
  • Reconnaissance
  • Hoax
  • Impersonation
  • Watering hole attack
  • Typosquatting
  • Pretexting
  • Influence campaigns
  • Principles (reasons for effectiveness)
Given a scenario, analyze potential indicators to determine the type of attack.
  • Malware
  • Password attacks
  • Physical attacks
  • Adversarial artificial intelligence (AI)
  • Supply-chain attacks
  • Cloud-based vs. on-premises attacks
  • Cryptographic attacks
Given a scenario, analyze potential indicators associated with application attacks.
  • Privilege escalation
  • Cross-site scripting
  • Injections
  • Pointer/object dereference
  • Directory traversal
  • Buffer overflows
  • Race conditions
  • Error handling
  • Improper input handling
  • Replay attack
  • Integer overflow
  • Request forgeries
  • Application programming interface (API) attacks
  • Resource exhaustion
  • Memory leak
  • Secure Sockets Layer (SSL) stripping
  • Driver manipulation
  • Pass the hash
Given a scenario, analyze potential indicators associated with network attacks.
  • Wireless
  • On-path attack
  • Layer 2 attacks
  • Domain name system (DNS)
  • Distributed denial-of-service (DDoS)
  • Malicious code or script execution
Explain different threat actors, vectors, and intelligence sources.
  • Actors and threats
  • Attributes of actors
  • Vectors
  • Threat intelligence sources
  • Research sources
Explain the security concerns associated with various types of vulnerabilities.
  • Cloud-based vs. on-premises vulnerabilities
  • Zero-day
  • Weak configurations
  • Third-party risks
  • Improper or weak patch management
  • Legacy platforms
  • Impacts
Summarize the techniques used in security assessments.
  • Threat hunting
  • Vulnerability scans
  • Syslog/Security information and event management (SIEM
  • Security orchestration, automation, and response (SOAR)
Explain the techniques used in penetration testing.
  • Penetration testing
  • Passive and active reconnaissance
  • Exercise types
2.0 Architecture and Design
Explain the importance of security concepts in an enterprise environment.
  • Configuration management
  • Data sovereignty
  • Data protection
  • Geographical considerations
  • Response and recovery controls
  • Secure Sockets Layer (SSL)/Transport Layer Security (TLS) inspection
  • Hashing
  • API considerations
  • Site resiliency
  • Deception and disruption
Summarize virtualization and cloud computing concepts.
  • Cloud models
  • Cloud service providers
  • Managed service provider (MSP)/ managed security service provider (MSSP)
  • On-premises vs. off-premises
  • Fog computing
  • Edge computing
  • Thin client
  • Containers
  • Microservices/API
  • Infrastructure as code
  • Serverless architecture
  • Services integration
  • Resource policies
  • Transit gateway
  • Virtualization
Summarize secure application development, deployment, and automation concepts.
  • Environment
  • Provisioning and deprovisioning
  • Integrity measurement
  • Secure coding techniques
  • Open Web Application Security Project (OWASP)
  • Software diversity
  • Automation/scripting
  • Elasticity
  • Scalability
  • Version control
Summarize authentication and authorization design concepts.
  • Authentication methods
  • Biometrics
  • Multifactor authentication (MFA) factors and attributes
  • Authentication, authorization, and accounting (AAA)
  • Cloud vs. on-premises requirements
Given a scenario, implement cybersecurity resilience.
  • Redundancy
  • Replication
  • On-premises vs. cloud
  • Backup types
  • Non-persistence
  • High availability
  • Restoration order
  • Diversity
Explain the security implications of embedded and specialized systems.
  • Embedded systems
  • Supervisory control and data acquisition (SCADA)/industrial control system (ICS)
  • Internet of Things (IoT)
  • Specialized
  • Voice over IP (VoIP)
  • Heating, ventilation, air conditioning (HVAC)
  • Drones
  • Multifunction printer (MFP)
  • Real-time operating system (RTOS)
  • Surveillance systems
  • System on chip (SoC)
  • Communication considerations
  • Constraints
Explain the importance of physical security controls.
  • Bollards/barricades
  • Access control vestibules
  • Badges
  • Alarms
  • Signage
  • Cameras
  • Closed-circuit television (CCTV)
  • Industrial camouflage
  • Personnel
  • Locks
  • USB data blocker
  • Lighting
  • Fencing
  • Fire suppression
  • Sensors
  • Drones
  • Visitor logs
  • Faraday cages
  • Air gap
  • Screened subnet (previously known as demilitarized zone)
  • Protected cable distribution
  • Secure areas
  • Secure data destruction
Summarize the basics of cryptographic concepts.
