Course Overview:

TechNow’s Course ensures that you are ready to test for the CCNA Certification. This intensive ten-day program is a high end, hands-on, bootcamp using physical routers & switches in classroom.  Students will learn how to install, operate, configure, and verify basic IPv4 and IPv6 networks. The course covers configuring network components such as switches, routers, and wireless LAN controllers; managing network devices; and identifying basic security threats. The course also gives you a foundation in network programmability, automation, and software-defined networking. Additionally the course stress tests the students on exam practices that insure the student a successful outcome on the 200-301 CCNA exam.

This course is available for group purchasing with a minimum of 4 students. Please call to get scheduling availability.

Attendees to N-310: CCNA Extended Bootcamp will receive TechNow approved course materials and expert instruction.

Date/Locations:

This course is available for group purchasing with a minimum of 4 students. Please call to get scheduling availability. (210) 733-1093

No Events

Duration: 10 days

Course Objectives:

    • Identify the components of a computer network and describe their basic characteristics
    • Understand the model of host-to-host communication
    • Describe the features and functions of the Cisco Internetwork Operating Systems (IOS) software
    • Describe LANs and the role of switches within LANs
    • Describe Ethernet as the network access layer of TCP/IP and describe the operation of switches
    • Install a switch and perform the initial configuration
    • Describe the TCP/IP Internet layer, IPv4, its addressing scheme, and subnetting
    • Describe the TCP/IP Transport layer and Application layer
    • Explore functions of routing
    • Implement basic configuration on a Cisco router
    • Explain host-to-host communications across switches and routers
    • Identify and resolve common switched network issues and common problems associated with IPv4 addressing
    • Describe IPv6 main features and addresses, and configure and verify basic IPv6 connectivity
    • Describe the operation, benefits, and limitations of static routing
    • Describe, implement, and verify Virtual Local Area Networks (VLANs) and trunks
    • Describe the application and configuration of inter-VLAN routing
    • Explain the basics of dynamic routing protocols and describe components and terms of Open Shortest Path First (OSPF)
    • Explain how Spanning Tree Protocol (STP) and Rapid Spanning Tree Protocol (RSTP) work
    • Configure link aggregation using EtherChannel
    • Describe the purpose of Layer 3 redundancy protocols
    • Describe basic WAN and VPN concepts
    • Describe the operation of Access Control Lists (ACLs) and their applications in the network
    • Configure Internet access using Dynamic Host Configuration Protocol (DHCP) clients and explain and configure Network Address Translation (NAT) on Cisco routers
    • Describe basic Quality of Service (QoS) concept
    • Describe network and device architectures and introduce virtualization
    • Introduce the concept of network programmability and Software-Defined Networking (SDN)
    • Configure basic IOS system monitoring tools
    • Describe the management of Cisco devices
    • Describe the current security threat landscape
    • Describe threat defense technologies
    • Implement a basic security configuration of the device management plane
    • Implement basic steps to harden network devices

Lab Objectives:

      • Get started with Cisco Command-Line Interface (CLI)
      • Observe How a Switch Operates
      • Perform Basic Switch Configuration
      • Implement the Initial Switch Configuration
      • Inspect TCP/IP Applications
      • Configure an Interface on a Cisco Router
      • Configure and Verify Layer 2 Discovery Protocols
      • Implement an Initial Router Configuration
      • Configure Default Gateway
      • Explore Packet Forwarding
      • Troubleshoot switch Media and Port Issues
      • Troubleshoot Port Duplex Issues
      • Configure Basic IPv6 Connectivity
      • Configure and Verify IPv4 Static Routes
      • Configure Iv6 Static Routes
      • Implement IPv4 Static Routing
      • Implement IPv6 Static Routing
      • Configure VLAN and Trunk
      • Troubleshoot VLANs and Trunk
      • Configure a Router on a Stick
      • Implement Multiple VLANs and Basic Routing Between the VLANs
      • Configure and Verify Single-Area OSPF
      • Configure and Verify EtherChannel
      • Improve Redundant Switched Topologies with EtherChannel
      • Configure and Verify IPv4 ACLs
      • Implement Numbered and Named IPv4 ACLs
      • Configure a Provider-Assigned IPv4 Address
      • Configure Static NAT
      • Configure Dynamic NAT and Port Address Translation (PAT)
      • Implement PAT
      • Log into the WLC
      • Monitor the WLC
      • Configure a Dynamic (VLAN) Interface
      • Configure a DHCP Scope
      • Configure a WLAN
      • Define a Remote Access Dial-In User Service (RADIUS) Server
      • Explore Management Options
      • Explore the Cisco DNA Center
      • Configure and Verify NTP
      • Configure System Message Logging
      • Create the Cisco IOS Image Backup
      • Upgrade Cisco IOS Image
      • Configure WLAN Using Wi-Fi Protected Access 2 (WPA2) Pre-Shared Key (PSK) Using the GUI
      • Secure Console and Remote Access
      • Enable and Limit Remote Access Connectivity
      • Secure Device Administrative Access
      • Configure and Verify Port Security
      • Implement Device Hardening