  • Digital signatures
  • Key length
  • Key stretching
  • Salting
  • Hashing
  • Key exchange
  • Elliptic-curve cryptography
  • Perfect forward secrecy
  • Quantum
  • Post-quantum
  • Ephemeral
  • Modes of operation
  • Blockchain
  • Cipher suites
  • Symmetric vs. asymmetric
  • Lightweight cryptography
  • Steganography
  • Homomorphic encryption
  • Common use cases
  • Limitations
3.0 Implementation
Given a scenario, implement secure protocols.
  • Protocols
  • Use cases
Given a scenario, implement host or application security solutions.
  • Endpoint protection
  • Boot integrity
  • Database
  • Application security
  • Hardening
  • Self-encrypting drive (SED)/ full-disk encryption (FDE)
  • Hardware root of trust
  • Trusted Platform Module (TPM)
  • Sandboxing
Given a scenario, implement secure network designs.
  • Load balancing
  • Network segmentation
  • Virtual private network (VPN)
  • DNS
  • Network access control (NAC)
  • Out-of-band management
  • Port security
  • Network appliances
  • Access control list (ACL)
  • Route security
  • Quality of service (QoS)
  • Implications of IPv6
  • Port spanning/port mirroring
  • Monitoring services
  • File integrity monitors
Given a scenario, install and configure wireless security settings.
  • Cryptographic protocols
  • Authentication protocols
  • Methods
  • Installation considerations
Given a scenario, implement secure mobile solutions
  • Connection methods and receivers
  • Mobile device management (MDM)
  • Mobile devices
  • Enforcement and monitoring
  • Deployment models
Given a scenario, apply cybersecurity solutions to the cloud.
  • Cloud security controls
  • Solutions
  • Cloud native controls vs. third-party solutions
Given a scenario, implement identity and account management controls.
  • Identity
  • Account types
  • Account policies
Given a scenario, implement authentication and authorization solutions.
  • Authentication management
  • Authentication/authorization
  • Access control schemes
Given a scenario, implement public key infrastructure.
  • Public key infrastructure (PKI)
  • Types of certificates
  • Certificate formats
  • Concepts
4.0 Operations and Incident Response
Given a scenario, use the appropriate tool to assess organizational security.
  • Network reconnaissance and discovery
  • File manipulation
  • Shell and script environments
  • Packet capture and replay
  • Forensics
  • Exploitation frameworks
  • Password crackers
  • Data sanitization
Summarize the importance of policies, processes, and procedures for incident response.
  • Incident response plans
  • Incident response process
  • Exercises
  • Attack frameworks
  • Stakeholder management
  • Communication plan
  • Disaster recovery plan
  • Business continuity plan
  • Continuity of operations planning (COOP)
  • Incident response team
  • Retention policies
Given an incident, utilize appropriate data sources to support an investigation.
  • Vulnerability scan output
  • SIEM dashboards
  • Log files
  • syslog/rsyslog/syslog-ng
  • journalctl
  • NXLog
  • Bandwidth monitors
  • Metadata
  • Netflow/sFlow
  • Protocol analyzer output
Given an incident, apply mitigation techniques or controls to secure an environment
  • Reconfigure endpoint security solutions
  • Configuration changes
  • Isolation
  • Containment
  • Segmentation
  • SOAR
Explain the key aspects of digital forensics.
  • Documentation/evidence
  • Acquisition
  • On-premises vs. cloud
  • Integrity
  • Preservation
  • E-discovery
  • Data recovery
  • Non-repudiation
  • Strategic intelligence/ counterintelligence
5.0 Governance, Risk, and Compliance
Compare and contrast various types of controls.
  • Category
  • Control type
Explain the importance of applicable regulations, standards, or frameworks that impact organizational security posture.
  • Regulations, standards, and legislation
  • Key frameworks
  • Benchmarks /secure configuration guides
Explain the importance of policies to organizational security.
  • Personnel
  • Diversity of training techniques
  • Third-party risk management
  • Data
  • Credential policies
  • Organizational policies
Summarize risk management processes and concepts.
  • Risk types
  • Risk management strategies
  • Risk analysis
  • Disasters
  • Business impact analysis
Explain privacy and sensitive data concepts in relation to security
  • Organizational consequences of privacy and data breaches
  • Notifications of breaches
  • Data types
  • Privacy enhancing technologies
  • Roles and responsibilities
  • Information life cycle
  • Impact assessment
  • Terms of agreement
  • Privacy notice