Prerequisites:

      • Familiarity in the following networking topics:
        • TCP/IP
        • IP Configuration
        • Peer-to-Peer Networking
        • Subnetting
        • Building a Routing Table
      • It is not required but highly recommended to have the following certifications:

Comments

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User: kdinivahi29

Instructor comments: The instructor Mr. Tom Bigger has done a terrific job of substantiating the textbook content with hands on labs. He has been patient and ensure that we understood the material


User: MikeWisn

Instructor comments: Did exceptional job explaining complicated concepts.

Facilities comments: Hotel front desk phone ringing loudly during class was distracting.


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CompTIA SecAI+ is the first certification in CompTIA’s expansion series, designed to help you secure, govern and responsibly integrate artificial intelligence into your cybersecurity operations. You’ll build the skills to defend AI systems, meet global compliance expectations and use AI to enhance threat detection, automation and innovation—so you can strengthen your expertise and help keep your organization’s systems and data secure.

SecAI+ helps you build practical AI security and automation skills on top of your existing expertise, so you can secure AI deployments, use AI‑assisted security tools with confidence, and stay ready for the next step in your cybersecurity career.

Course Objectives:

  • Apply AI concepts to strengthen your organization’s cybersecurity posture
  • Secure AI systems using advanced controls and protections to safeguard data, models, and infrastructure
  • Leverage AI technologies to automate workflows, accelerate incident response, and scale security operations
  • Navigate global GRC frameworks to ensure ethical and compliant AI adoption across industries
  • Defend against AI-driven threats like adversarial attacks, automated malware, and malicious use of generative AI
  • Integrate AI securely into DevSecOps pipelines and enterprise security strategies.

Dates/Locations:

No Events

Prerequisites: Recommended experience: 3–4 years in IT and 2+ years hands-on cybersecurity; Security+, CySA+, PenTest+, or equivalent recommended

SecAI+ (V1) exam objectives summary

     Basic AI concepts related to cybersecurity (17%)

  • Explain core AI principles and terminology: Machine learning, deep learning, natural language processing, and automation.
  • Identify AI applications in security: Use cases for AI in threat detection, defense, and security operations. 
  • Recognize AI-driven threats: Automated phishing, polymorphic malware, adversarial machine learning, and malicious use of generative AI.

Securing AI systems (40%)

  • Implement security controls: Protect AI systems, data, and models using robust technical safeguards. 
  • Secure AI deployment environments: Apply best practices across on-premises, cloud, and hybrid infrastructures. 
  • Mitigate adversarial risks: Defend against attacks targeting AI models, data pipelines, and inference layers. 

AI-assisted security (24%)

  • Enhance detection and response: Use AI-driven tools to identify anomalies, detect threats, and accelerate incident remediation. 
  • Automate security workflows: Integrate AI for event triage, alert correlation, and response orchestration. 
  • Apply AI techniques in operations: Incorporate AI into threat modeling, behavior analysis, and continuous monitoring. 

AI governance, risk, and compliance (19%)

  • Understand regulatory frameworks: Identify global governance requirements and their implications for AI adoption. 
  • Integrate GRC into AI projects: Incorporate governance, risk management, and compliance practices throughout the AI lifecycle. 
  • Ensure responsible AI use: Apply ethical guidelines, legal standards, and industry frameworks such as GDPR and NIST AI RMF.
 

Course Overview:

Windows Forensic Analysis is a hands-on course that covers digital forensics of the Microsoft Windows operating system.  The collection and analysis of data tracking user based activity that can be used for internal purposes or legal litigation.  TechNow has the student analyze many data images for various Windows operating systems, as current as Windows 8.1, Windows 10  in an environment that uses many Cloud technologies such as  Office365, Skydrive, Sharepoint, Exchange Online, and Windows Phone.

This is not death by power point. The course is aligned with digital forensic investigators and executing hands-on labs. Lecture and labs walk the student through the knowledge required to truly understand the mechanics of Windows Forensic Analysis.

Attendees to TN-909: Windows Forensic Analysis will receive TechNow approved course materials and expert instruction.