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CompTIA Cybersecurity Analyst (CySA+)

CompTIA Cybersecurity Analyst (CySA+) is an international, vendor-neutral cybersecurity certification that applies behavioral analytics to improve the overall state of IT security. CySA+ validates critical knowledge and skills that are required to prevent, detect and combat cybersecurity threats.

Overview

As attackers have learned to evade traditional signature-based solutions such as firewalls, an analytics-based approach within the IT security industry is increasingly important for most organizations. The behavioral analytics skills covered by CySA+ identify and combat malware, and advanced persistent threats (APTs), resulting in enhanced threat visibility across a broad attack surface. CompTIA CySA+ is for IT professionals looking to gain the following security analyst skills:

  • Configure and use threat detection tools.
  • Perform data analysis.
  • Interpret the results to identify vulnerabilities, threats and risks to an organization.
CySA+ certified skills are in-demand

Properly trained IT security staff who can analyze, monitor and protect cybersecurity resources are in high demand. The U.S. Bureau of Labor Statistics (BLS) predicts that information security analysts will be the fastest growing overall job category, with 37 percent overall growth between 2012 and 2022.

CySA+ is globally recognized

CompTIA CySA+ is ISO/ANSI 17024 accredited and is awaiting approval by the U.S. Department of Defense (DoD) for directive 8140/8570.01-M requirements.

CySA+ provides substantial earnings potential

A career in information security analysis ranked seventh on U.S. News and World Report's list of the 100 best technology jobs for 2017. According to the Bureau of Labor Statistics, the median pay for an information security analyst is $90,120 per year.

Target Student

The CompTIA CySA+ examination is designed for IT security analysts, vulnerability analysts or threat intelligence analysts. The exam will certify that the successful candidate has the knowledge and skills required to configure and use threat detection tools, perform data analysis and interpret the results to identify vulnerabilities, threats and risks to an organization with the end goal of securing and protecting applications and systems within an organization.

Prerequisite

The CompTIA CySA+ exam is an internationally targeted validation of intermediate-level security skills and knowledge. While there is no required prerequisite, the CompTIA CySA+ certification is intended to follow CompTIA Security+ or equivalent experience and has a technical, "hands-on" focus on IT security analytics.

It is recommended for CompTIA CySA+ certification candidates to have the following:

  • 3-4 years of hands-on information security or related experience
  • Network+, Security+ or equivalent knowledge

Course Content

Threat Management
  • Given a scenario, apply environmental reconnaissance techniques using appropriate tools and processes.
  • Given a scenario, analyze the results of a network reconnaissance.
  • Given a network-based threat, implement or recommend the appropriate response and countermeasure.
  • Explain the purpose of practices used to secure a corporate environment.
Vulnerability Management
  • Given a scenario, implement an information security vulnerability management process.
  • Given a scenario, analyze the output resulting from a vulnerability scan.
  • Compare and contrast common vulnerabilities found in the following targets within an organization.
Cyber Incident Response
  • Given a scenario, distinguish threat data or behavior to determine the impact of an incident.
  • Given a scenario, prepare a toolkit and use appropriate forensics tools during an investigation.
  • Explain the importance of communication during the incident response process.
  • Given a scenario, analyze common symptoms to select the best course of action to support incident response.
  • Summarize the incident recovery and post-incident response process.
Security Architecture and Tool Sets
  • Explain the relationship between frameworks, common policies, controls, and procedures.
  • Given a scenario, use data to recommend remediation of security issues related to identity and access management.
  • Given a scenario, review security architecture and make recommendations to implement compensating controls.
  • Given a scenario, use application security best practices while participating in the Software Development Life Cycle (SDLC).
  • Compare and contrast the general purpose and reasons for using various cybersecurity tools and technologies.

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CompTIA Advanced Security Practitioner (CASP)

CompTIA Advanced Security Practitioner (CASP+) CAS-004 is an advanced-level cybersecurity certification for security architects and senior security engineers charged with leading and improving an enterprise's cybersecurity readiness.

Why is CASP+ Different?

CASP+ is the only hands-on, performance-based certification for advanced practitioners - not managers - at the advanced skill level of cybersecurity. While cybersecurity managers help identify what cybersecurity policies and frameworks could be implemented, CASP+ certified professionals figure out how to implement solutions within those policies and frameworks.

Unlike other certifications, CASP+ covers both security architecture and engineering - CASP+ is the only certification on the market that qualifies technical leaders to assess cyber readiness within an enterprise, and design and implement the proper solutions to ensure the organization is ready for the next attack.

What Skills Will You Learn?

Security Architecture

Expanded coverage to analyze security requirements in hybrid networks to work toward an enterprise-wide, zero trust security architecture with advanced secure cloud and virtualization solutions.

Security Operations

Expanded emphasis on newer techniques addressing advanced threat management, vulnerability management, risk mitigation, incident response tactics, and digital forensics analysis.

Governance, Risk, and Compliance

Expanded to support advanced techniques to prove an organization's overall cybersecurity resiliency metric and compliance to regulations, such as CMMC, PCI-DSS, SOX, HIPAA, GDPR, FISMA, NIST, and CCPA.

Security Engineering and Cryptography

Expanded to focus on advanced cybersecurity configurations for endpoint security controls, enterprise mobility, cloud/hybrid environments, and enterprise-wide PKI and cryptographic solutions.

Jobs That Use CASP+

  • Security Architect
  • Senior Security Engineer
  • SOC Manager
  • Security Analyst

Class Outline

1.0 Security Architecture

Given a scenario, analyze the security requirements and objectives to ensure an appropriate, secure network architecture for a new or existing network.
  • Services
  • Segmentation
  • Deperimeterization/zero trust
  • Merging of networks from various organizations
  • Software-defined networking (SDN)
Given a scenario, analyze the organizational requirements to determine the proper infrastructure security design.
  • Scalability
  • Resiliency
  • Performance
  • Automation
  • Containerization
  • Virtualization
  • Content delivery network
  • Caching
Given a scenario, integrate software applications securely into an enterprise architecture.
  • Baseline and templates
  • Software assurance
  • Considerations of integrating enterprise applications
  • Integrating security into development life cycle
Given a scenario, implement data security techniques for securing enterprise architecture.
  • Data loss prevention
  • Data loss detection
  • Data classification, labeling, and tagging
  • Obfuscation
  • Anonymization
  • Encrypted vs. unencrypted
  • Data life cycle
  • Data inventory and mapping
  • Data integrity management
  • Data storage, backup, and recovery
Given a scenario, analyze the security requirements and objectives to provide the appropriate authentication and authorization controls.
  • Credential management
  • Password policies
  • Federation
  • Access control
  • Protocols
  • Multifactor authentication (MFA)
  • One-time password (OTP)
  • Hardware root of trust
  • Single sign-on (SSO)
  • JavaScript Object Notation (JSON) web token (JWT)
  • Attestation and identity proofing
Given a set of requirements, implement secure cloud and virtualization solutions
  • Virtualization strategies
  • Provisioning and deprovisioning
  • Middleware
  • Metadata and tags
  • Deployment models and considerations
  • Hosting models
  • Service models
  • Cloud provider limitations
  • Extending appropriate on-premises controls
  • Storage models
Explain how cryptography and public key infrastructure (PKI) support security objectives and requirements.
  • Privacy and confidentiality requirements
  • Integrity requirements
  • Non-repudiation
  • Compliance and policy requirements
  • Common cryptography use cases
  • Common PKI use cases
Explain the impact of emerging technologies on enterprise security and privacy.
  • Artificial intelligence
  • Machine learning
  • Quantum computing
  • Blockchain
  • Homomorphic encryption
  • Secure multiparty computation
  • Distributed consensus
  • Big Data
  • Virtual/augmented reality
  • 3-D printing
  • Passwordless authentication
  • Nano technology
  • Deep learning
  • Biometric impersonation