Date/Locations:

No Events

Duration: 5 days

Course Objectives:

  • Windows Operating System Components
  • Core Forensic Principles
  • Live Response and Triage-Based Acquisition Techniques
  • Windows Image Mounting and Examination
  • Memory, Pagefile, Filesystems
  • Data and Metadata
  • Profiling systems and users
  • Tracking USB and BYOD
  • Log and Registry Analysis
  • User Communications
  • Email Forensics
  • Browser Forensics
  • Reporting and  Presentation

Course Prerequisites:

  • Windows and Security Experience

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Certified Offensive AI Security Professional (COASP) validates the competencies required for practitioners who need to demonstrate offensive AI security skills, emulating adversaries, validating defenses, and leading red-team/blue-team exercises to keep AI resilient, reliable, and auditable

The Certified Offensive AI Security Professional (COASP) equips you to identify and neutralize AI-specific threats before attackers do. And Bridges security, engineering, and data science so controls exist across the full AI life cycle.

Participants will gain hands-on experience to perform end-to-end adversarial testing and deliver defensive validation evidence including the ability to simulate adversarial AI kill chains, Harden AI architectures by secure system prompts, context windows, tool integrations, RAG pipelines, and agent memory, Conducting AI security assessments aligned to MITRE ATLAS, OWASP LLM/ML Top 10, NIST AI RMF, and DoD Test & Evaluation practices , This course covers how to build SOC-ready capabilities for AI-focused detection logic, incident playbooks, and forensic procedures , & how to execute prompt injection, adversarial prompting , Assess AI supply-chain risk , Implement defensive engineering controls and Produce assurance and compliance artifacts.

By the end of the course, learners will be well-prepared to take the Certified Offensive AI Security Professional (COASP) exam and demonstrate the ability to exploit vulnerabilities in LLMs and agents, and build defense that survive real world attacks, learners will master offensive techniques that break AI before the attackers do.

 

Course Outline: 

01. Offensive AI and AI System Hacking Methodology

02. AI Reconnaissance and Attack Surface Mapping

03. AI Vulnerability Scanning and Fuzzing

04. Prompt Injection and LLM Application Attacks

05. Adversarial Machine Learning and Model Privacy Attacks

06. Data and Training Pipeline Attacks

07. Agentic AI and Model-to-Model Attacks

08. AI Infrastructure and Supply Chain Attacks

09. AI Security Testing, Evaluation, and Hardening

10. AI Incident Response and Forensics 

 

Prerequisites: 

TN-412: Artificial Intelligence Essentials (AI|E) 

 

Dates/Locations:

No Events

Course Overview:

The Implementing Cisco Enterprise Advanced Routing and Services (ENARSI) gives you the knowledge you need to install, configure, operate, and troubleshoot an enterprise network. This course covers advanced routing and infrastructure technologies, expanding on the topics covered in the N-415: Implementing and Operating Cisco Enterprise Network Core Technologies (ENCOR).

Attendees to N-425 : Implementing Cisco Enterprise Advanced Routing and Services ( ENARSI) will receive TechNow approved course materials, expert instruction, and prepare you to take the 300-410 Implementing Cisco® Enterprise Advanced Routing and Services (ENARSI) exam.

Dates/Locations:

Date/Time Event
10/19/2026 - 10/23/2026
08:00 -16:00
N-425 : Implementing Cisco Enterprise Advanced Routing and Services ( ENARSI)
TechNow, Inc, San Antonio TX

Duration: 5 Days

Course Objectives:

  • Configure classic Enhanced Interior Gateway Routing Protocol (EIGRP) and named EIGRP for IPv4 and IPv6
  • Optimize classic EIGRP and named EIGRP for IPv4 and IPv6
  • Troubleshoot classic EIGRP and named EIGRP for IPv4 and IPv6
  • Configure Open Shortest Path First (OSPF)v2 and OSPFv3 in IPv4 and IPv6 environments
  • Optimize OSPFv2 and OSPFv3 behavior
  • Troubleshoot OSPFv2 for IPv4 and OSPFv3 for IPv4 and IPv6
  • Implement route redistribution using filtering mechanisms
  • Troubleshoot redistribution
  • Implement path control using Policy-Based Routing (PBR) and IP Service Level Agreement (SLA)
  • Configure Multiprotocol-Border Gateway Protocol (MP-BGP) in IPv4 and IPv6 environments
  • Optimize MP-BGP in IPv4 and IPv6 environments
  • Troubleshoot MP-BGP for IPv4 and IPv6
  • Describe the features of Multiprotocol Label Switching (MPLS)
  • Describe the major architectural components of an MPLS VPN
  • Identify the routing and packet forwarding functionalities for MPLS VPNs
  • Explain how packets are forwarded in an MPLS VPN environment
  • Implement Cisco Internetwork Operating System (IOS®) Dynamic Multipoint VPNs (DMVPNs)
  • Implement Dynamic Host Configuration Protocol (DHCP)
  • Describe the tools available to secure the IPV6 first hop
  • Troubleshoot Cisco router security features
  • Troubleshoot infrastructure security and services

Prerequisites:

 

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