2.0 Security Operations

Given a scenario, perform threat management activities.
  • Intelligence types
  • Actor types
  • Threat actor properties
  • Intelligence collection methods
  • Frameworks
Given a scenario, analyze indicators of compromise and formulate an appropriate response.
  • Indicators of compromise
  • Response
Given a scenario, perform vulnerability management activities.
  • Vulnerability scans
  • Security Content Automation Protocol (SCAP)
  • Self-assessment vs. third- party vendor assessment
  • Patch management
  • Information sources
Given a scenario, use the appropriate vulnerability assessment and penetration testing methods and tools.
  • Methods
  • Tools
  • Dependency management
  • Requirements
Given a scenario, analyze vulnerabilities and recommend risk mitigations.
  • Vulnerabilities
  • Inherently vulnerable system/application
  • Attacks
Given a scenario, use processes to reduce risk.
  • Proactive and detection
  • Security data analytics
  • Preventive
  • Application control
  • Security automation
  • Physical security
Given an incident, implement the appropriate response.
  • Event classifications
  • Triage event
  • Preescalation tasks
  • Incident response process
  • Specific response playbooks/processes
  • Communication plan
  • Stakeholder management
Explain the importance of forensic concepts.
  • Legal vs. internal corporate purposes
  • Forensic process
  • Integrity preservation
  • Cryptanalysis
  • Steganalysis
Given a scenario, use forensic analysis tools.
  • File carving tools
  • Binary analysis tools
  • Analysis tools
  • Imaging tools
  • Hashing utilities
  • Live collection vs. post-mortem tools

3.0 Security Engineering and Cryptography

Given a scenario, apply secure configurations to enterprise mobility.
  • Managed configurations
  • Deployment scenarios
  • Security considerations
Given a scenario, configure and implement endpoint security controls.
  • Hardening techniques
  • Processes
  • Mandatory access control
  • Trustworthy computing
  • Compensating controls
Explain security considerations impacting specific sectors and operational technologies.
  • Embedded
  • ICS/supervisory control and data acquisition (SCADA)
  • Protocols
  • Sectors
Explain how cloud technology adoption impacts organizational security.
  • Automation and orchestration
  • Encryption configuration
  • Logs
  • Monitoring configurations
  • Key ownership and location
  • Key life-cycle management
  • Backup and recovery methods
  • Infrastructure vs. serverless computing
  • Application virtualization
  • Software-defined networking
  • Misconfigurations
  • Collaboration tools
  • Storage configurations
  • Cloud access security broker (CASB)
Given a business requirement, implement the appropriate PKI solution.
  • PKI hierarchy
  • Certificate types
  • Certificate usages/profiles/templates
  • Extensions
  • Trusted providers
  • Trust model
  • Cross-certification
  • Configure profiles
  • Life-cycle management
  • Public and private keys
  • Digital signature
  • Certificate pinning
  • Certificate stapling
  • Certificate signing requests (CSRs)
  • Online Certificate Status Protocol (OCSP) vs. certificate revocation list (CRL)
  • HTTP Strict Transport Security (HSTS)
Given a business requirement, implement the appropriate cryptographic protocols and algorithms.
  • Hashing
  • Symmetric algorithms
  • Asymmetric algorithms
  • Protocols
  • Elliptic curve cryptography
  • Forward secrecy
  • Authenticated encryption with associated data
  • Key stretching
Given a scenario, troubleshoot issues with cryptographic implementations.
  • Implementation and configuration issues
  • Keys

4.0 Governance, Risk, and Compliance

Given a set of requirements, apply the appropriate risk strategies.
  • Risk assessment
  • Risk handling techniques
  • Risk types
  • Risk management life cycle
  • Risk tracking
  • Risk appetite vs. risk tolerance
  • Policies and security practices
Explain the importance of managing and mitigating vendor risk.
  • Shared responsibility model (roles/responsibilities)
  • Vendor lock-in and vendor lockout
  • Vendor viability
  • Meeting client requirements
  • Support availability
  • Geographical considerations
  • Supply chain visibility
  • Incident reporting requirements
  • Source code escrows
  • Ongoing vendor assessment tools
  • Third-party dependencies
  • Technical considerations
Explain compliance frameworks and legal considerations, and their organizational impact.
  • Security concerns of integrating diverse industries
  • Data considerations
  • Geographic considerations
  • Third-party attestation of compliance
  • Regulations, accreditations, and standards
  • Legal considerations
  • Contract and agreement types
Explain the importance of business continuity and disaster recovery concepts.
  • Business impact analysis
  • Privacy impact assessment
  • Disaster recovery plan (DRP)/ business continuity plan (BCP)
  • Incident response plan
  • Testing plans

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